Item 1. Business.
Overview
We believe that the surest path to a better future is through technological advancement and that the new frontier of technology lies at the interface of computation, engineering and biology. Our mission is to improve health with technologies that transform the way that antibody-based therapies are discovered. We aim to become the centralized operating system for next generation antibody discovery.
Our full-stack, artificial intelligence-, or AI, powered drug discovery platform searches and analyzes the database of natural immune systems to find antibodies that can be developed as drugs. We believe our technology increases the speed and the probability of success of therapeutic antibody discovery, including enabling discovery against targets that may otherwise be intractable. Rather than advancing our own clinical pipeline of drug candidates, we forge partnerships with drug developers of all sizes, from large cap pharmaceutical to small biotechnology companies. We empower them to move quickly, reduce cost and tackle the toughest problems in drug development. As of December 31, 2020, we had 103 discovery programs that are either completed, in progress or under contract with 27 partners. As a recent example, in a collaboration with Eli Lilly and Company, or Lilly, we applied our technology stack to co-develop bamlanivimab, also known as LY-CoV555, a potential antibody therapy to treat and prevent COVID-19. Starting from a single blood sample obtained from a convalescent patient, we and our partners identified a viable antibody drug candidate within three weeks that advanced into clinical testing 90 days after initiation of the program. Lilly progressed into these clinical trials at a greatly accelerated pace as a result of the Coronavirus Treatment Acceleration Program, which is a special emergency program for possible coronavirus therapies created by the FDA in 2020 to expedite the development of potentially safe and effective life-saving treatments to combat the COVID-19 pandemic. With respect to other or future product candidates, there is no assurance that any of our partners or collaborators will be able to advance a product candidate into clinical development on this timeframe again in the future, or at all. We initiated our partnering program in 2015 and have only had this one program result in clinical milestone payments to us to date and we have not yet had a program receive marketing approval.
Antibodies, which are proteins generated by natural immune systems to fight infection and disease, are amongst the fastest growing class of drugs and are used across multiple therapeutic areas, including oncology, inflammation, neurodegeneration and many others. In 2019, antibody-based therapeutics accounted for over $140.0 billion in sales worldwide and represented five of the top 10 selling therapeutics. The rise of genomics, high-throughput biology and genetic engineering has greatly expanded the opportunity and the ecosystem of innovators working to advance the development of antibody-based therapeutics. There has been a proliferation of biopharmaceutical companies pursuing innovative drug candidate formats and new targets. As new entrants continue to emerge, we believe the total addressable market will continue to expand.
As the field of antibody therapeutics evolves, finding novel antibodies with desired therapeutic properties has become increasingly competitive and demanding. We believe that there are two fundamental problems hindering the discovery and development of next generation antibody-based therapeutics. The first is the state of technology: because of the limitations of legacy discovery approaches, there are many well-validated targets for which suitable antibodies cannot be found. The second is access: most companies are forced to cobble together fragmented solutions and lack the facilities and expertise needed to prosecute their antibody programs. Both of these problems contribute to the rising cost of drug development and delay bringing needed therapies to patients.
Many emerging and established life sciences companies have been built around technologies that focus on one or a limited number of steps in the discovery process, including immune repertoire sequencing, or RepSeq, single-cell analysis, AI, and transgenic rodent platforms. We believe we uniquely integrate proprietary technologies that address each of these steps, creating a complete solution for our partners. Over the last eight years, we have developed and assembled technologies that unlock the database of natural antibodies. We are democratizing the industry by providing our partners of all sizes with access to our centralized operating system.
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As depicted in Figure 1 below, our technology stack is a chain of interlocking technologies that is designed to enable the identification of antibodies with desired therapeutic properties.
Figure 1: Our Technology Stack
Some notable technologies within our stack that compound the productivity and efficiency of each step of the discovery process include:
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Source. We combine proprietary immunization with genetically engineered mouse technologies, including the proprietary suite of humanized mice we acquired in November 2020 in connection with our acquisition of Trianni, to provide a diverse source of human antibodies.
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Search. Our patented microfluidic single-cell screening technology combines speed, throughput, efficiency, resolution and versatility, enabling rapid and deep searches of natural antibody responses.
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Find. Following the acquisition of Lineage Biosciences Inc., or Lineage, in March 2017, we integrated high-throughput RepSeq technology with our single-cell screening technology to provide leading capabilities for the comprehensive profiling and functional characterization of antibody diversity.
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Analyze. Our internally developed platform, Celium, a powerful computational engine for mining, interacting and visualizing the terabytes of data generated during an antibody discovery campaign, combines software, AI and visualization tools to organize, compute and interactively explore large multidimensional data sets.
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Engineer. We acquired rights to the OrthoMab bispecific technology in June 2020, which is a versatile and clinically-validated protein engineering solution to design and produce bispecific antibodies.
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The marriage of advanced data collection and computation creates a flywheel effect that augments our technology. As we run our partnership business, we are amassing unique, multi-dimensional data sets that link measurements at the level of single immune cells with the properties of the antibodies they make and the DNA sequences that encode their function. A single antibody discovery project can generate millions of DNA sequences and single-cell measurements, as well as thousands of target-specific antibodies, each characterized by hundreds of data points. Every project generates more data about the antibody immune response. This creates a competitive advantage whereby Celium extracts insights from the data that allows us to accelerate wet lab experimentation with in silico computation in a continuously iterative process. Because our computation is grounded on real world data, the output of Celium is not theoretical predications. We find real molecules that have been optimized by nature.
Our business thesis is based on the belief that technological advancement can improve the drug development process and that maximizing the value and impact of our work is best achieved through partnerships. In March 2020, we tested these beliefs as we
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mobilized our response to the COVID-19 pandemic. Working with our partner Lilly, we were able to progress from initiation of discovery to clinical trials in only 90 days.
As of March 15, 2021, bamlanivimab, the first monoclonal antibody therapy from this collaboration, has been evaluated both alone and together with another antibody called etesevimab in more than 5,000 patients across multiple clinical trials for the treatment and prevention of mild-to-moderate COVID-19. Bamlanivimab is authorized in more than 15 countries, including the United States, Canada, Germany, France, Italy and Israel, and has been used to treat approximately 360,000 high-risk COVID-19 patients.
Lilly has successfully completed a Phase 1 study of bamlanivimab in hospitalized patients with COVID-19 (NCT04411628). A Phase 2/3 study in people recently diagnosed with COVID-19 in the ambulatory setting (BLAZE-1, NCT04427501) is ongoing. A Phase 3 study of bamlanivimab for the prevention of COVID-19 in residents and staff at long-term care facilities (BLAZE-2, NCT04497987) is also ongoing. In addition, bamlanivimab is being tested in the National Institutes of Health-led ACTIV-2 study in ambulatory COVID-19 patients. On January 27, 2021 Lilly announced an expansion to the ongoing BLAZE-4 trials to evaluate bamlanivimab together with VIR-7831.
Key findings from the clinical trials show the following, according to the press releases issued by Lilly on the indicated dates:
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September 16, 2020: Bamlanivimab reduced hospitalizations by 72% in high-risk patients recently diagnosed with mild-to-moderate COVID-19 (BLAZE-1 interim data).
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October 26, 2020: Bamlanivimab is unlikely to help hospitalized COVID-19 patients recover from advanced stages of their disease, and no additional patients were enrolled for treatment with bamlanivimab in the ACTIV-3 study.
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January 21, 2021: Bamlanivimab may prevent COVID-19 in nursing homes by reducing the risk of contracting COVID-19 by up to 80% in people exposed to the virus (BLAZE-2 Phase 3 data).
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January 26, 2021: Bamlanivimab together with etesevimab reduced hospitalizations and death by 70% in high-risk patients recently diagnosed with mild-to-moderate COVID-19 (BLAZE-1 Phase 3 data).
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March 10, 2021: Bamlanivimab together with etesevimab reduced hospitalizations and death by 87% in high-risk patients recently diagnosed with mild-to-moderate COVID-19 (BLAZE-1 Phase 3 data).
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Bamlanivimab received Emergency Use Authorization from the U.S. Food and Drug Administration, or FDA, on November 9, 2020. On November 22, 2020, Lilly was granted authorization for bamlanivimab by Health Canada under the Interim Order Respecting the Importation, Sale and Advertising of Drugs for Use in Relation to COVID-19. Similar authorizations for bamlanivimab have been granted in Europe, the Middle East and Africa. Bamlanivimab together with etesevimab received EUA from the FDA for the treatment of mild-to-moderate COVID-19 in high-risk patients on February 9, 2021. Through its COVID-19 Treatment Guidelines, the National Institutes of Health recommended the use of bamlanivimab together with etesevimab to treat early COVID-19 in high-risk patients on February 23, 2021. Bamlanivimab alone and together with etesevimab received a positive opinion from the European Medicines Agency’s Committee for Medicinal Products for Human Use, on March 5, 2021: the harmonized, European Union, or EU,-level opinion on the efficacy, quality, and safety of the antibodies can be used by EU member states when making decisions on the possible use of the therapies at a national level prior to market authorization.
Lilly has announced the following details regarding the purchase of bamlanivimab alone and together with etesevimab on the indicated dates:
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October 28, 2020: A purchase agreement with the U.S. government to supply 300,000 vials of bamlanivimab for $375.0 million.
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October 29, 2020: A fixed price contract for procurement of bamlanivimab in the amount of $312.5 million with the U.S. Army Contracting Command.
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November 24, 2020: An agreement with the Canadian government to supply 26,000 doses of bamlanivimab for the three-month period between December 2020 and February 2021, for $32.5 million.
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December 2, 2020: Purchase of an additional 650,000 doses of bamlanivimab by the U.S. government for $812.5 million.
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February 26, 2021: A purchase agreement with the U.S. government to supply 100,000 doses of bamlanivimab and etesevimab for $210 million through to March 31, 2021. The U.S. government will have the option to purchase up to an additional 1,100,000 doses through November 25, 2021, under the same terms as the base agreement and subject to agreement from Lilly, product availability, and the medical need in the U.S.
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February 26, 2021: Lilly reports that the aggregate number of doses of bamlanivimab as a single agent therapy that has been committed for purchase by the U.S. government is 1,450,000. Lilly confirms that more than 1 million doses have been delivered, and agrees to deliver 450,000 additional doses by March 31, 2021.
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Under our partnership with Lilly, we are entitled to receive a specified percentage of proceeds that Lilly receives from these sales. In 2020 we recognized a total of $198.3 million in royalty payments related to sales of bamlanivimab. As proud as we are to have played a role in the global response to COVID-19, we believe it is only an example of how our technology can accelerate drug discovery.
Our business has historically been both high growth and capital efficient. Revenues have grown at an approximately 200% CAGR since 2014. We have generated positive operating cash flow cumulatively since our inception in 2012 and in every year since 2018. Our partnership agreements include: (i) payments for technology access and performance of research, (ii) downstream payments in the form of clinical and commercial milestones and (iii) royalties on net sales of any approved therapeutics. We structure our agreements in a way that is designed to align our partners’ economic interests with our own. While the vast majority of our historical revenue reflects upfront payments from research programs, we believe the long-term value of our business will be driven by downstream milestone and royalty payments. For the years ended December 31, 2019 and 2020, our revenue was $11.6 million and $233.2 million, respectively. For the years ended December 31, 2019 and 2020 our net income (loss) was $(2.2) million and $118.4 million, respectively. As of December 31, 2020, we have entered into agreements for 103 partnered discovery programs, 80 of which include the potential for milestone and royalty payments from our partners. As of December 31, 2020, we had 206 full-time employees in Canada, the United States and Australia, which was comprised of approximately 51% scientists, 26% business professionals, and 23% engineers and data scientists.
Impact of COVID-19
At the onset of the pandemic in March 2020, the Company took proactive measures to protect the health and safety of our employees, business partners, vendors, and contractors. Some of the actions taken include the following:
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We implemented a comprehensive COVID-19 policy and communication platform and provided real-time updates company-wide relying on directives from local health authorities. As the situation progressed, we adapted accordingly, including adjusting all administrative staff to work from home.
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We implemented protocols for employees necessary to carryout Company functions in the office and laboratory facilities including physical distancing, personal and protective equipment, signage, erecting barriers between desks and lab benches, and implementing space restrictions for different areas of the facilities.
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Consistent with national and local health authorities, we restricted business travel and implemented procedures to control and monitor all office and facility access.
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We have not been required to stop laboratory and research activities due to the COVID-19 pandemic. We will continue to adapt and apply new measures as required and as directed by local health authorities.
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Our Strategy
Our mission is to improve health with technologies that transform the way that antibody-based therapies are discovered. To achieve this mission, we aim to become the operating system for next generation antibody discovery and to act as an integral part of our partners’ development efforts.
We seek to expand the industry of antibody therapeutics in two ways. First, we believe our technology can solve discovery problems to unlock new opportunities for therapeutic antibody development. Second, by accessing our teams, technologies and facilities, partners can eliminate the extended delays and costs associated with setting up antibody discovery capabilities. Through our partnership business, we aim to enable our partners to start programs without delay and prosecute them at maximum speed.
Our strategy includes:
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Create more value with our existing partnerships. We have entered into contracts for more than 100 antibody discovery programs. Our partners include large cap pharmaceutical companies, biotechnology companies of all sizes and non-profit and government organizations. Where appropriate, we seek to expand our single-program partnerships to multi-year, multi-target agreements. As of December 31, 2020, over 80% of partnerships with royalty-bearing contracts included multiple targets.
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Through continual expansion of our capabilities and the addition of new technologies we will also look to increase the royalties associated with our partnership deals.
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Increase the number of partnerships. We will work to forge new partnerships across our target customers, including large cap pharmaceutical companies, biotechnology companies of all sizes and non-profit and government organizations dedicated to drug development. We plan to gain new customers via increased business development activities, technological expansion and superiority over alternative methods. We will also work to increase the number of deals with smaller early-stage biotech firms by offering flexible deal structures and vertical integration from target to antibody drug candidate.
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Expand our market by delivering a full solution through forward integration. Many of our potential partners, including early stage biotech companies, are seeking a partner with the infrastructure, resources and expertise to execute early stage discovery and preclinical development programs. Building on our existing platforms, we are adding capabilities and infrastructure to support full chemistry, manufacturing and control, or CMC, activities and GMP manufacturing to provide our partners with a full solution from target to investigational new drug application, or IND, submission.
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Scale our teams and facilities to meet future demand. We are building capacity to support the execution of additional partnerships and expansion of the scope of discovery programs. To achieve this, we are investing in expanding our workforce and our facilities, and increasing efficiency through automation and software solutions. Over the past year we have grown our workforce by 93%, moving from 107 to 206 full-time employees as of December 31, 2020. Over this period, we entered into leases to expand our facilities from 21,000 square feet to 80,000 square feet, including a new 48,000 square feet research headquarters that is expected to open in the fourth quarter of 2021, are building a new GMP facility and are planning for a further facility expansion of approximately 200,000 square feet that will support cell line development, process development and GMP manufacturing of antibody therapeutics.
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Further our technological differentiation. We believe we have technological differentiation for discovery of antibody drug candidates from natural immune systems. We intend to maintain our leading position through research and development to amplify and add capabilities in areas such as computation, protein engineering, immunization technologies, genetically engineered rodents and cell line selection. As we do so, we will continue to expand and protect our intellectual property estate. We will continue to look for strategic technology acquisitions to broaden and deepen our capabilities and expertise in antibody drug discovery and development, or that offer opportunities to expand our partnership business into adjacent therapeutic modalities, including vaccine development and cell therapy.
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Leverage synergy of data and computation. We leverage unique data sets and AI to increase the efficiency, speed, and capacity of our discovery programs. In our partnership programs, we maintain rights to large data sets that connect information at the level of single-cell measurements, DNA sequence and protein function. We use this data to create an accelerating flywheel of learning: data generation from our partnership business provides the basis for AI modules that lead to expanded capabilities and faster data generation which supports our partnership business.
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We believe our strategy creates a virtuous cycle, as depicted in Figure 2 below, that will drive our position as the centralized operating system for antibody discovery.
Figure 2: Our Business Strategy
Our Key Competitive Strengths
Our industry position and success are based on the following key competitive strengths:
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Better antibody discovery, from the start. Our ability to perform comprehensive searches of natural immune systems allows us to expand the universe of antibody candidates and increase the probability of finding those candidates with therapeutic properties. This allows us to be more selective, thereby increasing the quality of leads that advance to development, including finding rare antibodies and reducing the time, cost and effort of having to start again or fix molecules that are broken.
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A full-stack technology, accessible to all. We have built a centralized operating system for therapeutic antibody discovery and development. Our proprietary technology stack leverages and integrates a wide array of state-of-the-art technological tools and expertise in areas including microfluidics, single-cell analysis, high-throughput genomics, machine learning and hyper-scale data science. Our end-to-end solution allows us to rapidly source, search, decode, engineer and ultimately deliver lead antibodies for our partners’ development efforts. We democratize antibody discovery by enabling drug developers of all sizes throughout the world to benefit from our technologies and initiate their programs without delay.
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An AI platform built on real world data. Our AI platform is built and continually validated with real world data. Unlike AI-only drug discovery platforms, the output of our process is not theoretical predictions. We apply computation to find real molecules with desired properties. We inform wet lab experimentation with in silico computation, and vice versa, continuously iterating this process for each discovery campaign.
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A unique combination of hardware, software and wetware. We believe our approach is differentiated based on the integration of proprietary and patented technologies across hardware, software and wetware. Our founders pioneered single-cell antibody screening in nanoliter volumes and developed proprietary microfluidic devices and custom instrumentation to automate and scale screening. Our workflows incorporate proprietary immunization methods, including the Trianni suite of transgenic mice, optimized molecular biology protocols and patented protein engineering technologies. These technologies are bound together with custom software, data science tools and machine learning algorithms, and are operated by high-performing teams.
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Industry-innovating business model. We have built a high-growth business that applies to a broad universe of partners and directly aligns with their economic interests. We believe this capital-efficient model allows us to build a diversified portfolio of royalty streams that reach into the future therapeutic antibody market. Because we focus on improving the process of drug discovery rather than developing an internal pipeline, we will continue to make critical investments in technology that benefit the entire industry. As of December 31, 2020, we have entered into 103 partnership agreements.
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The flywheel of data, partnerships and technology. We believe our technology becomes more powerful and more accurate with each program. Data generated through our discovery partnerships provides the basis for training AI modules that yield new insights into antibody responses and that improve the speed, accuracy and efficiency of our technology. This creates a positive feedback loop through which each round of data analysis improves the speed and efficiency of the next round of data generation.
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Strong brand built on performance and third-party recognition. Our business is built on the success of our partners and the strength of our technology. The strength of our technology has won the support of governments, including $30.6 million from the U.S. Defense Advanced Research Platform, or DARPA, Pandemic Prevention Platform, or P3, program and CAD $175.6 million ($125.6 million) from the Government of Canada’s Strategic Innovation Fund. We have been covered extensively by the media, including top-tier outlets such as CNN, MSNBC, Time Magazine, the Financial Post, The New York Times, Wired and the Wall Street Journal. In 2020, we were named to Fierce Biotech’s Fierce 15 list and received three awards from Fast Company, including Innovative Team of the Year.
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Robust IP portfolio including foundation patents. Our patent portfolio reflects our innovative position and end-to-end capabilities in antibody discovery, including microfluidic single-cell screening and cell culture, single-cell genomics, antibody RepSeq and bispecific antibody engineering. Our Chief Executive Officer and Chief Operating Officer are named inventors of the microfluidic single-cell screening and cell culture patents exclusively in-licensed from the University of British Columbia, or UBC. Through the acquisition of Lineage, we control some of the earliest filed RepSeq patents that we are aware of. We leverage the advanced computational and experimental protein engineering methodologies disclosed and claimed in the OrthoMab patent portfolio to generate bispecific antibodies from any two antibody sequences. In addition, we have filed non-provisional applications in the US with counterparts in numerous jurisdictions around the world related to bamlanivimab, and other COVID-19 antibodies, which we have exclusively licensed to our partner Lilly.
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Founder-led team, custom-built for interdisciplinary technology development. We believe investments in teams and technology are the surest path to a better future and that the frontier of technology lies at the intersection of engineering, biology and data science. Our founder-led team, backed by blue chip investors from the life sciences and tech sectors, has been custom-built for technology development at the interface of genomics, microfluidics, computation, biologics, protein engineering and translational sciences. As of December 31, 2020, we employed 206 people, over two-thirds of whom are scientists, engineers, and data scientists.
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Industry Background
Nature’s database of antibodies
Antibodies are the body’s solution for fighting infection and disease. Antibodies are Y-shaped proteins, made by the immune system, that circulate in the blood. Their function is to specifically recognize foreign targets (viruses, bacteria, proteins or cancer cells), bind to them and then eliminate them. The repertoire of antibodies made during an immune response is extensive and encodes essential information about our health, our history of disease and our protection against future illness.
Unlike approximately 20,000 genes that are hard-coded in the human genome, antibodies are created de novo in each individual immune cell through a process of the random shuffling of DNA fragments. For each antibody, this random shuffling creates two separate genes, referred to as the heavy chain and the light chain, that assemble to form a complete antibody molecule. Taken together, there are approximately 2.9 million different combinations of heavy and light chain genes. The complexity of this diversity is augmented by additional random DNA insertions and edits. This results in over 100 trillion different possible antibody molecules, roughly 100 billion times the number of hard-coded genes in our genome. This diversity is astonishingly large. To put it into perspective, if all the possible antibody variable sequences were typed back-to-back in 12-point Arial font, the resulting string of letters would extend from the earth to the sun over 1,000 times.
At any given moment, each of us is making approximately one billion different antibodies, an infinitesimal fraction of the possible diversity of antibodies. Each antibody is made by a single immune cell. When provoked by infection or disease, these cells quickly divide and mutate their antibodies to create an expanded family, or lineage, of cells having closely related antibodies. Cells producing antibodies that best bind to the target get a selective advantage and divide faster: those that do not, are eliminated. Through this selection process, immune systems generate large families of optimized antibodies that can bind almost any target tightly and with exquisite precision.
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Natural antibodies created by the immune system benefit from the processes of selection, quality assurance and optimization that have evolved over 500 million years. As a result, naturally-produced antibodies generally have superior properties for drug development. As compared to antibodies isolated from man-made libraries, they generally bind more tightly and specifically, and have superior properties for manufacturing. Due to their superior drug-like properties, approximately 92% of all approved antibody drugs have been derived from natural immune systems, as illustrated in Figure 3 below.
Figure 3: Sources of Approved Antibody Drugs
(Source: TAB Database of Therapeutic Antibodies, September 27, 2020).
Our Market Opportunity
Antibodies are the fastest growing class of drugs and are used across multiple therapeutic areas, including oncology, inflammation, neurodegeneration and many more. In 2019, antibody-based therapeutics accounted for over $140.0 billion in sales and represented five of the top 10 selling therapeutics worldwide. Antibodies represented 70% of the sales of all biologics, and 36 antibody therapeutics reached blockbuster status with sales higher than $1.0 billion. Mean peak-year sales for currently marketed monoclonal antibody and monoclonal conjugate antibody drugs are estimated at approximately $3.1 billion (median $1.8 billion). As of September 30, 2020, there were over 115 approved antibody therapeutics, with more than 150 in Phase 3 clinical trials. The cycle time for drug discovery projects to reach Phase 1 clinical trials from target selection has been approximately 5.5 years. Monoclonal antibody and monoclonal conjugate antibody drugs have taken on average approximately 7.5 years to reach market authorization from the start of Phase 1 clinical trials. From 2014 to 2020, the number of Phase I clinical trials beginning to enroll patients for monoclonal antibody and conjugate antibody therapies increased by more than 120%, from 207 to over 460.
The probability for a biologic drug discovery program to succeed in reaching Phase 1 clinical trials has been estimated at approximately 37%. Monoclonal antibody and monoclonal conjugate antibody drugs have had an approximately 18.5% likelihood of receiving market authorization from the start of Phase 1 clinical trials. According to a study of over 9,000 clinical development programs at large pharmaceutical companies, approximately 90% of all molecules fail to reach approval. Antibody-based therapeutics have thus achieved a higher rate of clinical success and offer several advantages:
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Minimal off-target toxicity
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Long half-life in circulation
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Ability to stimulate the immune system
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Higher affinity and potency
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As shown in the Figure 4 below, the antibody-based therapeutics market is expected to reach approximately $260.0 billion in size by 2025, representing a CAGR of approximately 11% for the period from 2019 to 2025. Further, the more nascent cell therapy market is expected to grow from $1.0 billion in 2019 to over $17.0 billion in 2025, reflecting a CAGR of approximately 60%. Opportunities for accelerating growth of the antibody therapeutics market include improved access to traditionally difficult targets (e.g., G protein-coupled receptors, or GPCRs, and ion channels), the emergence of new therapeutic modalities (e.g., bispecifics,
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chimeric antigen receptor T cells, or CAR-T, cell therapy and antibody conjugates) and the ever-expanding number of companies entering the space. Our partnership business allows us to participate in the future antibody therapeutic market through royalties and milestones on drugs that have been discovered using our platform. As of December 31, 2020, we had 103 discovery programs that are either completed, in progress or under contract with 27 partners ranging from large pharmaceuticals to biotechnology companies.
Figure 4: Total End Market Sales ($billion)
Challenges
Technology has dramatically improved efficiency in nearly all sectors of our economy. Within drug discovery, technological improvements have also been made, but we believe the impact has been limited. For instance, the cost of developing new drugs has roughly doubled every nine years since the 1950s. This retrograde trend, referred to as Eroom’s Law, stands in stark contrast to Moore’s law, which successfully describes the doubling of computational power every two years.
Looked at from any perspective, drug development still:
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Fails too often. According to a study of over 9,000 clinical development programs at large pharmaceutical companies, approximately 90% of molecules fail to reach approval. Failure rates are even higher when considering programs that do not advance into clinical development. We believe the prevalent use of outdated technologies and fragmented processes by antibody drug developers of all sizes create significant inefficiencies throughout the drug discovery process. When antibodies with suboptimal properties are advanced into preclinical and clinical development, they are less likely to progress through development.
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Takes too long. Based on a database of antibody drug development programs, the average antibody drug takes between approximately 9.4 and 12 years from initiation to approval. Selecting an antibody with the desired properties for successful preclinical and clinical development is akin to finding a needle in a haystack. We believe the inefficiencies in established antibody discovery methods can contribute up to years of delays and result in suboptimal antibodies being developed.
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Costs too much. According to a well-publicized study published by Tufts University in 2016, the average cost of drug development was approximately $2.9 billion. A significant portion of this cost relates to the use of suboptimal drug candidates.
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We believe that these challenges are often attributable to a continued reliance on outdated technologies. This is a watershed moment to redefine drug discovery. The past 10 years have seen unprecedented advances in the tools to measure biology, including genomics, high-throughput imaging and industrial-scale lab automation. These tools generate an avalanche of data that contain the
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insights needed to more quickly bring drugs to the clinic. At the same time, computational power and AI now make it possible to see relationships within big data sets that could otherwise not be seen.
Deep integration of high-quality data generation and computational tools are needed to solve the following challenges in discovery:
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Underpowered and fragmented technologies. There are well-validated drug targets that cannot be addressed using conventional methods because of limitations with:
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Outdated discovery technologies. Antibody discovery workflows primarily use technology invented more than 35 years ago, including hybrid cells, or hybridoma, and display. Hybridoma provides only a tiny window into the database of natural antibodies. Display technologies do not benefit from natural antibody optimization.
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Fragmented solutions. Recently developed technologies are not integrated into a complete solution and address only a limited number of steps in antibody discovery.
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Access to technology. Most companies are unable to access the novel technologies needed to address every step of the antibody discovery process:
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High entry barrier. The time and capital-intensive nature of building internal drug discovery capabilities limits the number of firms that can effectively participate in drug development.
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Siloed technology access. New technologies are often held within companies for internal use and not available broadly.
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Developing technologies are entrenched in theoretical solutions. The application of machine learning approaches can be limited by predictions that are difficult or impossible to transfer into experimentally validated results.
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Our Platform
Our platform is an operating system designed to support many antibody modalities; unlock new targets; increase the speed to clinical development for our partners and increase the potential clinical and commercial success for our partners.
Our full-stack, AI-powered technology sources, searches, decodes and analyzes antibody responses with the ultimate goal of engineering new antibody drug candidates for our partners. Our platform incorporates and integrates modern technology tools from engineering, microfluidics, single-cell analysis, high-throughput genomics, machine learning and hyper-scale data science. We have internally developed, in-licensed or acquired our technologies. We deploy our platform to help our partners in their efforts to identify antibodies with better potency and developability.
We believe our approach of integrating modern hardware, software and wetware is unique. We have pioneered nanoliter volume single-cell antibody screening methods using microfluidics. Our workflows incorporate proprietary immunization methods, including the Trianni suite of transgenic mice, optimized molecular biology protocols and patented protein engineering technologies. The aggregation of these technologies, coupled with our proprietary processes and team, allows us to provide a differentiated offering to our partners. Figure 5 below represents how our technologies are integrated into one stack.
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Figure 5: Our Technology Stack with Workflow Summary
The computational engine of our platform, Celium, combines software, AI and visualization tools to mine, organize, compute and interactively explore the immense multidimensional data sets that we produce in each antibody discovery campaign. Unlike many AI-based drug discovery approaches, Celium is continually improved with real world data. We iteratively inform wetlab experimentation with in silico computation, and vice versa. The output of our process is not theoretical predictions. We discover real molecules that have been optimized by nature.
Our platform is an operating system that is designed to provide the following benefits:
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Support many antibody modalities. Our technology is capable of performing discovery from a variety of species and using a wide array of selection criteria. We believe this expands the starting diversity and increases the likelihood of finding antibodies with specific properties needed for new antibody therapeutic modalities: discovery of binding domains for a variety of antibody formats; discovery of internalizing antibodies for antibody-drug or antibody-siRNA conjugates; single-chain camelid antibodies for use in CAR-T and protein engineering; and antibody pairs that have specific affinity and binding epitope recognition for bispecific antibody applications.
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Unlock new targets. Our technology is capable of performing deep searches of antibody responses using cell-based assays that preserve the native conformation of traditionally difficult membrane protein targets. We believe this capability, combined with our proprietary immunization methods, provides a unique advantage in the discovery of rare antibodies that modulate the function of GPCRs and ion channels, two large and well-validated families of drug targets for which discovery using traditional techniques has been extremely difficult or intractable. Our proprietary Trianni All-Epitope mouse line (currently in validation) is engineered to mount robust immune responses against difficult targets that have high homology between rodents and humans, such as some high-value GPCR and ion channel class of targets that are prevalent in many diseases and indications including cancer, neurodegenerative and cardiovascular diseases, and pain.
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Increase the speed to clinical development for our partners. Our integrated technology stack is designed to accelerate the discovery and pre-clinical development process. We anticipate substantial time can be saved through faster workflows and
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avoiding unnecessary cyclical efforts. Our technology stack is capable of going from screen to hundreds of antibody sequences in only three days, and from sequences to characterized antibody proteins in less than ten days. Speed may also be achieved by increasing diversity at the start of discovery to maximize the chance that suitable leads are found on the first pass, and by minimizing the requirement of protein engineering. Finally, additional speed in discovery can be achieved by integrating all steps of the process seamlessly.
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Increase the potential clinical and commercial success for our partners. We aim to increase the probability of clinical and commercial success of our partners. Our technology stack is designed to provide a competitive advantage in speed to the clinic and to identify antibodies with superior biophysical properties.
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We believe our competitive advantage is derived from integration of multiple proprietary technologies and a seamless workflow. Table 1 below provides how each aspect of our end-to-end technology stack addresses challenges in antibody therapeutic discovery:
Table 1: Our Platform and Solution
Our Partnership Business
We forge partnerships with large cap pharmaceutical companies, biotechnology companies of all sizes and non-profit and government organizations. Our partners select a target and define the antibody properties needed for therapeutic development. We provide discovery solutions to partners that have a range of discovery capabilities, from the highly enabled to the less enabled. We enable discovery against targets that have traditionally been intractable, and we accelerate programs against less difficult targets.
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Our Target Market
We provide discovery solutions to partners that have a range of discovery capabilities, from the highly enabled to the less enabled. We accelerate discovery programs spanning a range of difficulty, from traditionally “Intractable discovery problems” to less difficult “Tractable discovery problems”. These categories, taken together, create a two-dimensional grid that segments our market opportunities as shown in Figure 6 below.
Figure 6: Our Target Market Matrix
The four segments depicted in Figure 6 above are as follows:
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Segment 1. Includes tractable targets at large cap pharmaceutical and large biotech companies that have made significant investments in building internal capabilities in antibody discovery, typically using automated hybridoma methods and/or antibody display technology. We believe that our full technology stack allows us to serve this market by delivering antibody drug candidates faster and of higher quality, and by providing access to more advanced technologies for next-generation biologics.
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Segment 2. Includes intractable targets at large cap pharmaceutical and large biotech companies. This segment holds untapped potential to generate first-in-class therapies for large unmet medical needs (e.g., pain, autoimmunity, metabolism), but technological barriers have resulted in limited success. We believe our technology provides a strong competitive advantage to find viable antibody drugs candidates for difficult targets, including GPCRs and ion channel targets.
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Segment 3. Includes tractable targets at growth biotech companies. These companies have comparatively limited discovery capabilities versus their larger peers. We believe that in working with these partners we can provide the following advantages: (i) access to a fully integrated technology stack (ii) accelerate their efforts with timely access to the necessary teams and facilities and (iii) improve the quality of the final antibody leads. In this way, we democratize antibody discovery by providing all of our partners with access to our centralized operating system.
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Segment 4. Includes intractable targets at growth biotech companies. Presently, there are few partners working in this market segment. We believe that our technology stack can unlock these opportunities, leading to an expanded ecosystem of companies developing antibody therapeutics with the potential to become first-in-class therapies.
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Our Partnership Deals
Our deals emphasize participation in the success and upside of future antibody therapeutics. Our partnership agreements include near-term payments for technology access, research and intellectual property rights, and downstream payments in the form of clinical and commercial milestones, and royalties on net sales.
As of December 31, 2020, we had 103 discovery programs that were either completed, in progress or under contract, including 80 with the potential for milestone and royalty payments. Our partnership agreements are typically terminable at will with 90 days’
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notice prior to identification of a target, after which point they may only be terminated for cause. A summary of the recent publicly disclosed partnerships established over the last two years are included in Tables 2 and 3 below.
Table 2: Summary Partnership Agreements with Pharmaceutical & Biotechnology Companies from 2018 to 2020*
Partner
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# of Targets & Duration
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Therapeutic Indication or
Modality
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Date Announced
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Abdera Bioinnovations
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9 targets, multi-year
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Oncology
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January 24, 2021
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Invetx
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Multi-target, multi-year
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Animal Health
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November 19, 2020
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Kodiak Sciences
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Single target
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Ophthalmology
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October 29, 2020
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IGM Biosciences
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Multi-target, multi-year
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Oncology and immunology
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September 24, 2020
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Lilly
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9 targets, multi-year
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COVID-19 program Additional indications
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May 22, 2020
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Regeneron
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Multi-target, multi-year
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Multiple undisclosed
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March 16, 2020 **
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Invetx
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Multi-target, multi-year
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Animal health
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February 23, 2020
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Gilead Sciences
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Single target
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Infectious disease
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June 13, 2019
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Denali Therapeutics
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8 targets, multi-year
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Neurological diseases
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February 28, 2019
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Novartis
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Up to 10 targets, multi-year
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Undisclosed
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February 14, 2019
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Autolus
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Single target
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Cell therapy (CAR-T)
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November 29, 2018
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Undisclosed
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Multi-target, multi-year
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Cell therapy
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Undisclosed
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Undisclosed
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Single target
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Bispecific
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Undisclosed
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*
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All agreements include upfront payments and potential downstream milestone payments and commercial royalties.
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**
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Effective date of agreement
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Table 3: Summary of Partnership Agreements with Non-Profit & Government Organizations from 2018 to 2020
Non-Profit & Government
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Summary
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Therapeutic Indication or
Modality
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Date Announced
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Government of Canada
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• CAD $175.6 million ($125.6 million) over multiple years
• Funding for technology and manufacturing infrastructure for antibody therapies against future pandemic threats
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• COVID-19
• Infectious disease/ pandemic response
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May 3, 2020
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Bill & Melinda Gates
Foundation
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• $4.8 million over two years
• Follow-up to successful 2017 project on tuberculosis
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• Infectious disease, including HIV and malaria
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March 14, 2019
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Genome BC and Genome Canada
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• CAD $3.0 million
• Genome Applications Partnership Program (GAAP) with UBC
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• Duchenne muscular dystrophy
• Fibrosis
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August 16, 2018
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DARPA
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• Up to $30.6 million over four years
• Establish rapid pandemic response platform
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• Pandemic response
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March 13, 2018
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Non-Profit & Government
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Summary
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Therapeutic Indication or
Modality
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Date Announced
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CQDM and Brain Canada
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• CAD $0.8 million
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• Function-modifying antibodies against GPCR target
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January 27, 2018
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In March 2020, we entered into a multi-year strategic Research Collaboration and License Agreement, or RCLA, with Lilly on the discovery of antibodies for up to nine Lilly-selected therapeutic targets, including COVID-19. Under the terms of the RCLA, Lilly has the right to develop and commercialize therapeutic products resulting from our collaboration. As part of the RCLA, we received an upfront payment of $25.0 million and are eligible to receive research payments for non-COVID-19 targets. We are also eligible to receive pre-clinical, clinical, and product approval milestones and tiered royalties on future sales for all Lilly-selected targets. We are entitled to receive an aggregate of up to $29.0 million of milestone payments under the terms of the RCLA. As of December 31, 2020, we have received $15.0 million for clinical and other milestones related to bamlanivimab. For non-COVID-19 targets, we are eligible to receive royalties in the low single digits based on net sales; whereas for COVID-19, we continue to be eligible to receive royalties in the low- to mid-teens for aggregate sales below $125.0 million and mid-teens to mid-twenties on aggregate sales above $125.0 million. As of December 31, 2020, we have recorded $198.3 million for royalty payments related to sales of bamlanivimab.
Our Technology
Therapeutic antibody discovery has a myriad of challenges. Antibodies that are suitable candidates for therapeutic development must engage a target specifically, induce the desired therapeutic function and also have physical properties that make them suitable for manufacturing and formulation as drug products. Only a small fraction of the antibodies in any given immune response will satisfy all these requirements. Even for those that do, only a small subset will be optimal for drug development. Therefore, a broad and deep search of the database of natural antibodies is needed to expand the universe of quality drug candidates and increase the likelihood of success.
We have built a technology stack with five key capabilities that we believe solve the discovery problem and are critical to the success of any therapeutic program:
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Source. Generate and access a high-quality universe of antibodies for any target;
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Search. Explore this diversity with sufficient throughput and specificity to isolate the rare cells that make antibodies with the desired properties;
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Find. Decode the genetic sequences of selected antibodies and expand diversity with related sequences present in the immune response;
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Analyze. Collect data on the relevant therapeutic properties of each selected antibody to generate large multidimensional data packages, and apply computation to select the most promising leads;
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Engineer. Use broader information of antibody responses and molecular engineering to optimize and reformat lead antibodies for development.
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Our technology stack achieves these functionalities by leveraging state-of-the-art methods from microfluidics, single-cell analysis, high-throughput imaging, AI, robotics, genomics and protein engineering, all complemented by custom software and data visualization capabilities.
Source: Immunization
The first step in a therapeutic antibody discovery program is to generate the source of antibodies that will define the search space for discovery. There are two competing paradigms: generate synthetic antibody diversity in man-made libraries, known as the display methods, or generate antibody diversity in vivo by immunization of animals. A brief description of these methods, along with their challenges, is as follows:
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Synthetic antibodies. Display methods encompass a set of synthetic discovery approaches that are based on man-made collections, also referred to as libraries, of human antibody genes. These methods, in use for more than 25 years, have resulted in a small fraction of clinically approved antibody therapeutics. The main disadvantages of display libraries are (i) low binding affinity of antibodies from the initial selection step, necessitating protein engineering steps to increase affinity, (ii) difficulty in manufacturing leads due to poor expression and developability and (iii) difficulty in performing
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selections on high-value cell-surface targets. We believe these shortcomings have contributed to the relatively low success rate of display technologies in the clinic.
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Natural antibodies. In the same way that seasonal vaccination is used to generate antibodies that protect the population against flu, antibody responses against a drug target can also be generated through the immunization of animals. Antibodies generated in this way benefit from the natural process of selection (enriched for antibodies that bind the target), quality assurance (antibodies can be expressed and are not sticky, making them more developable into a drug candidate) and affinity maturation (the natural process whereby antibodies are optimized within the body to bind tightly to the target). As a result, antibodies generated through immunization are generally of higher quality and have accounted for the large majority of all approved therapeutics. However, some of the challenges faced with many immunization-based approaches are (i) difficulty in raising a strong immune response against poorly immunogenic targets, (ii) traditional screening methods that restrict immunization and discovery to rodents and (iii) the need to convert antibodies discovered in rodents to human antibodies (humanization) before they can be used.
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Our Approach to Sourcing Diverse Antibodies. We believe natural immune sources are a superior search space for therapeutic antibodies. To solve the challenges of sourcing antibodies by immunization, we have assembled multi- species screening capabilities, genetically engineered mouse technology and optimized immunization technologies that are capable of generating diverse and high-quality sources of natural antibodies.
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Any source, any tissue. Our single-cell screening and RepSeq capabilities enable discovery from any host species and any immune tissue, bypassing the restriction to rodent species of traditional screening approaches. To date, we have successfully applied our discovery technology to search immune responses of numerous species, including humans, mice, rats, rabbits, dogs, cats, llamas, alpacas and cows. In addition to greatly expanding our search space, the versatility of our platform also means we can access antibody responses of species with unique properties. For instance, we have completed multiple programs focused on isolating single-chain antibodies, or VHH antibodies, that are made by camelids (e.g., llamas or alpacas). VHH antibodies derived from camelids are of high interest due to their small size, ability to bind to novel epitopes and the ease with which they can be engineered to produce next generation therapeutics, including multi-specific antibodies and cell therapies. Finally, as recently demonstrated in our work on COVID-19, our approach also allows for a deep search of antibody responses from the large and complex immune responses of human donors, which have been naturally exposed to a pathogen.
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Human antibodies from rodents. The ability to source fully human antibodies from rodents provides our partners the added benefit of bypassing the need to humanize sequences identified from non-humanized animals. We acquired the Trianni humanized rodent platform in November 2020, which includes a suite of genetically engineered transgenic mice that express human variable antibody genes. Currently, the flagship Trianni mouse is available for discovery projects. The flagship Trianni mouse was generated with proprietary in silico design of antibody genes that resulted in a novel antibody gene structure at the heavy, lambda and kappa mouse antibody loci to maximize antibody diversity. This proprietary antibody design contains the human antibody repertoire, plus the natural constant regions of mouse antibody genes and the natural regulatory elements from the mouse genome, making these human antibodies optimized for expression and maturation by the mouse immune system. We believe this feature helps maximize the response to immunization, the diversity of human antibodies, and enable proper affinity maturation in the mouse to isolate quality human antibodies as therapeutic candidates in drug discovery campaigns. In addition to the flagship Trianni mouse, we acquired a suite of additional transgenic humanized rodent lines currently being validated and available for discovery projects in the near future, as indicated below. These lines aim to provide partners with the following benefits:
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Generate multispecifics and access difficult targets with the Heavy-Chain Only, or HCO, Mouse: The HCO Mouse expresses antibodies comprised of only heavy chains, without the accompanying light chains found in conventional IgG antibodies. This smaller HCO antibody can access additional target sites that the larger conventional IgG molecules cannot, due to less steric constraints, thereby expanding the target space. HCO antibodies can also serve as the basis for combining targeting arms for bispecific and multispecific antibodies without the complexity of correct heavy and light chain pairing. In addition, this mouse line provides the opportunity for generating the fully human VHH antibodies described above, without the expense of immunizing large camelids, and with the benefit of starting with fully human sequences that do not need to be engineered to be more human-like. The HCO Mouse was also generated with the proprietary Trianni in silico design that helps maximize immune response, antibody diversity and enable natural antibody maturation.
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Break immune tolerance with the All-Epitope Mouse: The All-Epitope Mouse is engineered to overcome immune tolerance to antigens that have high-homology to mouse proteins, to allow generation of robust immune responses against highly-conserved, high-value drug targets such as GPCRs and ion channels that are prevalent in multiple diseases and indications, including cardiovascular diseases, cancer, neurological diseases, inflammation and pain (see the subsection below titled “—Our Technology in Action”).
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Target new epitopes with the DD Mouse: The DD Mouse provides additional flexibility to discover antibodies with long CDR3 regions (the region of the antibody that makes primary contact with the target) allowing access of “hidden” or recessed areas of targets that are not available for contact by conventional IgG molecules with typical CDR3 lengths).
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Maximize efficiency with the Eazysort Mouse: The Eazysort Mouse is engineered to allow up-front enrichment of immune cells that recognize the target, helping maximize the efficiency of searching for the right antibodies by focusing the subsequent single cell screening to antibodies of interest.
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These proprietary transgenic mice, combined with our platform technologies in immunization, single-cell screening, immune repertoire profiling and protein engineering, provide a flexible and synergistic advantage for rapid, next-generation discovery and development of fully human antibodies for drug development across a very broad target space. Notably, the Trianni platform and suite of transgenic rodents, together with expertise from Trianni personnel joining our research and development program, is a foundation to develop additional novel next-generation animals to expand our platform.
In addition to the Trianni transgenic mouse technologies, we also have in-licensed the ATX-Gx humanized immunocompetent transgenic mouse platform from Alloy Therapeutics. Like the flagship Trianni mouse, the ATX-Gx mouse is genetically engineered to express human antibody genes. We believe that by performing immunizations on both the Trianni mouse and the ATX-Gx mouse in parallel, we are able to expand the diversity of human antibody responses, thereby creating a larger search space for antibody discovery. We believe this will allow us to isolate more and higher quality candidate antibodies. We expect to continue to use both the Trianni mouse and the ATX-Gx mouse in our partnered programs, along with the Trianni next generation mice for the most demanding therapeutic discovery projects.
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Optimized immunization methods. We have developed a suite of immunization technologies that have been optimized (i) for use with our screening platforms (ii) to address the challenge of immunizing each species, and (iii) to address challenging targets. Specifically, we have developed immunization methods that, when coupled with our deep screening capabilities, allow for antibody generation against targets that are 100% identical to the host species. This is particularly valuable for the generation of antibodies with desired species cross-reactivity (e.g., mouse, cynomolgus monkey—important animal models for testing antibodies in preclinical studies—and human), or for targeting highly conserved protein epitopes. Importantly, these strategies negate the perceived advantage of display platforms for bypassing tolerance, the process by which natural antibody responses are suppressed against self-similar targets. For further explanation, see the case study titled “Overcoming Tolerance with Proprietary Immunization and Deep Search Technologies” in “—Our Technology in Action.” We have also developed a suite of genetic immunization methods for targets that cannot be easily expressed or purified as soluble antigens. This is particularly valuable for discovery against high-value membrane protein targets including GPCRs and ion channels.
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Search: Microfluidic Single-Cell Screening
Searching natural immune systems is fundamentally a single cell problem. One mL of blood contains approximately 1 million white blood cells, of which approximately 1% are single antibody secreting cells, or B cells, that make antibodies. Of these, only a fraction is likely to bind to a target of interest, and of these binders, only a very small fraction is likely to have properties that make it suitable as a therapeutic. To effectively search the natural immune system for antibodies requires a technology that can scan through millions of antibody-producing cells and make high-resolution measurements to assess the properties of their unique antibodies. B cells are microscopic, having a diameter of approximately 10 microns (about 1/10 of the width of a human hair) and generate only a minute amount of antibody. When analyzed in the volume of conventional screening formats and conventional labware such as a 96-well plate, this small amount of antibody is too dilute, making it essentially undetectable.
It is because conventional methods lack the sensitivity to analyze individual cells that traditional discovery approaches require that each cell be “grown” into a larger population. However, since B cells generally cannot be grown into these larger populations in the lab, the classic approach to this problem is the “hybridoma method”, which is literally “fusing” a special type of cancer cell with immune cells obtained from the spleen of an immunized rodent (typically a mouse or a rat). These hybridomas inherit the immortal properties of the cancer cell line (i.e., can be grown) and continue to secrete a single type of antibody. Although this approach has been the workhorse of antibody discovery for decades, it has major limitations: (i) it is generally limited to rodents, (ii) it is slow (taking weeks to achieve sufficient cells to test the secreted antibodies) and (iii) it loses more than 99% of the available antibody diversity since the fusion process has extremely low efficiency, typically between 0.1% and 1%.
Our Approach to Search Natural Antibodies. To solve these challenges, our founders pioneered and developed a nano-liter volume single-cell microfluidic screening technology that provides the sensitivity, resolution and scalability needed to perform a deep search of any antibody response.
We believe our screening approach provides a unique combination of speed, throughput and versatility in searching antibody responses. Our microfluidic single-cell screening technology consists of custom-made microfluidic devices that integrate 256,000
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single-cell analysis chambers on a chip about twice the size of a credit card. At the beginning of a screening experiment, a sample of B cells isolated from an immunized animal is flowed into the device at a concentration selected to result in approximately one single cell per chamber. Once cells are loaded, they are isolated in single-cell analysis chambers, each having a volume of less than one nanoliter. In this small volume, approximately 100,000 times smaller than what is used in a conventional bench-top experiment, a B cell secretes enough antibodies within minutes to be detected by microscopy. Using fluidically-controlled reagent and particle additions, a variety of experimental protocols can be executed so that each single cell is interrogated to determine the properties of the antibody it makes. A screening experiment takes several hours and is performed the same day as immune cells are isolated from immunized rodents. This is significantly faster than the weeks required to establish hybridoma cultures.
Our microfluidic devices are operated using proprietary high-throughput imaging instruments that incorporate custom robotics, fluid control, software systems and AI-based image analysis. Each instrument can run two microfluidic chips in parallel for a total of 512,000 chambers per instrument run. In a two-hour run, each of the 512,000 chambers is imaged up to 10 times, resulting in over five million chamber images, or roughly 700 chamber images per second. A representation of our microfluidic screening devices and assay readouts are showing in Figure 7 below.
Figure 7: Our Screening Approach for Antibody Responses
Our AI-based image algorithms perform real-time analysis of these images to identify chambers that contain single cells that make antibodies with the desired properties. As depicted in Figure 8 below, our technology supports a wide array of complex image-based single-cell secretion measurements including multiplexed target binding on up to six targets, affinity-based enrichment, multiplexed cell-binding, ligand blocking assays and a selection of functional assays. We currently have throughput to screen more than four million cells per screening day.
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Figure 8: Representations of Exemplary Microfluidic Screening Assays
As compared to other technologies we believe our microfluidic screening platform provides unique combined advantages of:
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Throughput to screen greater than 500,000 cells per instrument run.
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Speed to go from immune cells to selected antibody-generating single cells in less than a day.
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Antibody selections based on a wide array of measurements.
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Capability to perform selections on both protein and cellular targets.
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Versatility to search antibody diversity from any species or tissue.
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Find: Automated Single-Cell Sequencing and RepSeq
The collection and interpretation of antibody sequence data presents several challenges. First, because only a small fraction of antibodies are suitable for therapeutic development, methods that are based on sequencing antibodies from single cells before evaluating their function are extremely inefficient, low-throughput and costly. Second, sequencing antibodies from selected single cells is technically challenging due to the very small quantities of starting material and the large number of possible sequences that need to be captured. Third, although bulk sequencing of antibodies can provide a comprehensive view of immune responses, these methods often lose information on the correct natural pairing of heavy and light protein chains, which together comprise an antibody, and provide no means to assess the functional relevance of each antibody.
Our Approach to Find Natural Antibodies. To solve these challenges, we combine our nano-liter volume microfluidic single-cell screening platform, automated single-cell antibody sequencing and immune repertoire antibody sequencing to enable the deep analysis and functional interpretation of antibody responses.
Automated single-cell sequencing. Our microfluidic single-cell screening technology allows us to evaluate the binding and/or functional properties of antibodies made by millions of single cells at the first step of analysis. For each screening run on each instrument, up to 768 individual cells that exhibit desired properties can be recovered into microplates for the following single-cell sequencing steps. Our proprietary sequencing protocols have been optimized to achieve approximately 90% efficiency in the recovery of high-quality heavy and light chain antibody sequences from single cells and have been adapted for discovery from multiple species. To achieve speed, reproducibility and throughput, our single-cell sequencing pipeline has been implemented using robotic automation and automated bioinformatics software. We currently have throughput to process up to 15,360 single cell samples per week and to recover high-quality, chain-paired sequences from 3,840 single-cell samples in three days.
RepSeq. We believe our RepSeq technology, when coupled with our microfluidic single-cell screening and sequencing technologies, provides unique capabilities for expanding the search of natural antibody responses. RepSeq is based partly on foundational RepSeq patents that we have exclusively licensed from Stanford as part of our acquisition of Lineage in 2017. RepSeq uses high-throughput sequencing to perform near-comprehensive profiling of the repertoire of heavy and light chain antibody genes that are present in a sample. In its highest-throughput implementation, a single RepSeq sequencing run can generate approximately 800 million antibody sequences.
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Since these are bulk sequences obtained from mixtures of large numbers of cells, the interpretation of these big data sets has multiple challenges. The first is the loss of information regarding which heavy chain is naturally paired with which light chain. The second is the inability to identify which rare antibody sequences are relevant to the program (e.g., bind to the target or have desired function). We solve both of these problems by annotating RepSeq data with functional sequence data derived from our single-cell microfluidic screening and sequencing technologies. Using the sequences of hundreds to thousands of antibodies with known properties, we are able to search RepSeq data from related samples to identify closely related families of antibodies that can be arranged in a lineage to reconstruct their evolution during the immune response. These expanded family trees provide valuable insights for vaccine research and are sources of ready-made alternative therapeutic candidates in cases where an antibody of interest has one or more suboptimal properties.
We have shown that the combination of single-cell analysis and RepSeq can expand the number of therapeutic antibody candidates by more than 10-fold in a single experiment, increasing the number of candidates from hundreds to thousands. Enriching for sequences of value by isolating target-specific immune cells that go into a RepSeq experiment can amplify the number of therapeutic antibody candidates. The combination of single-cell screening and RepSeq allows deep interrogation of an immune repertoire to find the best antibodies. For further explanation, see the case study titled “Human Immune Profiling” under “—Our Technology in Action.” The relationship between single-cell-derived antibodies and family members discovered using RepSeq data is depicted in Figure 9 below.
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Figure 9: Antibody Lineage Mapping
Analyze: High Throughput Cloning, Expression and Bioanalytics
Our microfluidic single-cell screening and RepSeq technologies are capable of generating hundreds to thousands of unique antibody candidate sequences from single-cell screening, along with thousands of related antibody sequences from RepSeq. These large antibody sets create formidable challenges for efficiently down-selecting to a small number of the best candidates for development, including (i) the need to produce and handle large numbers of high-quality antibodies by “expressing”, or converting sequences into protein antibodies that can be further analyzed, (ii) the need to perform measurements to characterize each antibody property for target recognition, function, and properties related to suitability for drug development, and (iii) the need for data management and computational tools to organize and understand the resulting data.
Our Approach to Analyzing Natural Antibodies. To address these challenges, we have built a high-throughput antibody generation and characterization pipeline that generates high-dimensional data clouds for each antibody candidate.
Our antibody expression pipeline combines optimized molecular biology protocols, proprietary expression vectors and robotics to enable the rapid cloning, expression and purification of recombinant antibodies using expression systems that are representative of current drug manufacturing standards. When starting from single-cell-derived antibody samples, we are able to generate hundreds of recombinant antibodies within eight days of screening. Our platform supports multiple antibody formats and currently has capacity to generate 960 high-purity antibody samples per week.
These antibodies are then tested across a suite of analytical assays to determine their biophysical properties including their purity, binding properties (e.g., specificity, epitope binning, affinity), thermal stability, expression levels and aggregation state. Expressed antibodies may be further characterized in appropriate functional cell-based assays to assess their potency. Corresponding in silico analysis is performed on each antibody to predict potential development liabilities, biophysical properties and immunogenicity.
We believe that by gathering more high-quality data on more antibodies from the start of the discovery process, we can significantly improve the speed, quality and success of antibody discovery.
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Celium: Computation and Data Exploration
Our technology stack generates vast and complex data sets. In a single discovery program, our technology stack can produce terabytes of data per screen, including:
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tens of millions of microscopy images from raw screening data
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hundreds of millions of DNA sequences from raw single-cell sequencing
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billions of DNA sequences from raw RepSeq data
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millions of single-cell antibody secretion measurements
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hundreds to thousands of unique single-cell-derived antibody sequences
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tens of thousands of related antibody sequences derived from RepSeq
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several hundred thousand antibody characterization measurements
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associated meta data for each experiment
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The sheer quantity and complexity of these data sets present formidable challenges. First, without specialized data collection, standardization, and storage solutions, data of this scale quickly becomes unmanageable and unusable. Second, finding hidden relationships in these complex data sets requires sophisticated computational tools that must be customized for the questions being asked and the data types and structures used. Finally, even once data has been reduced to the key properties of hundreds of antibodies, it may include hundreds of thousands of data points, making interpretation difficult or impossible for scientists.
Our Approach to Analyzing Complex Antibody Data. To address these challenges, we have built a computational engine called Celium that integrates data collection, standardization and storage with a suite of computational tools and an interactive visualization interface that allows scientists to quickly explore and interpret complex antibody data sets.
Our technology stack integrates software to automatically standardize the collection, storage, and version control of raw and processed experimental data obtained at every step in the discovery process. Data from every experiment is stored in a central database designed to maintain the relationships that exist between different measurement types, samples, and antibodies. Because we do not rely on third-party data, we are able to maintain strict data quality assurance and standardization. We believe this provides a critical advantage that greatly increases the value of data.
We have built a suite of computational tools for extracting information and uncovering relationships that are hidden within our data. Our data handling and report generation software automates standard analyses, and instantly returns essential information that would otherwise take days of work. We have developed machine learning and AI methods to replace manual data analysis, quality assurance and design steps associated with antibody sequencing, protein engineering and antibody chain-pairing. Similarly, our vast image data sets have allowed us to develop AI-based machine vision tools for real-time processing, enabling single-cell screening at much greater speed and resolution. Finally, we are using machine learning algorithms to explore the relationship between antibody sequence space and important drug-like properties including resistance to aggregation, stability and expressibility. We believe that these approaches will become increasingly powerful and predictive as our data sets grow.
We believe the value of data and computation is greatly amplified by intuitive tools that enable scientists to interactively explore and query complex data sets. Celium achieves this with a dynamic visualization interface that presents each unique antibody as a connection between two unique DNA sequences that encode for the heavy and light chain. Celium presents antibodies as a network of these connections that intuitively represents sequence similarity. Using this visual language, scientists can interactively navigate and filter thousands of antibodies in real time, using hundreds of different data features, as shown in Figure 10. This allows scientists to interactively explore the immune repertoire and set search criteria based on multiple features to find antibodies with the precise characteristics desired for a drug candidate.
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Figure 10: Celium Detailed View of Heavy and Light Chain Pairing
Antibodies of interest can be further explored to evaluate sequence features and to expand diversity by linking to associated RepSeq data as shown in Figure 11. By integrating RepSeq data, Celium has the power to map antibody lineages to identify lead candidates likely to have improved binding and functional properties. This allows for expansion of diversity around antibodies of interest to identify new drug candidates for testing and development.
Figure 11: Celium Chain ID Clonal & Rep Seq Lineage View
We believe Celium is a unique and powerful tool that enables rapid exploration of multiple data sets in hours that would otherwise take many weeks to search. It provides an elegant human interface that allows scientists to quickly explore data and gain insights that inform action.
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Engineer: Advanced Computational Protein Engineering Toolkit
Using natural diversity to accelerate engineering. In many cases, antibodies selected for development need to be modified before they are developed as drugs. These modifications are generally made through a combination of computational design and experimental testing, a process known as antibody engineering. Examples of antibody engineering problems include improving how tightly an antibody binds to its target; removing antibody sequences known to be problematic during manufacturing; modifying non-human antibodies to resemble human antibodies; and removing antibody sequences that may induce immune responses in patients.
The central challenge in antibody engineering is that the relationship between DNA sequence modifications and the resulting antibodies is not well understood. Antibody engineering therefore relies heavily on trial and error to identify DNA changes that give the desired phenotypic results. This process is complicated by the fact that optimizing for one property, such as binding affinity, may cause the loss of another desirable property, such as solubility or expression. This challenge is amplified when the source antibodies need major improvements, as is the case for synthetic antibodies that typically require multiple rounds of antibody engineering to improve their binding affinity, biophysical properties, or both.
Our Approach to Engineering Natural Antibodies. We address these challenges by first generating large, diverse and high-quality panels of candidate antibodies early in the discovery process and, second, by applying antibody engineering approaches that are informed by natural antibody responses.
We believe the best approach to protein engineering is to start with a large panel of the best possible candidate antibodies. To achieve this, we apply our microfluidic single-cell screening platform to maximize the diversity of antibodies selected upfront for multiple target-binding properties, followed by thorough characterization of their functional properties and developability. We then apply stringent filtering with the aim of down-selecting to a small number of leads. When performing discovery from humanized rodents, including our proprietary suite of Trianni humanized rodents, or from humans, we have used this approach to generate high affinity antibodies that require minimal engineering prior to development. Starting with a greater diversity of antibodies, which have been pre-selected for desirable properties and that benefit from natural immune responses, can significantly reduce development time and the technical risk of protein engineering.
In cases where antibody properties need to be improved, we can use expanded panels of antibody sequences from RepSeq to inform the design and generation of high-confidence optimization candidates. We believe this approach, to use natural antibody variants from the repertoire to help design optimized candidates, is particularly powerful for high-value membrane protein targets such as GPCRs and ion channels (which cannot be optimized by conventional display-based methods). We also believe it can significantly improve the success-rate and reduce the time needed to optimize development leads.
OrthoMab Bispecific Platform. Beyond improving antibody properties, antibody engineering can also build completely new antibody drug formats with novel molecular geometry, binding properties or chemical properties. Of particular interest is the combination of two source antibodies to create a “bispecific” antibody that can simultaneously bind to two targets. Antibodies are normally comprised of two identical heavy chains and two identical light chains, to make a symmetrical “mirror-image” molecule with two identical targeting arms. In contrast, bispecific antibodies are generally comprised of two different heavy chains and light chains, and therefore have targeting arms that recognize two different targets. Because of their unique properties, bispecific antibodies are a rapidly emerging new class of antibody therapy. Following the first approval in 2015, there are now more than 120 molecules in clinical development, including more than 80 in Phase 1. They enable improved and novel therapeutic mechanisms not possible with other modalities. Examples of the application of bispecific antibodies include (i) recruitment of immune cells to help kill cancer cells, (ii) linking together two receptors to activate a signaling pathway, (iii) serve as a protein scaffold to bring proteins together and (iv) modifying the pharmacokinetics and pharmacodynamics of soluble proteins, as depicted in Figure 12 below.
Figure 12: Therapeutic Modalities Using Bispecific Antibodies
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To realize this potential, it is important to develop capabilities to:
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generate a large and diverse panel of starting antibodies that recognize multiple epitopes (locations on their respective targets), with varying binding affinities and binding geometries.
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identify suitable pairs from this starting panel that bind with the right orientation and the right location on each respective target, and bind with suitable affinity
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manufacture bispecific antibodies in a scalable and efficient process
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ensure the resulting bispecific antibody looks as similar as possible to a normal antibody so as not to induce an immune response in the patient.
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Our Approach to Engineering Bispecific Antibodies. OrthoMab, addresses these challenges by enabling the combination of any two source antibodies into a bispecific antibody that can be manufactured using conventional expression and purification methods, with minimal liabilities and immunogenicity.
OrthoMab is a clinically validated protein engineering technology that enables the creation of a bispecific antibody from any two source antibodies, each comprised of a unique heavy chain and a unique light chain. The key innovation of OrthoMab is a set of patented DNA mutations that have been computationally designed using molecular structural modeling. These mutations ensure that the four antibody chains pair correctly: the two different heavy chains preferentially associate together, rather than two molecules of the same heavy chain, and each light chain pairs only with its cognate heavy chain as shown in Figure 13 below.
Figure 13: Patented OrthoMab DNA Mutations
By using engineered mutations to control chain-pairing, OrthoMab enables manufacturing of bispecifics at high yields and purities using industry-standard processes. Because each side of an OrthoMab bispecific is 99% identical to the source antibody, it lowers the risk of introducing immunogenic epitopes. Finally, in addition to conventional Y-shaped bispecific antibodies, OrthoMab allows for the creation of a wide array of alternative bispecific formats as shown in Figure 14. The OrthoMab technology was patented by scientists at Lilly and the University of North Carolina at Chapel Hill. We acquired non-exclusive rights toutstandingo use OrthoMab technology from Dualogics, LLC, through an asset purchase agreement in July 2020.
Figure 14: Exemplary Bispecific Formats Achievable with OrthoMab
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Our Technology in Action
COVID-19: From Discovery to Clinic in 90 Days
We have been working with DARPA since March 2018 as part of the P3 program to optimize our technology stack to find effective and field-ready therapeutics against pathogenic threats in record time.
Problem. An effective response to a pathogenic threat requires comprehensive deep screening and characterization of a human antibody response at the maximum speed possible, so that pathogen-specific therapeutics can be quickly identified, developed and deployed. Ideally, samples from index patients (patients who are the first to have been confirmed infected with the pandemic virus) who recovered would be made available to deploy our pandemic response platform.
Solution. We developed rapid antibody screening, expression, purification and characterization pipelines to deeply mine human antibody responses. As part of the P3 program, and prior to COVID-19, we pressure tested our technology stack twice in simulated pandemic responses. In late 2018, we demonstrated rapid isolation of hundreds of Middle Eastern Respiratory Syndrome Coronavirus, or MERS-CoV, heavy chain only antibodies, or HcAbs, from infected camelids (a natural host for MERS-CoV) in less than 96 hours from sample receipt. Many of these HcAbs were more potent neutralizers than benchmark antibodies. In early 2019, together with our partners, we discovered influenza-neutralizing antibodies from a single sample from a human donor, and demonstrated that we could deploy our platform from sample receipt to successful testing in animals in 55 working days. Our seven lead antibodies were all 100% protective against a 20-times lethal dose of the 2009 pandemic H1N1 strain of influenza virus in rodents.
Result. We rapidly deployed our pandemic response platform to find a therapeutic antibody against COVID-19 in the spring of 2020 starting from a blood sample obtained from a U.S. patient. We screened approximately 5.8 million single cells to identify over 500 unique anti-SARS-CoV-2 antibodies. Each of these antibodies was evaluated computationally and experimentally to identify approximately 500 different properties per antibody which yielded 220,000 data points, which allowed us to filter down to a smaller group of lead candidates. Within 23 days of receiving the sample, we and our partners identified 24 lead antibodies for further development and clinical testing. One antibody drug candidate was selected by our partner Lilly, and the first patients were dosed in the first-ever COVID-19 clinical trial in North America. This was only 90 days from when we received the sample. The antibody, bamlanivimab, has been evaluated both alone and together with another antibody called etesevimab in more than 5,000 patients across multiple clinical trials for the treatment and prevention of COVID-19. Bamlanivimab is authorized in more than 15 countries, including the United States, Canada, Germany, France, Italy and Israel, and has been used to treat approximately 360,000 high-risk COVID-19 patients. This demonstrates that a rapid discovery-to-clinic timeline is possible with our rapid and high throughput discovery engine.
Unlocking High-value Membrane Proteins (GPCRs and Ion Channels)
Membrane proteins such as GPCRs and ion channels are a validated and highly valuable class of drug targets in multiple prevalent diseases and indications, including cardiovascular diseases, cancer, neurological diseases, inflammation and pain. Membrane proteins are very difficult targets for antibody therapeutics. They are large and complex proteins, often with multiple subunits embedded in the cell membrane with only a small portion exposed outside of the cell. They also exist in families of multiple, closely-related members. The specificity of antibody drugs against membrane proteins would solve the off-target side effects that make many of these targets a barrier for small molecule drugs. However, membrane proteins present major challenges for antibody discovery: (i) they are poorly immunogenic, (ii) they are very difficult to purify and handle, (iii) it is difficult to generate binding or functional assays for them and (iv) they often have high homology with other species that are traditionally used for immunization campaigns (such as rodents), leading to natural tolerance mechanisms inhibiting a good immune response. In addition, legacy screening technologies either do not provide the depth and throughput to effectively search the immune response (hybridoma strategy), or are poorly suited for screening against complex membrane protein targets (display strategy).
Problem. Using conventional screening methods, a partner had failed to discover functional antibodies against a very small epitope of a GPCR protein target with close structural homology to a related protein.
Solution. For this campaign, we tailored our technology stack to include multiplexed live cell screening assays with counter-screens against the closely related homologs in order to identify unique antibodies against the target epitope. The GPCR was expressed in its natural conformation on live cells, bypassing the need for complicated protein purification and handling. The ability to screen against live cells at such high throughput, while simultaneously screening for specificity against closely related homologs, is a powerful application of our platform.
Result. Within three months, we identified hundreds of unique antibodies against the target epitope, including several that were the desired functional antagonists. This number of antibodies from a screening campaign against a GPCR, plus the high frequency of functional candidates, is a significant success, and a lead candidate was subsequently identified by our partner and advanced into IND-
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enabling studies. This project demonstrates the power of our technology stack to increase the probability of success for antibody drug discovery campaigns against difficult targets.
Overcoming Tolerance with Proprietary Immunization and Deep Search Technologies
Antibodies produced by immunized animals are subject to immune tolerance, the process by which the body suppresses antibodies that react to self-antigens. This makes it difficult to generate diverse sets of antibodies against human targets that are similar or identical to the analogous proteins expressed by the animal being immunized. The difficulty in generating immune responses against self-similar targets has long been perceived as a drawback of discovery from natural immune repertoires. Our technology and proprietary immunization approaches allow us to generate diverse antibodies against such targets.
Problem. A partner approached us with a human target with 100% homology across mice, rats and humans. In addition, the human target had two related protein homologs, against which any discovered antibodies must discriminate.
Solution. In this campaign we deployed our proprietary and optimized immunization protocols to first generate a robust immune response in rodents. Next, we developed a high throughput single-cell screening strategy that used multiplexed fluorescence detection to find antibodies specific to the target, but that did not bind the two homologous proteins.
Result. We screened four million single cells from the immunized rodents and identified more than 1,900 target-specific antibodies, a hit-frequency that demonstrates a robust immune response breaking tolerance against a 100% homologous target. Of these hits, we identified 428 unique antibody leads with a degree of somatic hypermutation that indicates a mature and directed immune response against a difficult target.
Single Chain Antibody Discovery from Camelids
HcAbs are single-chain antibodies lacking light chains, found naturally in camelids such as llamas and alpacas (along with conventional paired heavy and light chain IgG antibodies, at approximately 50% frequency). HcAbs are valuable for various antibody-based therapeutics, such as bispecific antibodies, antibody-drug conjugates and CAR-Ts. In addition, the decreased complexity of having only single chains comprising the antibody molecules means they are more straightforward to produce and manufacture.
Problem. A partner needed to identify HcAbs from immunized llamas against transforming growth factor beta-3, or TGF-ß3, that could also discriminate between closely related homologs, transforming growth factor beta-1, or TGF-ß1, and transforming growth factor beta-2, or TGF-ß2. The partner did not have the screening technology to identify antibodies with such restricted specificity.
Solution. We designed custom reagents to distinguish HcAbs from conventional IgGs in llamas and also designed custom assays to identify HcAbs specific to TGF-ß3 that could differentiate between TGF-ß1 and TGF-ß2. To find these rare antibodies, we deployed our deep screening platform and screened approximately 20 million single cells over four days to deeply mine the immune response. We identified 67 unique HcAbs, which is a <0.001% antigen specific HcAb hit frequency, indicating an exceedingly rare antibody. This illustrates the flexibility of our platform to discover non-conventional antibody modalities, from alternative species, and the depth required to find rare antibodies with very specific properties.
Human Immune Profiling
An important application of immune profiling is devising improved strategies for the prevention and treatment of viral pathogens such as influenza. Influenza is a recurring seasonal epidemic with major pandemic potential. A significant challenge in addressing influenza is that it is constantly changing. Seasonal strains that circulate in a population accumulate mutations that are influenced by the existing population immunity, resulting in the emergence of new strains for which existing vaccines are less effective. Even more concerning, novel strains can sometimes emerge when viruses that normally infect only animals rearrange their genes in a way that allow them to jump to the human population. Functional profiling human immune responses to influenza infection or vaccination may assist in developing antibody or vaccine products that help protect against serious influenza infections.
Problem. Deep sequencing technologies have been applied to broadly survey the diversity of antibody sequences generated during an immune response. However, such technologies do not indicate which antibodies bind to the target of interest, where they bind on the target or which are most protective against infection.
Solution. To identify antibodies against influenza that may be effective in passive immunotherapy treatments (highly specific and potently neutralizing) and vaccine development (recognizes multiple strains of influenza to inform vaccines that generate long-lasting immunity), we screened four million single cells from multiple human donors. We designed a custom multiplexed screening
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strategy to simultaneously profile antibodies for their binding profiles against four hemagglutinin proteins derived from H1N1, H2N3, H3N2 or H5N1 influenza strains. We then recovered single cells with desired binding properties for sequencing to determine their heavy and light chain sequences. For selected antibodies we then searched RepSeq data for related antibody sequences.
Results. Our influenza screen uncovered 19,920 influenza-specific antibodies, from which we recovered and sequenced 3,646. This resulted in 1,743 unique antibodies grouped within 860 clonal lineages. Through the combination of single-cell sequences and RepSeq data, we were able to construct detailed antibody lineages for virus-specific antibodies, and then to expand the number of selected virus-specific antibodies by approximately 50 times.
Research and Development—Platform Expansions
We have several active research efforts to expand the breadth and depth of our technology stack. In addition to research and development directed to improve the speed, efficiency, throughput and capabilities of our existing technologies, we have initiated the following platform development projects:
GPCR and Ion Channel Targets. We believe our immunization and screening platform provide us with a competitive advantage in the discovery of antibody against traditionally difficult multi-pass transmembrane proteins, including GPCRs and ion channels. To date we have successfully applied our technology to discover panels of hundreds of antibodies against these target classes, with the most advanced of these programs now at late-stage preclinical development. However, we believe further improvements at the Source and Engineer steps of our technology stack would allow us to more fully unlock the potential of these target classes. To this end, in 2019 we started a research and development group, Channel Bio, in Sydney Australia, that is developing technologies specifically for GPCR and ion channel targets.
Transgenic rodents. Our recent acquisition of the Trianni platform of humanized rodents, plus the integration of key research and development personnel from Trianni, enables us to generate novel next-generation humanized transgenic rodents to further our platform and offering to partners. The suite of humanized rodents available or in development will serve as the foundation for additional engineering to create novel humanized rodents.
Cell Line Development. Using our microfluidic single-cell screening platform and based on patented clonal selection methods that we have exclusively licensed from UBC, we are developing optimized workflows that we believe may accelerate the development of clonal cell lines with increased productivity in the expression of antibodies.
CMC and GMP Antibody Manufacturing. We are planning a further facilities expansion of approximately 200,000 square feet that will support cell line development, process development and GMP manufacturing of antibody therapeutics. Upon completion of this facility, we expect to be able to support our partners from program initiation to fill-finish. We believe the integration of an optimized manufacturing process with our discovery and protein engineering capabilities will create synergies in speed and efficiency and will allow us to more rapidly test and validate new antibody therapeutic formats, including bispecific antibodies or antibody conjugates. We expect to have completed this facility and to have GMP manufacturing capabilities in commercial use in approximately three to four years. In April 2020, in support of this effort, we received a commitment for up to CAD $175.6 million ($125.6 million) in financing from the Canadian government.
Competition
The market for technologies that enable the discovery and development of therapeutic antibodies, such as ours, is global, characterized by intense competition and subject to significant intellectual property barriers. The solutions and applications offered by our competitors vary in size, breadth and scope, and given the broad promise of antibody therapeutics, we face competition from many different sources, including companies developing single-cell screening technologies, antibody RepSeq and antibody engineering technologies, using a variety of business models, including the development of internal pipelines of therapeutics, technology licensing, and the sale of instruments and devices. We also face competition from integrated contract research organizations that use traditional hybridoma, phage, and yeast display technologies in discovery. Due to the significant interest and growth in antibody therapeutics more broadly, we expect the intensity of this competition to increase.
We are democratizing the industry by providing our partners of all sizes with access to our centralized operating system We seek to deliver a complete solution for our partners by providing uniquely integrated proprietary technologies that address each step in the discovery process, including immune RepSeq, single-cell analysis, AI, and transgenic rodent platforms. Many emerging and
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established life sciences companies have been built around technologies that focus on one or a limited number of these steps. Examples include:
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In the field of single-cell screening, we face technical competition from companies that provide access to similar technologies such as Berkeley Lights Inc., or Berkeley Lights, HiFiBio Inc., Ligand Pharmaceuticals Inc. and Sphere Fluidics Ltd.
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In antibody RepSeq, we face technical competition from companies that provide access to similar technologies such as 10X Genomics Inc., Adaptive Biotechnologies Corp., Atreca Inc. and Distributed Bio Inc.
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In bispecific antibody engineering, we face technical competition primarily from companies that provide access to similar technologies such as Abbvie Inc., Genmab A/S, Merus N.V. and Zymeworks Inc.
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In discovery using genetically engineered rodents, we face technical competition from companies that provide access to similar technologies such as Ablexis LLC, Crescendo Biologics Ltd., Harbour Antibodies BV, Kymab Ltd., Ligand Pharmaceuticals Inc. and RenBio Inc.
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We also face direct business competition from companies that provide antibody discovery services using technologies such as hybridoma and display. Companies with discovery business models that include downstream payments include Adimab LLC, Distributed Bio Inc. and WuXi Biologics Inc. In addition, we compete with a variety of fee-for-service contract research organizations that provide services, in most cases using legacy technologies, that compete with one or more steps in our technology stack.
For a discussion of the risks we face relating to competition, see “Risk Factors—Risks Related to our Business and Strategy—The life sciences technology market is highly competitive, and if we cannot compete successfully with our competitors, we may be unable to increase or sustain our revenue, or achieve and sustain profitability.”
Intellectual Property
We strive to protect the proprietary technologies that we believe are important to our business, including seeking and maintaining patent protection intended to cover the compositions of matter of our product candidates, their methods of use, related technology, and other inventions that are important to our business.
Our success depends in part on our ability to obtain and maintain intellectual property protection for the components of our technology stack and products arising from the same; to defend and enforce our patents, to preserve the confidentiality of our trade secrets, and to operate without infringing valid and enforceable patents and other proprietary rights of third parties; and to identify new opportunities for intellectual property protection.
As of December 31, 2020, we owned or exclusively licensed over 50 issued or allowed patents and over 85 pending patent applications worldwide, which includes over 30 issued U.S. patents and over 20 pending U.S. patent applications. We own registered trademarks and trademark applications for AbCellera, Celium, Trianni and the Trianni Mouse in the U.S., Canada and Europe.
Obtaining patent protection is not the only method that we employ to protect our propriety rights. We also utilize other forms of intellectual property protection, including trademark, copyright, internal know how and trade secrets, when those other forms are better suited to protect a particular aspect of our intellectual property. Our belief is that our propriety rights are strengthened by our comprehensive approach to intellectual property protection. It is our policy to require our employees, consultants, outside scientific collaborators, sponsored researchers and other advisors to execute confidentiality and invention assignment agreement upon accepting employment or consulting relationships with us. These agreements provide that all confidential information concerning our business or financial affairs developed or made known to the individual during the course of the individual’s relationship with us is to be kept confidential and not disclosed to third parties except in specific circumstances. In the case of employees, the agreements provide that all inventions conceived by the individual, and which are related to our current or planned business or research and development or made during normal working hours, on our premises or using our equipment or proprietary information, are our exclusive property. We are diligent in taking precautions that our proprietary information is not released to third parties through the use of security measures. Our trade secrets encompass certain reagent compositions and concentrations, nucleic acid vector sequences and immunization protocols.
Data Rights
Our product to partners is data on the composition of matter of antibodies and their properties. We enter into contracts that allow us rights to use the data that we generate for the purpose of improving our technology stack and fueling machine-learning algorithms. We maintain strict firewall protocols so target-specific data derived from a client cannot be used to inform the discovery on another project by a different client.
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Patent Portfolio
We have developed an expansive patent portfolio with claims related to multiple aspects of our technology stack, beginning with our first patent applications exclusively licensed from UBC, in 2013. We continuously assess new ways to improve our technology platform through license or acquisition of third-party patent portfolios, as was the case with our acquisitions of Lineage in 2017 and the OrthoMab platform from Dualogics in 2020, our recent acquisition of Trianni Inc. and our license agreement with Alloy Therapeutics in 2020.
Our patent prosecution strategy encompasses the pursuit of protection for our technology stack and tangentially related methods.
UBC License
In December 2013, we executed a license agreement with UBC, or the UBC License, to gain a worldwide, exclusive license to certain patents, or the UBC Patents, patented at UBC by Dr. Hansen and his team for the later of 20 years from the start date of the UBC License, or the expiry date of the last patent licensed under the UBC License. Under the terms of the UBC License, we have the right to sublicense a subset of the UBC Patents and a worldwide, exclusive license to UBC Improvements and/or Joint Improvements on these Patents solely in the antibody field of use. In addition, for a second subset of the UBC Patents, we have a worldwide, exclusive license to use and sublicense solely within the antibody field of use.
Under the terms of the UBC License, we paid a CAD $57 ($53) initial license fee and pay annual license fees to UBC during the term of the UBC License. We also pay UBC a low single-digit royalty on our revenue and a single-digit royalty of our sublicensing revenue during the term of the UBC License. UBC was also granted a single-digit percent equity position in our company.
Under the terms of the UBC License, in consultation with UBC we manage the filing, maintenance and prosecution of the licensed patents and we pay all costs associated with the same while we control all litigation associated with the licensed patents.
UBC may terminate the license under certain circumstances, including in the case of our insolvency, winding up or liquidation, if a court or similar process is levied on the rights under the agreement or on money due to UBC that is not released, if the subject technology becomes subject to a security interest that is not released, if we or any of our directors or officers have materially breached or failed to comply with securities laws, or in the event of certain breaches of, or failure to perform, our obligations under the license or other agreements between us and UBC. Either party may terminate the license for any breach which is not remedied within certain specified time periods.
The UBC Core Patents
The UBC Core Patent license includes a patent family directed toward certain systems, devices and methods for microfluidic cell culture. This patent family includes four issued U.S. patents and one pending U.S. non-provisional patent application. Issued patents from this family are expected to expire in July 2031, absent any disclaimers or extensions available.
The UBC Core Patent license also includes a patent family directed toward systems and methods for assaying binding interactions between a protein produced by a single cell, e.g., an antibody produced by a single B cell, and a second biomolecule (e.g., antigen) in microfluidic chambers and devices. This patent family includes twelve issued U.S. patents and three pending U.S. non-provisional patent applications. Issued patents from this family are expected to expire in July 2031, absent any disclaimers or extensions available.
A patent family directed toward methods for assaying functional properties exhibited by a protein produced by a single cell, e.g., an antibody produced by a single B cell, and a second biomolecule (e.g., antigen) in microfluidic chambers and devices is also included in the UBC Core Patent license. This patent family includes patents issued in the U.S. and Australia and granted in Europe, as well as one pending U.S. non-provisional patent application and seven pending foreign counterpart patent applications. Issued patents from this patent family are expected to expire in March 2034, absent any disclaimers or extensions available.
Lastly, the UBC Core Patent license includes a patent family directed toward methods for determining lymphocyte receptor chain pairs, for example, antibody heavy and light chain pairs. This patent family includes an issued U.S. patent and a granted patent in Europe, as well as one pending U.S. non-provisional patent application and two pending foreign counterpart patent applications. Issued patents from this patent family are expected to expire in May 2035, absent any disclaimers or extensions available.
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Lineage
The Lineage patent portfolio complements our single-cell microfluidic intellectual property with downstream methods of sequencing reaction preparation, immune RepSeq and analysis. The immune repertoire patents and applications that we obtained from Lineage form the basis for the sequencing technologies that we currently use in our technology stack.
Stanford License
Through our acquisition of Lineage, we obtained an exclusive license from Stanford University to patents and patent applications directed toward immune RepSeq. Our Stanford license includes one patent family directed toward methods of characterizing an immune repertoire. This patent family includes four issued U.S. patents and one granted patent in Europe, as well as one pending U.S. non-provisional patent application and one pending foreign counterpart patent application. Issued patents from this patent family are expected to expire in May 2031, absent any disclaimers or extensions available. The Stanford license also includes another patent family directed toward methods of characterizing immune response and vaccine selection. This patent family includes two issued U.S. patents and one pending U.S. non-provisional patent application. Issued patents from this patent family are expected to expire in February 2034, absent any disclaimers or extensions available.
Under the terms of the Stanford license, we are required to pay Stanford a yearly license maintenance fee, as well as certain milestone payments in an aggregate amount not to exceed $140,000. We are also required to pay Stanford low single-digit royalties on net sales of licensed products as well as a portion of non-royalty sublicensing revenues. The term of the Stanford license runs until the last licensed patent expires, and our obligation to pay royalties will continue so long as there is a valid claim of a licensed patent. Stanford may terminate the agreement governing the license if we are in material default in the provision of any report or payment of any amounts due to Stanford under the agreement, we do not use commercially reasonable efforts to develop or commercialize licensed products, we do not achieve certain diligence milestones, we are in material breach of any provision of the agreement, or if we provide any materially false report to Stanford. We may terminate the agreement at any time upon at least 30 days notice to Stanford.
In addition to the Stanford license, the acquisition of Lineage included a patent portfolio comprising four patent families. One patent family is directed toward methods of determining the immune repertoire of a subject. This patent family includes one granted patent in Europe, two pending U.S. non-provisional patent applications, and four pending foreign counterpart patent applications. Issued patents from this patent family are expected to expire in March 2034, absent any disclaimers or extensions available.
Another patent family is directed toward tagging target oligonucleotides. This patent family includes two issued U.S. patents, one issued patent in China, and two granted patents in Europe. This patent family also includes one pending U.S. non-provisional patent application and one pending foreign counterpart patent application. Issued patents from this patent family are expected to expire in March 2034, absent any disclaimers or extensions available.
An additional patent family is directed toward methods for detection of isotype profiles as signatures for disease. This patent family includes patents issued in Japan and China, as well as a patent granted in Europe. This patent family also includes three pending foreign counterpart patent applications. Issued patents from this patent family are expected to expire in September 2032, absent any disclaimers or extensions available.
Lastly, the Lineage patent portfolio includes a patent family directed toward compositions and methods for analyzing heterogeneous samples. This patent family includes a granted patent in Europe and an issued patent in Hong Kong. This family also includes one pending U.S. non-provisional patent application and three pending foreign counterpart applications. Issued patents from this patent family are expected to expire in September 2032, absent any disclaimers or extensions available.
OrthoMab
As part of our agreement to purchase certain assets from Dualogics related to its OrthoMab bispecific antibody platform, we were assigned Dualogics’ interests and rights to that certain Exclusive License Agreement between Dualogics and the University of North Carolina at Chapel Hill, effective February 22, 2019, or the UNC Agreement. Under the UNC Agreement, we have an exclusive license to UNC’s rights under three patent families.
One patent family is directed toward methods of producing a fragment, antigen binding (Fab). This patent family includes three issued U.S. patents and one patent granted in Europe. Issued patents from this patent family are expected to expire in March 2034, absent any disclaimers or extensions available.
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Another patent family is directed toward IgG bispecific antibodies and processes for preparation. This patent family includes one issued U.S. patent, one pending U.S. non-provisional patent application, and one foreign counterpart patent application. Any patents that issue from this patent family are expected to expire in January 2036, absent any disclaimers or extensions available.
The last patent family is directed toward methods for producing Fabs and IgG bispecific antibodies. This patent family includes one pending U.S. and one pending foreign counterpart patent applications. Any patents that issue from this patent family are expected to expire in December 2037, absent any disclaimers or extensions available.
Under the terms of the OrthoMab asset purchase, we granted Dualogics a sublicense under the three patent families to develop, market, sell and otherwise commercialize its existing programs related to the OrthoMab technology.
Under the terms of the UNC Agreement, we are required to pay UNC an annual license maintenance fee, low single-digit royalties on net sales of clinically approved and other products as well as sublicense fees. The term of the license and our obligation to pay royalties runs until the last licensed patent expires. UNC may terminate the agreement governing the license if there is a material breach by us of the agreement and we fail to cure such breach, which breaches include but are not limited to our failure to deliver payment to UNC when due, to provide progress reports, to meet or achieve performance milestones or to possess and maintain insurance, or the execution of a sublicense that complies with the terms of the agreement. We may terminate the agreement at any time upon at least 60 days notice to UNC.
Trianni
Through our acquisition of Trianni Inc., we acquired all existing intellectual property including issued patents and pending applications worldwide relating to the flagship Trianni mouse and new platforms in development. We also acquired Trianni’s trademarks including the terms “Trianni” and “Trianni Mouse” that have been issued in the United States and various other jurisdictions worldwide.
The Trianni intellectual property portfolio includes issued patents and pending applications in the U.S. and certain jurisdictions around the world.
In one patent family, the patents are directed to transgenic animals and methods of use. This patent family includes eight issued patents including in the U.S., Australia, the Russian Federation, Europe, India, and Japan. There are three pending applications, one in the U.S., one in Canada and one in Japan. Patents issuing from this family are expected to expire in July 2031, absent any disclaimers or extensions available.
Another patent family is directed to enhanced production of immunoglobulins. This patent family includes seven pending applications including one in the U.S and six in pending foreign counterparts including Australia, Canada, Europe, Israel, Japan and Korea. Any patents that issue from this family are expected to expire in February 2037, absent any disclaimers or extensions available.
Another patent family is also directed to enhanced production of immunoglobulins. This patent family includes eight pending applications including one in the U.S. and six in pending foreign counterparts including Australia, Canada, Europe, Israel, Japan, China and Korea. Any patents that issue from this family are expected to expire in August 2035, absent any disclaimers or extensions available.
Another patent family is directed to enhanced immunoglobulin diversity. This patent family includes one issued patent in the U.S. and two pending applications including one in the U.S. and one in Europe. Issued patents from this family are expected to expire in December 2035, absent any disclaimers or extensions available.
Another patent family is directed to transgenic mammals that express canine-based immunoglobulins. This patent family contains one issued U.S. patent and one pending application in the U.S. Issued patents from this family are expected to expire in July 2031, absent any disclaimers or extensions available.
Another patent family is directed to transgenic mammals that express bovine-based immunoglobulins. This patent family contains one issued U.S. patent. Issued patents from this family are expected to expire in July 2031, absent any disclaimers or extensions available.
Another patent family is directed to enhanced production of immunoglobulins. This patent family includes one pending application in the U.S. Any patents that issue from this family are expected to expire in August 2035, absent any disclaimers or extensions available.
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Another patent family is directed to transgenic mammals that express canine-based immunoglobulins. This patent family contains two pending applications, one in the U.S. and one PCT application. Issued patents from this family are expected to expire in July 2039, absent any disclaimers or extensions available.
Another patent family is directed to transgenic mammals that express bovine-based immunoglobulins. This patent family contains one pending PCT application. Issued patents from this family are expected to expire in July 2039, absent any disclaimers or extensions available.
Another patent family is directed to single chain VH and heavy chain antibodies. This patent family contains seven pending applications including one in the U.S. and Canada, Australia, China, Europe, Israel and Japan. Issued patents from this family are expected to expire in July 2037, absent any disclaimers or extensions available.
Another patent family is directed to long germline DH gene and long HCDR3 antibodies. This patent family contains two pending applications including one in the U.S. one in Europe. Issued patents from this family are expected to expire in October 2037, absent any disclaimers or extensions available.
Another patent family is directed to transgenic mammals and methods of use. This patent family contains two pending applications including one in the U.S. and one in Europe. Issued patents from this family are expected to expire in August 2039, absent any disclaimers or extensions available.
AbCellera
We also aim to continue developing our product portfolio. We currently own several recently filed pending U.S. non-provisional patent applications directed toward methods for high throughput screening of multispecific antibody libraries and anti-coronavirus antibodies and methods of use.
The term of individual patents depends upon the legal term of the patents in the countries in which they are obtained. In the countries in which we file, the patent term is 20 years from the earliest non-provisional filing date, subject to any disclaimers or extensions. The term of a patent in the United States can be adjusted due to any failure of the United States Patent and Trademark Office following certain statutory and regulation deadlines for issuing a patent.
In the United States, the patent term of a patent that covers an FDA-approved drug may also be eligible for patent term extension, which permits patent term restoration as compensation for a portion of the patent term lost during the FDA regulatory review process. The Hatch-Waxman Act permits a patent term extension of up to five years beyond the original expiration of the patent. The protection provided by a patent varies from country to country, and is dependent on the type of patent granted, the scope of the patent claims, and the legal remedies available in a given country.
For a discussion of the risks we face relating to intellectual property, see “Risk Factors—Risks Related to our Intellectual Property—If we are unable to obtain and maintain sufficient intellectual property protection for our technology, including our platform and Celium, our proprietary antibody visualization software, or if the scope of the intellectual property protection obtained is not sufficiently broad, our competitors could develop and commercialize technologies or a platform similar or identical to ours, and our ability to successfully sell our data packages may be impaired.”
Commercial
A vast majority of our historical revenue reflects upfront payments from research programs. Our partnership agreements include: (i) payments for technology access and performance of research; (ii) downstream payments in the form of clinical and commercial milestones and (iii) royalties on net sales of therapeutics. We structure our agreements in a way that directly aligns our partners’ economic interest with our own. We believe the long-term value of our business will be driven by downstream milestone and royalty payments.
We forge partnerships with drug developers of all sizes, from large cap pharmaceutical to small biotechnology companies. Our partners are predominantly based in the United States and Europe. As of December 31, 2020, we had a total of 27 partners for whom we were conducting drug discovery activities. For the year ended December 31, 2019, two of our partners accounted for 47% and 15% of revenue, and eleven partners accounted for the remaining 38% of revenue. For the year ended December 31, 2020, three of our partners accounted for 35%, 25%, and 14% of our research fees revenue and eight partners accounted for the remaining 26% of research fees revenue. For the year ended December 31, 2020, we recognized our first milestone and royalty revenue streams, totaling $213.3 million, exclusively from our partnership with Lilly. Our partnership with Lilly constituted one of the partnerships that generated 10% or more of our consolidated revenues during the one or more periods described above. With respect to the other
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partners, we do not believe the loss of any one or more of such partners would have a material adverse effect on us and our subsidiaries taken as a whole.
Over the past year we have grown our workforce by 93%, moving from 107 to 206 full-time employees. As of December 31, 2020, we had 206 full-time employees in Canada, the United States and Australia, which was comprised of approximately 51% scientists, 26% business professionals, and 23% engineers and data scientists.
Our strategy involves:
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creating more value with our existing partnerships by seeking to expand our single-program partnerships to multi-year, multi-target agreements
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working to forge new partnerships across our target customers, including large pharmaceutical companies, biotechnology companies of all sizes and non-profit and government organizations dedicated to drug development
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adding capabilities and infrastructure to support full CMC activities and GMP manufacturing to provide our partners with a full solution from target to IND submission
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investing in expanding our workforce and our facilities, and increasing efficiency through automation and software solutions
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maintaining our competitive advantage by undertaking extensive research and development to amplify and add capabilities in areas such as computation, protein engineering, immunization technologies, genetically engineered rodents and cell line selection
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leveraging proprietary data sets obtained from our partnership programs and AI to increase the efficiency, speed, and capacity of our discovery programs
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Our sales and marketing team is growing in proportion to the needs of the business and has been complemented with research and development staff attending a variety of scientific conferences, which has helped increase the business development pipeline. We plan to further expand our commercial sales, marketing and business development teams, increase our presence globally and increase marketing activities to drive awareness and adoption of our platform.
Employees and Human Capital Resources
As of December 31, 2020, we had 206 full-time employees in Canada, the United States and Australia, which was comprised of approximately 51% scientists, 26% business professionals, and 23% engineers and data scientists. None of our employees are represented by a labor union or covered under a collective bargaining agreement. As of December 31, 2020, 189 of our employees were employed in Canada, 13 were employed in Australia and 4 were employed in the United States. We consider our relationship with our employees to be excellent.
Our human capital resources objectives include, as applicable, identifying, recruiting, retaining, incentivizing and integrating our existing and additional employees. The principal purposes of our equity incentive plans are to attract, retain and motivate selected employees, consultants and directors through the granting of stock-based compensation awards.
Government Regulation
Our focus is on the discovery of antibodies that our partners use to improve the speed and success of their drug discovery efforts; however, we ourselves are not currently involved in drug discovery, do not manufacture any products and do not conduct any clinical trials. As such, while we are subject to a number of regulations, such as those governing our laboratory facilities as well as regulations that apply to businesses in the private sector generally, we are not subject to many of the types of regulations that ordinarily apply to companies in the life sciences, biotechnology and pharmaceutical sectors and industries. However, we believe that the long-term success of our business depends, in part, on our partners’ ability to successfully develop and sell products using the antibodies that we discover. The regulations that govern our pharmaceutical and biotechnology partners are those we therefore believe have the most significant impact on our business.
Government authorities in the United States, at the federal, state and local level, and in the European Union and other countries and jurisdictions, extensively regulate, among other things, the research, development, testing, manufacturing, quality control, approval, labeling, packaging, storage, record-keeping, promotion, advertising, distribution, post-approval monitoring and reporting, marketing and export and import of pharmaceutical products, including biological products such as those that our partners develop. The processes for obtaining marketing approvals in the United States and in foreign countries and jurisdictions, along with subsequent compliance with applicable statutes and regulations and other regulatory authorities, require the expenditure of substantial time and financial resources.
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Our partners will be subject to a variety of regulations in applicable jurisdictions governing, among other things, clinical studies and any commercial sales and distribution of their products. Whether or not our partners obtain FDA or EU approval for a product, they must obtain the requisite approvals from regulatory authorities in foreign countries prior to the commencement of clinical studies or marketing of the product in those countries. The requirements and process governing the conduct of clinical studies, product licensing, coverage, pricing and reimbursement vary from country to country.
One such regulatory authority that is applicable to certain of our partners is the United States Secretary of Health and Human Services’ authority to authorize unapproved medical products, to be marketed in the context of an actual or potential emergency that has been designated by government officials. The COVID-19 pandemic has been designated such a national emergency. After an emergency has been announced, the Secretary of Health and Human Services may authorize the issuance of, and the FDA Commissioner may issue, Emergency Use Authorizations, or EUAs, for the use of specific products based on criteria established by statute, including that the product at issue may be effective in diagnosing, treating, or preventing serious or life-threatening diseases when there are no adequate, approved, and available alternatives. An EUA is subject to additional conditions and restrictions and is product-specific. An EUA terminates when the emergency determination underlying the EUA terminates. An EUA is not a long-term alternative to obtaining FDA approval, licensure, or clearance for a product. The FDA may revoke an EUA where it is determined that the underlying health emergency no longer exists or warrants such authorization, so it is not possible to predict how long an EUA may remain in place.
Similar to the United States, Canada has developed a mechanism to authorize unapproved medical products to be marketed in the context of certain emergencies. In particular, under the Food and Drugs Act (Canada), the federal Minister of Health may make an Interim Order if the Minister believes that immediate action is required to deal with a significant risk to health, safety or the environment. The Minister has made various Interim Orders in the context of the COVID- 19 pandemic. These Interim Orders provide the Minister with the authority to permit the sale of a COVID-19 drug in Canada via multiple new mechanisms, including authorizing a COVID-19 indication for a new drug with a modified set of application requirements with the potential for additional terms and conditions, as well as the possibility of authorizing a drug based on certain elements already being authorized by a foreign regulatory authority. Each Interim Order is valid for no longer than a one-year term and an authorization for importation and sale issued under an Interim Order is only valid for as long as the Interim Order is in effect. As is the case with EUAs in the United States, authorizations issued under an Interim Order are not a long-term alternative to obtaining Health Canada licensure for a product. Health Canada is currently considering various options to minimize disruptions for the ongoing authorization of drugs upon the expiry of an Interim Order with the intent to implement transition as needed.
Additional Regulation
In addition to the foregoing, provincial, state and federal U.S. and Canadian laws regarding environmental protection and hazardous substances affect our business. These and other laws govern our use, handling and disposal of various biological, chemical and radioactive substances used in, and wastes generated by, our operations. If our operations result in contamination of the environment or expose individuals to hazardous substances, we could be liable for damages and governmental fines. We believe that we are in material compliance with applicable environmental laws and that continued compliance therewith will not have a material adverse effect on our business. We cannot predict, however, how changes in these laws may affect our future operations.
Anti-Corruption Laws
We are subject to the U.S. Foreign Corrupt Practices Act of 1977, as amended, or the FCPA, the U.S. domestic bribery statute contained in 18 U.S.C. § 201, the U.S. Travel Act, the USA PATRIOT Act, the Canadian Corruption of Foreign Public Officials Act and possibly other state and national anti-bribery and anti-money laundering laws in countries in which we conduct activities, such as the UK Bribery Act 2010 and the UK Proceeds of Crime Act 2002, collectively, Anti-Corruption Laws. Among other matters, such Anti-Corruption Laws prohibit corporations and individuals from directly or indirectly paying, offering to pay or authorizing the payment of money or anything of value to any foreign government official, government staff member, political party or political candidate, or certain other persons, in order to obtain, retain or direct business, regulatory approvals or some other advantage in an improper manner. We can also be held liable for the acts of our third party agents under the FCPA, the Canadian Corruption of Foreign Public Officials Act, the UK Bribery Act 2010 and possibly other Anti-Corruption Laws. In the healthcare sector, anti-corruption risk can also arise in the context of improper interactions with doctors, key opinion leaders and other healthcare professionals who work for state-affiliated hospitals, research institutions or other organizations.
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Item 1A. Risk Factors.
Risks Related to Our Business and Strategy
We have incurred losses in certain years since inception and we may not be able to generate sufficient revenue to maintain profitability.
Our plan is to enter a phase of accelerated growth and we will be investing heavily in our business. We expect to experience variability in revenue and in expenses which makes it difficult to evaluate our business or our prospects. As such, we may incur losses that are materially larger than what we have previously incurred. We have incurred losses in certain years since our inception and anticipate that we will continue to incur significant losses for the foreseeable future. For the years ended December 31, 2019 and 2020, we incurred a net loss of $2.2 million and net earnings of $118.9 million, respectively. As of December 31, 2020, we had accumulated earnings of $114.2 million. We expect that our operating expenses will continue to increase significantly, including as we:
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invest in research and development activities to improve our technology and platform;
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market and sell our solutions to existing and new partners;
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acquire businesses or technologies to support the growth of our business;
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attract, hire and retain qualified personnel;
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maintain, expand, enforce, protect and defend our intellectual property portfolio;
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prosecute and defend our ongoing and any future litigation;
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build our new good manufacturing practices, or GMP, manufacturing facility;
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create additional infrastructure to support our operations, including expanding our sales and marketing organization;
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add operational, financial and management information systems and personnel to support our operations as a public company; and
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experience any delays or encounter issues with any of the above.
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Our expenses could increase beyond expectations for a variety of reasons, including as a result of our growth strategy and the increase in our operations. Since our inception, we have financed our operations primarily from revenue from upfront payments generated through our receipt of technology access fees and discovery research fees through the performance of service contracts with our partners, payments from partners upon the satisfaction of clinical milestones, government funding and one off government grants, the incurrence of indebtedness, and from private placements of our common and convertible preferred shares. Given our strategy and plans to invest in enhancing and scaling our business, we will need to generate significant additional revenue to achieve and sustain future profitability. Even though we have achieved profitability, we cannot be sure that we will remain profitable for any sustained period of time. We may not be able to generate sufficient revenue to sustain profitability and our recent and historical growth should not be considered indicative of our future performance.
Our revenue has fluctuated from period to period, and our revenue for any historical period may not be indicative of results that may be expected for any future period.
For the year ended December 31, 2019, a substantial portion of our revenue was generated by upfront technology access and research discovery fees through performing research activities for our partners. During the year ended December 31, 2020, we received payments from our partnership contracts generated upon the satisfaction of clinical milestones, as well as royalty payments for the first time. Upfront technology access fees are generated upon execution of our partnership agreements. Research and discovery fees are generated by research activities that we perform for our partners, the timing and nature of which are dictated by the commencement of antibody discovery campaigns selected by our partners. Clinical milestone payments are generated upon the achievement of development milestones by our partners with respect to the antibodies that we deliver. We are also eligible to receive royalty payments upon net sales of antibodies that we have discovered for our partners. In 2020, these royalty payments related to our partnership with Lilly upon sales of bamlanivimab, an antibody therapy designed to treat and prevent COVID-19. Therefore, significant amount of royalty payments that we have received in recent periods are derived from a compound developed in a single partnership, and there can be no assurance that the revenues we have generated in such periods will be replicated in future periods. For example, demand for and sales of bamlanivimab may fall as new COVID-19 treatments or vaccines enter the market. As a result, we currently do not generate significant recurring revenue and, until such time as we establish significant recurring revenue, if at all, we will be prone to regular fluctuations in our revenue dependent on the timing of our entry into partnership agreements, our partners initiating discovery programs, and our partners achieving development milestones or commercial sales with respect to drug candidates utilizing antibodies discovered using our platform. We do not expect to generate significant recurring revenue unless and until such time as we secure additional programs under contract that, in the aggregate, result in regular and continuous execution of new
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partnership contracts, research discovery activities, achievement of development milestones or commencement of commercial sales. However, we are unable to predict whether and the extent to which the minimum annual payments under our partnership agreements will be exceeded, or the timing of the achievement of any milestones under these agreements, if they are achieved at all. In some cases, the timing and likelihood of payments to us under these agreements is dependent on our partners’ successful utilization of the antibodies discovered using our platform, which is outside of our control. Because of these factors, our operating results could vary materially from quarter to quarter from our forecasts.
Our quarterly and annual operating results have fluctuated significantly in the past and may fluctuate significantly in the future, which makes our future operating results difficult to predict and could cause our operating results to fall below expectations.
Our quarterly and annual operating results have fluctuated in the past and may fluctuate in the future, which makes it difficult for us to predict our future operating results. These fluctuations may occur due to a variety of factors, many of which are outside of our control, including, but not limited to:
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the level of demand for our antibody discovery platform and solutions, which may vary significantly;
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the timing and cost of, and level of investment in, research, development and commercialization activities relating to our platform and technology, which may change from time to time;
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the start and completion of programs in which our platform is utilized;
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the relative reliability and robustness of our platform, including the data generation and computational tools within our technology stack;
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the introduction of new technologies, platform features or software, by us or others in our industry;
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expenditures that we may incur to acquire, develop or commercialize additional technologies;
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expenditures involved in preparing, filing, prosecuting, maintaining, defending and enforcing patent claims, including costs related to our intellectual property litigation with Berkeley Lights, and the outcome of this and any other future patent litigation we may be involved in;
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the degree of competition in our industry and any change in the competitive landscape of our industry, including consolidation among our competitors or future partners;
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natural disasters, outbreaks of disease or public health crises, such as the COVID-19 pandemic;
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the timing and nature of any future acquisitions or strategic partnerships;
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future accounting pronouncements or changes in our accounting policies; and
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general social, political and economic conditions and other factors, including factors unrelated to our operating performance or the operating performance of our competitors.
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For example, 2020 was the first year in which we received payments from a partner beyond upfront fees. The antibody, bamlanivimab developed by Eli Lilly and Company, or Lilly, has undergone clinical testing and has received Emergency Use Authorization from the FDA, and we have received associated clinical milestone payments and royalties on net sales in 2020. Lilly progressed into these clinical trials at a greatly accelerated pace as a result of the Coronavirus Treatment Acceleration Program, which is a special emergency program for possible coronavirus therapies created by the FDA in 2020 to expedite the development of potentially safe and effective life-saving treatments to combat the COVID-19 pandemic. With respect to other or future product candidates, there is no assurance that any of our partners or collaborators will be able to advance a product candidate through clinical development on this timeframe again in the future, or at all. We initiated our partnering program in 2015 and have only had this one program result in clinical milestone and royalty payments to us to date and we have not yet had a program receive marketing approval.
The effect of one of the factors discussed above, or the cumulative effects of a combination of factors discussed above, could result in large fluctuations and unpredictability in our quarterly and annual operating results. As a result, comparing our operating results on a period-to-period basis may not be meaningful. Investors should not rely on our past results as an indication of our future performance.
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We may need to raise additional capital to fund our existing operations, improve our platform or expand our operations. If we are unable to raise additional capital on terms acceptable to us or at all or generate cash flows necessary to maintain or expand our operations, we may not be able to compete successfully, which would harm our business, operations, and financial condition.
Based on our current business plan, we believe our existing cash and cash equivalents and anticipated cash flows from operations, will be sufficient to meet our working capital and capital expenditure needs over at least the next 24 months following the date of this report. If our available cash resources together with our anticipated cash flow from operations are insufficient to satisfy our liquidity requirements including because of lower demand for our drug-discovery platform, or the realization of other risks described in this annual report, we may be required to raise additional capital prior to such time through issuances of equity or convertible debt securities, entrance into a credit facility or another form of third party funding or seek other debt financing. Such additional financing may not be available on terms acceptable to us or at all.
In any event, we may consider raising additional capital in the future to expand our business, to pursue strategic investments, to take advantage of financing opportunities or for other reasons. For example, this may include reasons such as to:
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increase our sales and marketing efforts to drive market recognition of our platform and address competitive developments;
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fund development and marketing efforts of our current and future programs;
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expand the capabilities of our platform into adjacent therapeutic modalities, including vaccine development and cell therapy;
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acquire, license or invest in technologies;
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acquire or invest in complementary businesses or assets; and
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finance capital expenditures and general and administrative expenses.
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Our present and future funding requirements will depend on many factors, including:
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our ability to achieve revenue growth;
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the cost of expanding our operations, including our sales and marketing efforts;
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our rate of progress in selling access to our platform and marketing activities associated therewith;
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our rate of progress in, and cost of research and development activities associated with, antibody discovery;
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the effect of competing technological and market developments;
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the continued impact of the COVID-19 pandemic on global social, political and economic conditions;
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the costs involved in preparing, filing, prosecuting, maintaining, defending and enforcing patent claims, including costs related to our intellectual property litigation with Berkeley Lights, and the outcome of this and any other future patent litigation we may be involved in; and
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costs related to any domestic and international expansion.
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The various ways we could raise additional capital carry potential risks. If we raise funds by issuing equity securities, dilution to our shareholders would result. Any preferred equity securities issued also would likely provide for rights, preferences or privileges senior to those of holders of our common shares. If we raise funds by issuing debt securities, those debt securities would have rights, preferences and privileges senior to those of holders of our common shares. Debt financing and preferred equity financing, if available, may also involve agreements that include covenants restricting our ability to take specific actions, such as incurring additional debt, selling or licensing our assets, making product acquisitions, making capital expenditures, or declaring dividends. For example, our agreement with the Canadian Ministry of Western Economic Diversification, or WD Canada, under the Western Innovation Initiative and the Business Scale-up and Productivity programs, as well as our agreement with the Strategic Innovation Fund, or SIF, requires us to obtain the consent of WD Canada or SIF, as applicable, before being able to engage in certain change of control and asset disposition transactions during the term of the agreement. In particular, our agreement with the SIF requires us to obtain consent in the event that an individual or company (or two or more of them acting in concert) acquires the direct or indirect beneficial ownership of 20% or more of our voting securities. In the event consent is not obtained, the agreement may be terminated and we will be obligated to repay all or a portion of the contribution amounts from WD Canada and SIF.
If we are unable to obtain adequate financing or financing on terms satisfactory to us, if we require it, our ability to continue to pursue our business objectives and to respond to business opportunities, challenges, or unforeseen circumstances could be significantly limited, and could have a material adverse effect on our business, financial condition, results of operations and prospects.
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Our commercial success depends on the quality of our antibody discovery platform and technological capabilities and their acceptance by new and existing partners in our market.
We utilize our drug-discovery platform to identify antibodies for further development and potential commercialization by our partners. As a result, the quality and sophistication of our platform and technology is critical to our ability to conduct our research discovery activities and to deliver more promising molecules and to accelerate and lower the costs of discovery as compared to traditional methods for our partnerships. In particular, our business depends, among other things, on:
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our platform’s ability to successfully identify therapeutic antibodies on the desired timeframes that can ultimately be used to prevent and treat diseases;
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our ability to execute on our strategy to enter into new partnerships with new or existing partners and establish a robust internal pipeline of antibody discovery programs;
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our ability to increase awareness of the capabilities of our technology and solutions;
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our partners’ and potential partners’ willingness to adopt new technologies;
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whether our platform reliably provides advantages over legacy and other alternative technologies and is perceived by customers to be cost effective;
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the rate of adoption of our solutions by pharmaceutical companies, biotechnology companies of all sizes, government organizations and non-profit organizations and others;
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prices we charge for our data packages and the discoveries that we make;
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the relative reliability and robustness of our platform;
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our ability to develop new solutions for partners;
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if competitors develop a platform that performs functional testing of cells at a greater throughput than us;
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the timing and scope of any approval that may be required by the U.S. Food and Drug Administration, or FDA, or any other regulatory body for drugs that are developed based on antibodies discovered by us;
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the impact of our investments in innovation and commercial growth;
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negative publicity regarding our or our competitors’ technologies resulting from defects or errors; and
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our ability to further validate our technology through research and accompanying publications.
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There can be no assurance that we will successfully address any of these or other factors that may affect the market acceptance of our platform or our technology. If we are unsuccessful in achieving and maintaining market acceptance of our platform, our business, financial condition, results of operations and prospects could be adversely affected.
If we cannot maintain and expand current partnerships and enter into new partnerships that generate discovery programs for antibodies, our business could be adversely affected.
We do not have our own pipeline of drug candidates, and instead we focus our efforts on the discovery of antibodies for targets that are selected by our partners. Our partners then use the data packages provided by us to develop their own drug candidates without our involvement. As a result, our success depends on our ability to expand the number and scope of our partnerships. Many factors may impact the success of these partnerships, including our ability to perform our obligations, our partners’ satisfaction with our data packages, our partners’ ability to successfully develop, secure regulatory approval for and commercialize drug candidates using antibodies discovered using our platform, our partners’ internal priorities (including fluctuations in research and developments budgets), our partners’ resource allocation decisions and competitive opportunities, disagreements with partners, the costs required of either party to the partnerships and related financing needs, and operating, legal and other risks in any relevant jurisdiction.
In our partnership programs, we maintain rights to large unique data sets that connect information at the level of single-cell measurements, DNA sequence and protein function. We use this data to create an accelerating flywheel of learning: data generation from our partnership business provides the basis for AI modules that lead to expanded capabilities and faster data generation which supports our partnership business. As a result, in addition to reducing our revenue or delaying the development of our future solutions, the loss of one or more of these relationships may reduce our exposure to such information, thus hindering our efforts to further our technological differentiation and improve our platform.
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We engage in conversations with companies regarding potential partnerships on an ongoing basis. These conversations may not result in a commercial agreement. Even if an agreement is reached, the resulting relationship may not be successful, including due to our inability to discover any usable antibodies for the selected targets or the antibodies that we do discover may not be successfully developed or commercialized by our partners. In such circumstances, we would not generate any substantial revenues from such a collaboration in the form of discovery research fees, milestone payments, royalties or otherwise. Speculation in the industry about our existing or potential partnerships can be a catalyst for adverse speculation about us, or our data packages, which can adversely affect our reputation and our business.
In recent periods, we have depended on a limited number of partners for our revenue, the loss of any of which could have an adverse impact on our business.
In recent periods, a limited number of partnerships accounted for a significant portion of our revenues. For the year ended December 31, 2019, two of our partners accounted for 47% and 15% of revenue, and eleven partners accounted for the remaining 38% of revenue. For the year ended December 31, 2020, three of our partners accounted for 35%, 25% and 14% of our research fees revenue and eight partners accounted for the remaining 26% of research fees revenue. For the year ended December 31, 2020 we recognized our first milestone and royalty revenue streams, totaling $213.3 million, exclusively from our partnership with Lilly. Because a significant portion of our revenue in 2020 was derived from sales of bamlanivimab, any reduction in sales of this compound may materially and adversely affect our results of operations for future periods. For example, demand for and sales of bamlanivimab may fall as new COVID-19 treatments or vaccines enter the market. Therefore, there can be no assurance that we will generate similar levels of revenue from sales of bamlanivimab in future periods. These partnerships cover a large number of programs under contract, and therefore represent a large portion of potential downstream value. In addition, our partnership agreements are typically terminable at will with 90 days’ notice prior to identification of a target, after which point they may only be terminated for cause. As a result, if we fail to maintain our relationships with our partners or if any of our partners discontinue their programs, our future results of operations could be materially and adversely affected.
Biopharmaceutical drug development is inherently uncertain, and it is possible that none of the drug candidates discovered using our platform that are further developed by our partners will receive marketing approval or become viable commercial products, on a timely basis or at all.
We use our platform to offer antibody drug-discovery programs to partners who are engaged in drug discovery and development. These partners include large cap pharmaceutical companies, biotechnology companies of all sizes and non-profit and government organizations. While we receive upfront payments generated through our receipt of technology access fees and discovery research fees for performing research activities for our partners, we estimate that the vast majority of the economic value of the contracts that we enter into with our partners is in the downstream payments that are payable if certain milestones are met or approved products are sold. As a result, our future growth is dependent on the ability of our partners to successfully develop and commercialize therapies based on antibodies discovered using our platform. Due to our reliance on our partners, the risks relating to product development, regulatory clearance, authorization or approval and commercialization apply to us derivatively through the activities of our partners. While we believe our platform is capable of identifying high quality antibodies, there can be no assurance that our partners will successfully develop, secure marketing approvals for and commercialize any drug candidates based on the antibodies that we discover. As a result, we may not realize the intended benefits of our partnerships. We initiated our partnering program in 2015 and have only had one program result in two clinical milestone payments to us to date and we have not yet had a program receive clinical marketing approval.
Due to the uncertain, time-consuming and costly clinical development and regulatory approval process, our partners may not successfully develop any drug candidates with the antibodies that we discover, or our partners may choose to discontinue the development of these drug candidates for a variety of reasons, including due to safety, risk versus benefit profile, exclusivity, competitive landscape, commercialization potential, production limitations or prioritization of their resources. It is possible that none of these drug candidates will ever receive regulatory approval and, even if approved, such drug candidates may never be successfully commercialized. For example, under our research collaboration agreement with Lilly, we are eligible to receive and have received payments upon the achievement of certain development milestones, and are eligible to receive royalties resulting from sales of both COVID-19 and non-COVID-19 products that incorporate antibodies we discovered. While we have received milestone and royalty payments from this collaboration, there can be no assurance that we will receive additional milestone payments or any royalties in the future. Furthermore, there can be no assurance that Lilly will be successful in its further development of bamlanivimab. For example, based on trial data that suggested that bamlanivimab is unlikely to help hospitalized COVID-19 patients recover from this advanced stage of their disease, Lilly announced on October 26, 2020 that it has stopped enrolling additional patients for treatment with bamlanivimab in this study. Lilly is continuing its BLAZE-1 trial, a randomized, double-blind, placebo-controlled Phase 2 study conducted by Lilly that is designed to assess the efficacy and safety of bamlanivimab and an additional Lilly product candidate for the treatment of symptomatic COVID-19 in the outpatient setting. In the fall of 2020, Lilly received Emergency Use Authorization, or EUA, for bamlanivimab from the FDA and similar emergency authorization from Health Canada, and began sales of the antibody. As
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a result, during the year ended December 31, 2020, we recognized an aggregate of $198.3 million in royalty payments on net sales of bamlanivimab. The FDA has the authority to grant an EUA to allow unapproved medical products to be used in an emergency to diagnose, treat, or prevent serious or life-threatening diseases or conditions when there are no adequate, approved, and available alternatives. Pursuant to the EUA by the FDA for bamlanivimab, Lilly is able to distribute bamlanivimab under the conditions set forth in the Emergency Use Authorization prior to FDA approval. Furthermore, the FDA may revoke an EUA where it is determined that the underlying health emergency no longer exists or warrants such authorization, and we cannot predict how long, if ever, an EUA would remain in place. Similarly, in Canada, under the Food and Drugs Act (Canada), the federal Minister of Health may make an Interim Order if the Minister believes that immediate action is required to deal with a significant risk to health, safety or the environment. As is the case with EUAs in the United States, authorizations issued under an Interim Order are not a long-term alternative to obtaining Health Canada licensure for a product. If the EUA or authorization issued under the Interim Order granted to Lilly are subsequently revoked, such revocation could adversely impact our business.
In addition, even if these drug candidates receive regulatory approval in the United States, our partners may never obtain approval or commercialize such drugs outside of the United States, which would limit their full market potential and therefore our ability to realize their potential downstream value. Furthermore, approved drugs may not achieve broad market acceptance among physicians, patients, the medical community and third-party payors, in which case revenue generated from their sales would be limited. Likewise, our partners have to make decisions about which clinical stage and pre-clinical drug candidates to develop and advance, and our partners may not have the resources to invest in all of the drug candidates that contain antibodies discovered using our platform, or clinical data and other development considerations may not support the advancement of one or more drug candidates. Decision-making about which drug candidates to prioritize involves inherent uncertainty, and our partners’ development program decision-making and resource prioritization decisions, which are outside of our control, may adversely affect the potential value of those partnerships. Additionally, subject to its contractual obligations to us, if one more of our partners is involved in a business combination, the partner might deemphasize or terminate the development or commercialization of any drug candidate that utilizes an antibody that we have discovered. If one of our strategic partners terminates its agreement with us, we may find it more difficult to attract new partners.
We are also subject to industry-wide FDA and other regulatory risk. The number of new drug applications, or NDAs, and biologics license applications, or BLAs, approved by the FDA varies significantly over time and if there were to be an extended reduction in the number of NDAs and BLAs approved by the FDA, the industry would contract and our business would be materially harmed.
Our partners’ failure to effectively advance, market and sell suitable drug candidates with the antibodies that we discover could have a material adverse effect on our business, financial condition, results of operations and prospects, and cause the market price of our common shares to decline. In addition to the inherent uncertainty in drug development addresses above, our ability to forecast our future revenues may be limited.
The failure of our partners to meet their contractual obligations to us could adversely affect our business.
Our reliance on our partners poses a number of additional risks, including the risk that they may not perform their contractual obligations to us to our standards, in compliance with applicable legal or contractual requirements, in a timely manner or at all; they may not maintain the confidentiality of our proprietary information; and disagreements or disputes could arise that could cause delays in, or termination of, the research, development or commercialization of products using our antibodies or result in litigation or arbitration.
In addition, certain of our partners are large, multinational organizations that run many programs concurrently, and we are dependent on their ability to accurately track and make milestone payments to us pursuant to the terms of our agreements with them. Any failure by them to inform us when milestones are reached and make related payments to us could adversely affect our results of operations.
Moreover, some of our partners are located in markets subject to political and social risk, corruption, infrastructure problems and natural disasters, and are often subject to country-specific privacy and data security risk as well as burdensome legal and regulatory requirements. Any of these factors could adversely impact their financial condition and results of operations, which could impair their ability to meet their contractual obligations to us, which may have a material adverse effect on our business, financial condition and results of operations.
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We may be unable to manage our current and future growth effectively, which could make it difficult to execute our business strategy.
Since our inception in 2012, we have experienced rapid growth and anticipate further growth in our business operations. This growth requires managing complexities across all aspects of our business, including complexities associated with increased headcount, integration of acquisitions, expansion of international operations, expansion of facilities, including our new GMP facility, execution on new lines of business and implementations of appropriate systems and controls to grow the business. Our growth has required significant time and attention from our management, and placed strains on our operational systems and processes, financial systems and internal controls and other aspects of our business.
We expect to continue to increase headcount and to hire more specialized personnel in the future as we grow our business. We will need to continue to hire, train and manage additional qualified scientists, engineers, laboratory personnel, client and account services personnel and sales and marketing staff and improve and maintain our technology to properly manage our growth. We may also need to hire, train and manage individuals with expertise that is separate, supplemental or different from expertise that we currently have, and accordingly we may not be successful in hiring, training and managing such individuals. For example, if our new hires perform poorly, if we are unsuccessful in hiring, training, managing and integrating these new employees, or if we are not successful in retaining our existing employees, our business may be harmed. Improving our technology and processes have required us to hire and retain additional scientific, engineering, sales and marketing, software, manufacturing, distribution and quality assurance personnel. As a result, we have experienced rapid headcount growth, resulting in a total of 206 employees as of December 31, 2020. We currently serve partners around the world and plan to continue to expand to new international jurisdictions as part of our growth strategy, which will lead to increased dispersion of our employees. Moreover, we expect that we will need to hire additional accounting, finance and other personnel in connection with our efforts to comply with the requirements of being a public company. As a public company, our management and other personnel need to devote a substantial amount of time towards maintaining compliance with these requirements. A risk associated with maintaining this rate of growth, for example, is that we may face challenges integrating, developing and motivating our rapidly growing and increasingly dispersed employee base.
We may not be able to maintain the quality, reliability or robustness of our platform, or the expected turnaround times of our solutions and support, or to satisfy customer demand as it grows. Our ability to manage our growth properly will require us to continue to improve our operational, financial and management controls, as well as our reporting systems and procedures. If we are unable to manage our growth properly, we may experience future weaknesses in our internal controls, which we may not successfully remediate on a timely basis or at all. For example, in connection with the preparation and audits of our financial statements as of and for the years ended December 31, 2018 and 2019, a material weakness was identified in our internal control over financial reporting, as described elsewhere in this “Risk Factors” section. To effectively manage our growth, we must continue to improve our operational and manufacturing systems and processes, our financial systems and internal controls and other aspects of our business and continue to effectively expand, train and manage our personnel. The time and resources required to improve our existing systems and procedures, implement new systems and procedures and to adequately staff such existing and new systems and procedures is uncertain, and failure to complete this in a timely and efficient manner could adversely affect our operations and negatively impact our business and financial results.
We have invested, and expect to continue to invest, in research and development efforts that further enhance our antibody discovery platform. Such investments in technology are inherently risky and may affect our operating results. If the return on these investments is lower or develops more slowly than we expect, our revenue and operating results may suffer.
We use our technology stack for the discovery of antibodies and, since our inception, we have dedicated a substantial portion of our resources on the development of our platform and the technology that it incorporates to further enhance our antibody discovery platform. These investments may involve significant time, risks, and uncertainties, including the risk that the expenses associated with these investments may affect operating results and that such investments may not generate sufficient technological advantage relative to alternatives in the market which would, in turn, impact revenues to offset liabilities assumed and expenses associated with these new investments. The industry in which we operate changes rapidly as a result of technological and drug developments, which may render our solutions less desirable. We believe that we must continue to invest a significant amount of time and resources in our platform and technology to maintain and improve our competitive position. If we do not achieve the benefits anticipated from these investments, if the achievement of these benefits is delayed, or if our technology stack is not able to accelerate the process of antibody drug discovery as quickly as we anticipate, our revenue and operating results may be adversely affected.
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Our partners have significant discretion in determining when and whether to make announcements, if any, about the status of our partnerships, including about clinical developments and timelines for advancing collaborative programs, and the price of our common shares may decline as a result of announcements of unexpected results or developments.
Our partners have significant discretion in determining when and whether to make announcements about the status of our partnerships, including about preclinical and clinical developments and timelines for advancing antibodies discovered using our platform. We do not plan to disclose the development status and progress of individual drug candidates of our partners, unless and until those partners do so first. Our partners may wish to report such information more or less frequently than we intend to or may not wish to report such information at all, in which case we would not report that information either. In addition, if partners choose to announce a collaboration with us, there is no guarantee that we will recognize research discovery fees in that quarter or even the following quarter, as such fees are not payable to us until our partner begins discovery activities. The price of our common shares may decline as a result of the public announcement of unexpected results or developments in our partnerships, or as a result of our partners withholding such information.
Our partners may not achieve projected discovery and development milestones and other anticipated key events in the expected timelines or at all, which could have an adverse impact on our business and could cause the price of our common shares to decline.
From time to time, we may make public statements regarding the expected timing of certain milestones and key events, as well as regarding developments and milestones under our partnerships, to the extent that our partners have publicly disclosed such information or permit us to make such disclosures. Certain of our partners have also made public statements regarding their expectations for the development of programs under partnership with us and they and other partners may in the future make additional statements about their goals and expectations for partnerships with us. The actual timing of these events can vary dramatically due to a number of factors such as delays or failures in our or our current and future partners’ drug discovery and development programs, the amount of time, effort, and resources committed by us and our current and future partners, and the numerous uncertainties inherent in the development of drugs. As a result, there can be no assurance that our partners’ current and future programs will advance or be completed in the time frames we or they expect. If our partners fail to achieve one or more of these milestones or other key events as planned, our business could be materially adversely affected and the price of our common shares could decline.
The life sciences and biotech platform technology market is highly competitive, and if we cannot compete successfully with our competitors, we may be unable to increase or sustain our revenue, or sustain profitability.
We face significant competition in the life sciences technology market. Our technologies address antibody therapeutic discovery challenges that are addressed by other platform technologies controlled by companies that have a variety of business models, including the development of internal pipelines of therapeutics, technology licensing, and the sale of instruments and devices. Examples of technical competition at different steps of our technology stack include:1
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In the field of single-cell screening, companies that provide access to similar technologies such as Berkeley Lights, HiFiBio Inc., Ligand Pharmaceuticals Inc., and Sphere Fluidics Ltd.
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In antibody RepSeq, companies that provide access to similar technologies such as 10X Genomics Inc., Adaptive Biotechnologies Corp., Atreca Inc. and Distributed Bio Inc.
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In bispecific antibody engineering, from companies that provide access to similar technologies such as Abbvie Inc., Genmab A/S, Merus N.V. and Zymeworks Inc.
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In discovery using genetically engineered rodents, companies that provide access to similar technologies such as Ablexis LLC, Crescendo Biologics Ltd., Harbour Antibodies BV, Kymab Ltd., Ligand Pharmaceuticals Inc. and RenBio Inc.
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We also face direct business competition from companies that provide antibody discovery services using technologies such as hybridoma and display. Companies with discovery business models that include downstream payments include Adimab LLC, Distributed Bio Inc. and WuXi Biologics Inc. In addition, we compete with a variety of fee-for-service contract research organizations that provide services, in most cases using legacy technologies, that compete with one or more steps in our technology stack. In addition, our partners may also elect to develop their workflows on legacy systems rather than rely on our platform.
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Our competitors and potential competitors may enjoy a number of competitive advantages over us. For example these may include:
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longer operating histories;
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greater brand recognition and market penetration;
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greater financial resources;
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greater technological and research and development resources;
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better system reliability and robustness;
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greater selling and marketing capabilities; and
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better established, larger scale and lower cost manufacturing capabilities.
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As a result, our competitors and potential competitors may be able to respond more quickly to changes in customer requirements, devote greater resources to the development, promotion and sale of their platforms or instruments than we can or sell their platforms or instruments, or offer solutions competitive with our platform and solutions at prices designed to win significant levels of market share. In addition, we may encounter challenges in marketing our solutions with our pricing model, which is structured to capture the potential downstream revenues associated with drug candidates that were discovered using our platform. Our partners and potential partners may prefer one or more pricing models employed by our competitors that involve upfront payments rather than downstream revenues. We may not be able to compete effectively against these organizations.
In addition, competitors may be acquired by, receive investments from or enter into other commercial relationships with larger, well-established and well-financed companies. Certain of our competitors may be able to secure key inputs from vendors on more favorable terms, devote greater resources to marketing and promotional campaigns, adopt more aggressive pricing policies and devote substantially more resources to technology and platform development than we can. If we are unable to compete successfully against current and future competitors, we may be unable to increase market adoption and sales of our platform, which could prevent us from increasing our revenue or sustaining profitability.
Our antibody discovery platform technology may not meet the expectations of our partners, which means our business, financial condition, results of operations and prospects could suffer.
Our success depends on, among other things, the market’s confidence that our platform is capable of substantially shortening the amount of time necessary to perform certain research activities as compared to the use of legacy and other alternative technologies, and will enable more efficient or improved pharmaceutical and biotechnology product development. For example, while we have in the past been able to identify a potential drug candidate for human testing within 90 days, there is no assurance that we will be able to do so on this timeframe again in the future, or at all. To date, we have only had one program result in clinical milestone and royalty payments to us. While our partnership with Lilly has produced bamlanivimab, an antibody for which Lilly was granted an EUA by the FDA and a similar authorization by Health Canada, we have not yet had a program receive full marketing approval. As a result, the relatively limited experience of our partners with our platform may reduce their confidence in our platform. We also believe that pharmaceutical and biotechnology companies are likely to be particularly sensitive to defects and errors in the use of our platform, including if our platform fails to deliver meaningful acceleration of certain research timelines accompanied by results at least as good as the results generated using legacy or other alternative technologies. There can be no guarantee that our platform will meet the expectations of pharmaceutical and biotechnology companies.
If we are unable to support demand for our antibody discovery platform, including ensuring that we have adequate teams and facilities to meet increased demand, or if we are unable to successfully manage our anticipated growth, our business could suffer.
We have experienced significant growth in the number of programs under contract in recent periods for which we are conducting research discovery activities. As we secure additional programs under contract and as our partners initiate discovery programs, our operational capacity to execute such research activities may become strained. We are also planning to devote significant resources to vertical integration into our platform. As a result, our strategy requires us to successfully scale our teams and facilities to meet future demand for our solutions. Our ability to grow our capacity will depend on our ability to expand our workforce and our facilities, and increase efficiency through automation and software solutions. We may also need to purchase additional equipment, some of which can take several months or more to procure and set up. There is no assurance that any of these increases in scale, expansion of personnel, equipment, software and computing capacities or process enhancements will be successfully implemented and in a timely manner. For example, we are currently investigating expansion of facilities in Vancouver. As limited facilities with
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appropriate capabilities are available in Vancouver, such facilities require purpose-built buildings often with rezoning requirements. Such projects are typically long in duration and subject to delays. Failure to manage this growth could result in delays, higher costs, declining quality, and slower responses to competitive challenges. A failure in any one of these areas could make it difficult for us to meet market expectations for our data packages and could damage our reputation and the prospects for our business.
Our management uses certain key business metrics to evaluate our business, measure our performance, identify trends affecting our business, formulate financial projections and make strategic decisions and such metrics may not accurately reflect all of the aspects of our business needed to make such evaluations and decisions, in particular as our business continues to grow.
In addition to our consolidated financial results, our management regularly reviews a number of operating and financial metrics, including number of programs under contract, the trend of potential downstream revenue terms (milestones and royalties) of the portfolio, the performance of the portfolio in probability of success in achieving clinical milestones as compared to historical averages and the performance of the portfolio in the time taken to achieve clinical milestones, to evaluate our business, measure our performance, identify trends affecting our business, formulate financial projections and make strategic decisions. We believe that these metrics are representative of our current business; however, these metrics may not accurately reflect all aspects of our business and we anticipate that these metrics may change or may be substituted for additional or different metrics as our business grows and as we introduce new solutions. If our management fails to review other relevant information or change or substitute the key business metrics they review as our business grows, their ability to accurately formulate financial projections and make strategic decisions may be compromised and our business, financial results and future growth prospects may be adversely impacted.
The sizes of the markets and forecasts of market growth for the demand of our antibody discovery platform and other of our key performance indicators are based on a number of complex assumptions and estimates and may be inaccurate.
We estimate annual total addressable markets and forecasts of market growth for our platform, data packages and technologies. We have also developed a standard set of key performance indicators in order to enable us to assess the performance of our business in and across multiple markets, and to forecast future revenue. These estimates, forecasts and key performance indicators are based on a number of complex assumptions, internal and third party estimates and other business data, including assumptions and estimates relating to our ability to generate revenue from the development of new workflows. While we believe our assumptions and the data underlying our estimates and key performance indicators are reasonable, there are inherent challenges in measuring or forecasting such information. As a result, these assumptions and estimates may not be correct and the conditions supporting our assumptions or estimates may change at any time, thereby reducing the predictive accuracy of these underlying factors and indicators. As a result, our estimates of the annual total addressable market and our forecasts of market growth and future revenue from technology access fees, discovery research fees, milestone payments or royalties may prove to be incorrect, and our key business metrics may not reflect our actual performance. For example, if the annual total addressable market or the potential market growth for our platform is smaller than we have estimated or if the key business metrics we utilize to forecast revenue are inaccurate, it may impair our sales growth and have an adverse impact on our business, financial condition, results of operations and prospects.
We must adapt to rapid and significant technological change and respond to introductions of new products and technologies by competitors to remain competitive.
We provide our antibody discovery solution and capabilities in industries that are characterized by significant enhancements and evolving industry standards. As a result, our partners’ needs are rapidly evolving. If we do not appropriately innovate and invest in new technologies, our platform may become less desirable in the markets we serve, and our partners could move to new technologies offered by our competitors, or engage in antibody discovery themselves. Though we believe partners in our markets display a significant amount of loyalty to their supplier of research or a particular product or service, we also believe that because of the initial time investment required by many of our partners to reach a decision about whether to partner with us, it may be difficult to regain that customer once the customer enters into a partnership or collaboration agreement with a competitor. Without the timely introduction of new solutions and technological enhancements, our offerings will likely become less competitive over time, in which case our competitive position and operating results could suffer. Accordingly, we focus significant efforts and resources on the development and identification of new technologies and markets to further broaden and deepen our capabilities and expertise in antibody drug discovery and development . For example, to the extent we fail to timely introduce new and innovative technologies or solutions, adequately predict our partners’ needs or fail to obtain desired levels of market acceptance, our business may suffer and our operating results could be adversely affected.
We depend on our information technology systems, and any failure of these systems could harm our business.
We depend on information technology and telecommunications systems for significant elements of our operations, including our laboratory information management system, our computational biology system, our knowledge management system, our customer reporting, our platform, our advanced automation systems, and advanced application software. We have installed, and expect to
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expand, a number of enterprise software systems that affect a broad range of business processes and functional areas, including for example, systems handling human resources, financial controls and reporting, contract management, regulatory compliance and other infrastructure operations. These implementations were expensive and required a significant effort in terms of both time and effort. In addition to the aforementioned business systems, we intend to extend the capabilities of both our preventative and detective security controls by augmenting the monitoring and alerting functions, the network design and the automatic countermeasure operations of our technical systems. These information technology and telecommunications systems support a variety of functions, including manufacturing operations, laboratory operations, data analysis, quality control, customer service and support, billing, research and development activities, scientific and general administrative activities. A significant risk in implementing these systems, for example, is the integration and communication between separate IT systems.
Information technology and telecommunications systems are vulnerable to damage from a variety of sources, including telecommunications or network failures, malicious software, bugs or viruses, human acts and natural disasters. Moreover, despite network security and back-up measures, some of our servers are potentially vulnerable to physical or electronic break-ins, computer viruses and similar disruptive problems. Any disruption or loss of information technology or telecommunications systems on which critical aspects of our operations depend could have an adverse effect on our business and our reputation, and we may be unable to regain or repair our reputation in the future.
Our sales and marketing organization is currently limited, and if we are unable to expand our marketing and salesforce to reach our existing and potential partners, our business may be adversely affected.
Until 2019, our sales and marketing team has been limited, with only one dedicated business development person supported by two to three marketing staff who are primarily focused on scientific writing. This activity has been complemented with research and development staff attending a variety of scientific conferences which has helped increase the business development pipeline. We will need to expand our commercial organization in order to effectively market our solutions to existing and new partners. Competition for employees capable of negotiating and entering into partnerships with pharmaceutical and biotechnology companies is intense. We may not be able to attract and retain personnel or be able to build an efficient and effective sales organization, which could negatively impact sales and market acceptance of our platform and limit our revenue growth and potential profitability. In addition, the time and cost of establishing a specialized sales, marketing and service force for a particular service may be difficult to justify in light of the revenue generated or projected.
Our expected future growth will impose significant added responsibilities on members of management, including the need to identify, recruit, maintain and integrate additional employees. Our future financial performance and our ability to successfully sell our programs and to compete effectively will depend, in part, on our ability to manage this potential future growth effectively, without compromising quality.
The loss of any member of our senior management team or our inability to attract and retain highly skilled scientists, engineers and salespeople could adversely affect our business.
Our success depends on the skills, experience and performance of key members of our senior management team, including Carl Hansen, Ph.D., our founding Chief Executive Officer, Véronique Lecault, Ph.D., our co-founder and Chief Operating Officer, Andrew Booth, our Chief Financial Officer, Tryn Stimart, our Chief Legal Officer, and Ester Falconer, Ph.D., our Chief Technology Officer. The individual and collective efforts of these employees will be important as we continue to develop our platform and our technology, and as we expand our commercial activities. The loss or incapacity of existing members of our executive management team could adversely affect our operations if we experience difficulties in hiring qualified successors. While certain of our executive officers are party to employment contracts with us, we cannot guarantee their retention for any period of time beyond the applicable notice period.
Our research and development programs and laboratory operations depend on our ability to attract and retain highly skilled scientists and engineers. We may not be able to attract or retain qualified scientists and engineers in the future due to the competition for qualified personnel among life science businesses. We also face competition from universities and public and private research institutions in recruiting and retaining highly qualified scientific and engineering personnel. We may have difficulties locating, recruiting or retaining qualified salespeople. Recruiting and retention difficulties can limit our ability to support our research and development and sales programs. A key risk in this area, for example, is that certain of our employees are at-will, which means that either we or the employee may terminate their employment at any time.
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We have made technology acquisitions and expect to acquire businesses or assets or make investments in other companies or technologies that could negatively affect our operating results, dilute our shareholders’ ownership, increase our debt or cause us to incur significant expense.
We have made technology acquisitions and expect to pursue acquisitions of businesses and assets in the future. We also may pursue strategic alliances and joint ventures that leverage our technologies and industry experience to expand our offerings or distribution. Although we have acquired other businesses or assets in the past, including our acquisition of Lineage in March 2017, our acquisition of the OrthoMab bispecific platform from Dualogics, LLC in June 2020 and our acquisition of Trianni in November 2020, we may not be able to find suitable partners or acquisition or asset purchase candidates in the future, and we may not be able to complete such transactions on favorable terms, if at all. The competition for partners or acquisition candidates may be intense, and the negotiation process will be time-consuming and complex. If we make any acquisitions, we may not be able to integrate these acquisitions successfully into our existing business, these acquisitions may not strengthen our competitive position, the transactions may be viewed negatively by partners or investors, we may be unable to retain key employees of any acquired business, relationships with key suppliers, manufacturers or partners of any acquired business may be impaired due to changes in management and ownership, and we could assume unknown or contingent liabilities. Any future acquisitions also could result in the incurrence of debt, contingent liabilities or future write-offs of intangible assets or goodwill, any of which could have a material adverse effect on our business, financial condition, results of operations and prospects. We cannot guarantee that we will be able to fully recover the costs of any acquisition. Integration of an acquired company also may disrupt ongoing operations and require management resources that we would otherwise focus on developing our existing business. We may not realize the anticipated benefits of any acquisition, technology license, strategic alliance or joint venture. We also may experience losses related to investments in other companies, which could have a material adverse effect on our business, financial condition, results of operations and prospects. Acquisitions may also expose us to a variety of international and business related risks, including intellectual property, regulatory laws, local laws, tax and accounting.
To finance any acquisitions or asset purchase, we may choose to issue securities as consideration, which would dilute the ownership of our shareholders. Additional funds may not be available on terms that are favorable to us, or at all. If the price of our common shares is low or volatile, we may not be able to acquire companies or assets using our securities as consideration.
Our business could become subject to government regulation and the regulatory approval and maintenance process may be expensive, time-consuming and uncertain both in timing and in outcome.
Our data packages are currently not subject to the clearance or approval of the FDA. However, our business could in future become subject to regulation by the FDA, or comparable international agencies. For example, in May 2020, we announced that we received a commitment from the Government of Canada under Innovation, Science and Economic Development’s, or ISED, Strategic Innovation Fund, or SIF, of up to CAD $175.6 million ($125.6 million), the proceeds of which we plan to use to build a GMP facility in Vancouver, British Columbia, which will house our manufacturing and manufacturing support infrastructure. This facility, once completed, will become subject to various regulations, which could include regular inspections, certifications and audits. Such regulatory approval processes or clearances may be expensive, time-consuming and uncertain, and our failure to obtain or comply with such approvals and clearances could have an adverse effect on our business, financial condition and operating results. In addition, changes to the current regulatory framework, including the imposition of additional or new regulations, including regulation of our data packages, could arise at any time, which may negatively affect our ability to obtain or maintain FDA or comparable regulatory approval of our data packages or future products, if required.
Our billing and collections processing activities are time-consuming, and any delay in transmitting invoices or failure to comply with applicable billing requirements, could have an adverse effect on our future revenue.
Billing for our data packages can be time-consuming, as many of our partners are large pharmaceutical or biotechnology companies and engage various models for their accounts payable matters, including outsourcing to third parties. We may face increased risk in our collection efforts, including long collection cycles and the risk that we may never collect at all, which could require to write-off significant accounts receivable and recognize bad debt expenses, which could adversely affect our business, financial condition, results of operations and prospects.
If our operating facility becomes damaged or inoperable or we are required to vacate our facility, our ability to conduct and pursue our research and development efforts may be jeopardized.
We currently derive the majority of our revenue based upon scientific and engineering research and development and testing conducted at a single facility located in Vancouver, British Columbia. Our facility and equipment could be harmed or rendered inoperable or inaccessible by natural or man-made disasters or other circumstances beyond our control, including fire, earthquake, power loss, communications failure, war or terrorism, or another catastrophic event, such as a pandemic or similar outbreak or public health crisis, which may render it difficult or impossible for us to support our partners and develop updates, upgrades and other
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improvements to our technology and platform, advanced automation systems, and advanced application and workflow software for some period of time. The inability to address system issues could develop if our facility is inoperable or suffers a loss of utilization for even a short period of time, may result in the loss of partners or harm to our reputation, and we may be unable to regain those partners or repair our reputation in the future. Furthermore, our facility and the equipment we use to perform our research and development work could be unavailable or costly and time-consuming to repair or replace. It would be difficult, time-consuming and expensive to rebuild our facility, to locate and qualify a new facility or license or transfer our proprietary technology to a third party. Even in the event we are able to find a third party to assist in research and development efforts, we may be unable to negotiate commercially reasonable terms to engage with the third party.
We carry insurance for damage to our property and the disruption of our business, but this insurance may not cover all of the risks associated with damage or disruption to our business, may not provide coverage in amounts sufficient to cover our potential losses and may not continue to be available to us on acceptable terms, if at all.
Our insurance policies are expensive and protect us only from some business risks, which leaves us exposed to significant uninsured liabilities.
We do not carry insurance for all categories of risk that our business may encounter and our policies have limits and significant deductibles. Some of the policies we currently maintain include general liability, property, umbrella and directors’ and officers’ insurance.
Any additional insurance coverage we acquire in the future, may not be sufficient to reimburse us for any expenses or losses we may suffer. Moreover, insurance coverage is becoming increasingly expensive and in the future we may not be able to maintain insurance coverage at a reasonable cost or in sufficient amounts to protect us against losses. A successful liability claim or series of claims in which judgments exceed our insurance coverage could adversely affect our business, financial condition, results of operations and prospects, including preventing or limiting the use of our platform to discover antibodies.
Operating as a public company makes it more difficult and more expensive for us to obtain director and officer liability insurance, and we may be required to accept reduced policy limits and coverage or incur substantially higher costs to obtain the same or similar coverage. As a result, it may be more difficult for us to attract and retain qualified people to serve on our board of directors, our board committees or as executive officers. We do not know, however, if we will be able to maintain existing insurance with adequate levels of coverage. Any significant uninsured liability may require us to pay substantial amounts, which would adversely affect our business, financial condition, results of operations and prospects.
Security breaches, loss of data and other disruptions could compromise sensitive information related to our business or prevent us from accessing critical information and expose us to liability, which could adversely affect our business and our reputation.
In the ordinary course of our business, we generate and store sensitive data, including research data, intellectual property and proprietary business information owned or controlled by ourselves or our employees, partners and other parties. We manage and maintain our applications and data utilizing a combination of on-site systems and cloud-based data centers. We utilize external security and infrastructure vendors to manage parts of our data centers. These applications and data encompass a wide variety of business-critical information, including research and development information, commercial information and business and financial information. We face a number of risks relative to protecting this critical information, including loss of access risk, inappropriate use or disclosure, accidental exposure, unauthorized access, inappropriate modification and the risk of our being unable to adequately monitor and audit and modify our controls over our critical information. This risk extends to the third party vendors and subcontractors we use to manage this sensitive data or otherwise process it on our behalf. Further, to the extent our employees are working at home during the COVID-19 pandemic, additional risks may arise as a result of depending on the networking and security put into place by the employees. The secure processing, storage, maintenance and transmission of this critical information are vital to our operations and business strategy, and we devote significant resources to protecting such information. Although we take reasonable measures to protect sensitive data from unauthorized access, use or disclosure, no security measures can be perfect and our information technology and infrastructure may be vulnerable to attacks by hackers or infections by viruses or other malware or breached due to employee erroneous actions or inactions by our employees or contractors, malfeasance or other malicious or inadvertent disruptions. Any such breach or interruption could compromise our networks and the information stored there could be accessed by unauthorized parties, publicly disclosed, lost or stolen. Any such access, breach, or other loss of information could result in legal claims or proceedings. Unauthorized access, loss or dissemination could also disrupt our operations and damage our reputation, any of which could adversely affect our business.
Additionally, although we maintain cybersecurity insurance coverage, we cannot be certain that such coverage will be adequate for data security liabilities actually incurred, will cover any indemnification claims against us relating to any incident, will continue to be available to us on economically reasonable terms, or at all, or that any insurer will not deny coverage as to any future claim. The
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successful assertion of one or more large claims against us that exceed available insurance coverage, or the occurrence of changes in our insurance policies, including premium increases or the imposition of large deductible or co-insurance requirements, could adversely affect our reputation, business, financial condition and results of operations.
International expansion of our business exposes us to business, regulatory, political, operational, financial and economic risks associated with doing business outside of Canada and the United States.
We currently have limited operations outside of Canada and the United States, but our business strategy incorporates potentially significant international expansion. We currently maintain relationships with partners outside of Canada and the United States, and may in the future enter into new relationships. We also have a wholly owned subsidiary in Australia. Doing business internationally involves a number of risks, including:
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multiple, conflicting and changing laws and regulations such as privacy regulations, tax laws, export and import restrictions, tariffs, economic sanctions and embargoes, employment laws, regulatory requirements and other governmental approvals, permits and licenses;
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failure by us or our distributors to obtain approvals to conduct our business in various countries;
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differing intellectual property rights;
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complexities and difficulties in obtaining intellectual property protection, enforcing our intellectual property and defending against third party intellectual property claims;
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difficulties in staffing and managing foreign operations;
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logistics and regulations associated with shipping systems and parts and components for systems, consumables and reagent kits, as well as transportation delays;
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travel restrictions that limit the ability of marketing, presales, sales, services and support teams to service partners;
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financial risks, such as longer payment cycles, difficulty collecting accounts receivable, the impact of local and regional financial crises on demand and payment for our data packages, and exposure to foreign currency exchange rate fluctuations;
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international trade disputes that could result in tariffs and other protective measures;
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natural disasters, political and economic instability, including wars, terrorism and political unrest, outbreak of disease, boycotts, curtailment of trade and other business restrictions; and
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regulatory and compliance risks that relate to maintaining accurate information and control over sales and distributors’ activities that may fall within the purview of the Canadian Corruption of Foreign Public Officials Act, or CFPOA, or U.S. Foreign Corrupt Practices Act, or FCPA, its books and records provisions, or its anti-bribery provisions.
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Any of these factors could significantly harm our future international expansion and operations and, consequently, our business, financial condition, results of operations and prospects. In addition, certain international markets are subject to significant political and economic uncertainty, including for example the effect of the withdrawal of the United Kingdom from the European Union. Significant political and economic developments in international markets for which we intend to operate, or the perception that any of them could occur, creates further challenges for operating in these markets in addition to creating instability in global economic conditions.
Our business activities are subject to the FCPA and other anti-bribery and anti-corruption laws of the United States and other countries in which we operate, as well as U.S. and certain foreign export controls and trade sanctions. Violations of such legal requirements could subject us to liability.
We are subject to the FCPA, which among other things prohibits companies and their third-party intermediaries from offering, promising, giving or authorizing others to give anything of value, either directly or indirectly, to non-U.S. government officials for the purpose of obtaining or retaining business or securing any other improper advantage. The FCPA also requires public companies to make and keep books and records that accurately and fairly reflect the transactions of the corporation and to devise and maintain an adequate system of internal accounting controls. Companies in the biotechnology and biopharmaceutical field are highly regulated and therefore involve interactions with public officials, including officials of non-U.S. governments. Additionally, in many other countries, hospitals are owned and operated by the government, and doctors and other hospital employees would be considered foreign officials under the FCPA. We are also subject to the Canadian equivalent to the FCPA, the CFPOA. These laws are complex and far-reaching in nature, and, as a result, there is no certainty that all of our employees, agents or contractors will comply with such laws and regulations. Any violations of these laws, or allegations of such violations, could disrupt our operations, involve significant management distraction, involve significant costs and expenses, including legal fees, and could result in a material adverse effect on
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our business, financial condition, results of operations and prospects. We could also suffer severe penalties, including criminal and civil penalties, disgorgement and other remedial measures.
In addition, our data packages may be subject to U.S. and foreign export controls and trade sanctions. Compliance with applicable regulatory requirements regarding the export of our data packages may create delays in us providing our data packages in international markets or, in some cases, prevent the export thereof to some countries altogether. Furthermore, U.S. export control laws and economic sanctions prohibit the shipment of certain products and services to countries, governments, and persons targeted by U.S. sanctions. If we fail to comply with export regulations and such economic sanctions, penalties could be imposed, including fines and/or denial of certain export privileges. Moreover, any new export restrictions, new legislation or shifting approaches in the enforcement or scope of existing regulations, or in the countries, persons, or products targeted by such regulations, could result in decreased use of our data packages by, or in our decreased ability to export our data packages to, existing or potential customers with international operations. Any decreased use of our data packages or limitation on our ability to export or sell our data packages would likely adversely affect our business.
We use biological and hazardous materials that require considerable expertise and expense for handling, storage and disposal and may result in claims against us.
We work with materials, including chemicals, biological agents and compounds that could be hazardous to human health and safety or the environment. Our operations also produce hazardous and biological waste products. Federal, provincial, state and local laws and regulations govern the use, generation, manufacture, storage, handling and disposal of these materials and wastes. We are subject to periodic inspections by Canadian provincial and federal authorities to ensure compliance with applicable laws. Compliance with applicable environmental laws and regulations is expensive, and current or future environmental laws and regulations may restrict our operations. If we do not comply with applicable regulations, we may be subject to fines and penalties.
In addition, we cannot eliminate the risk of accidental injury or contamination from these materials or wastes, which could cause an interruption of our commercialization efforts, research and development programs and business operations, as well as environmental damage resulting in costly clean-up and liabilities under applicable laws and regulations. In the event of contamination or injury, we could be liable for damages or penalized with fines in an amount exceeding our resources and our operations could be suspended or otherwise adversely affected. Furthermore, environmental laws and regulations are complex, change frequently and have tended to become more stringent. We cannot predict the impact of such changes and cannot be certain of our future compliance.
Once completed, our manufacturing operations will be dependent upon third party suppliers, including single source suppliers, making us vulnerable to supply shortages and price fluctuations, which could harm our business.
We plan to build a GMP facility in Vancouver, British Columbia, to house our manufacturing and manufacturing support infrastructure. We anticipate that some of the suppliers of critical components or materials for our processes may be single or sole source suppliers and the replacement of these suppliers or the identification and qualification of suitable second sources may require significant time, effort and expense, and could result in delays in production, which could negatively impact our business operations and revenue. There can be no assurance that our supply of components necessary for the operation of this facility will not be limited, interrupted, or of satisfactory quality or continue to be available at acceptable prices. In addition, loss of any critical component provided by a single source supplier could require us to change the design of our manufacturing process based on the functions, limitations, features and specifications of the replacement components.
In addition, several other non-critical components and materials that comprise our systems are currently manufactured by a single supplier or a limited number of suppliers. In many of these cases, we have not yet qualified alternate suppliers and rely upon purchase orders, rather than long-term supply agreements. A supply interruption or an increase in demand beyond our current suppliers’ capabilities could harm our ability to manufacture our systems unless and until new sources of supply are identified and qualified. Our reliance on these suppliers subjects us to a number of risks that could harm our business, including:
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interruption of supply resulting from modifications to or discontinuation of a supplier’s operations;
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delays in product shipments resulting from uncorrected defects, reliability issues, or a supplier’s variation in a component;
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a lack of long-term supply arrangements for key components with our suppliers;
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inability to obtain adequate supply in a timely manner, or to obtain adequate supply on commercially reasonable terms;
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difficulty and cost associated with locating and qualifying alternative suppliers for our components in a timely manner;
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a modification or change in a manufacturing process or part that unknowingly or unintentionally negatively impacts the operation of our systems;
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production delays related to the evaluation and testing of products from alternative suppliers, and corresponding regulatory qualifications;
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delay in delivery due to our suppliers prioritizing other customer orders over ours;
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damage to our brand reputation caused by defective components produced by our suppliers;
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increased cost of our warranty program due to product repair or replacement based upon defects in components produced by our suppliers; and
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fluctuation in delivery by our suppliers due to changes in demand from us or their other partners.
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Any interruption in the supply of components or materials, or our inability to obtain substitute components or materials from alternate sources at acceptable prices in a timely manner, could impair our ability to meet the demand of our partners, which would have an adverse effect on our business.
Although we expect that the acquisition of Trianni will result in synergies and other benefits to us, we may not realize those benefits because of difficulties related to integration.
In November 2020, we consummated the Trianni acquisition. As of the date of this document, the Trianni integration plan and costs are running according to the deal model; however, the full integration is not yet complete. We expect that the integration process will require significant time and resources, and we may not be able to manage the process successfully. If we are not able to successfully integrate Trianni’s businesses with ours, the anticipated benefits of the Trianni acquisition may not be realized fully or may take longer than expected to be realized. For instance, in connection with the acquisition, we acquired a suite of transgenic humanized rodent lines currently being validated and available for discovery projects in the near future. There can be no assurance that these rodent lines will ever be validated or available for use by us or our partners. Further, it is possible that we will experience disruption of either company’s or both companies’ ongoing businesses, including as we continue to service Trianni’s existing contracts for the foreseeable future. We may also incur higher than expected costs as a result of the acquisition or experience an overall post-completion process that takes longer than originally anticipated. In addition, at times the attention of certain members of our management and resources may be focused on integration of the businesses of the two companies and diverted from day-to-day business operations, which may disrupt our ongoing business and the business of the combined company. We expect to incur non-recurring costs in connection with the acquisition of Trianni and integrating our operations with Trianni’s. Management cannot ensure that the elimination of duplicative costs or the realization of other efficiencies will offset the transaction and integration costs in the near term or at all. Furthermore, uncertainty about the effect of the Trianni acquisition on our business, employees, customers, third parties with whom we have relationships may have an adverse effect on our business, financial condition, results of operations and prospects. In addition, such challenges in integrating our acquisition of Trianni may be magnified by the ongoing COVID-19 pandemic.
Other potential difficulties we may encounter as part of the integration process include (i) the challenge of integrating complex systems, operating procedures, regulatory compliance programs, technology, networks and other assets of Trianni in a seamless manner that minimizes any adverse impact on our employees, patients, suppliers and other business partners; and (ii) potential unknown liabilities, liabilities that are significantly larger than we currently anticipate and unforeseen increased expenses or delays associated with the acquisition, including costs to integrate Trianni’s business that may exceed the costs that we currently anticipate. Accordingly, the contemplated benefits of the Trianni acquisition may not be realized fully, or at all, or may take longer to realize than expected.
Risks Related to Our Intellectual Property
If we are unable to obtain and maintain sufficient intellectual property protection for our technology, including our platform and Celium, our proprietary antibody visualization software, or if the scope of the intellectual property protection obtained is not sufficiently broad, our competitors could develop and commercialize technologies or a platform similar or identical to ours, and our ability to successfully sell our data packages may be impaired.
We rely on patent protection as well as trademark, copyright, trade secret and other intellectual property rights protection and contractual restrictions to protect our proprietary technologies, all of which provide limited protection and may not adequately protect our rights or permit us to gain or keep a competitive advantage. If we fail to protect our intellectual property, third parties may be able to compete more effectively against us. In addition, we may incur substantial litigation costs in our attempts to recover or restrict the use of our intellectual property.
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To the extent our intellectual property offers inadequate protection, or is found to be invalid or unenforceable, we would be exposed to a greater risk of direct competition. If our intellectual property does not provide adequate coverage of our competitors’ products and services, our competitive position could be adversely affected, as could our business. Both the patent application process and the process of managing patent disputes can be time-consuming and expensive.
Our success depends in large part on our ability to obtain and maintain adequate protection of the intellectual property we may own solely and jointly with others or otherwise have rights to, particularly patents, in the United States, Canada and in other countries with respect to our platform, our software and our technologies, without infringing the intellectual property rights of others.
We strive to protect and enhance the proprietary technologies that we believe are important to our business, including seeking patents intended to cover our platform and related technologies and uses thereof, as we deem appropriate. Our patents and patent applications in the United States, Canada and certain foreign jurisdictions relate to our technology. However, obtaining and enforcing patents in our industry is costly, time-consuming and complex, and we may fail to apply for patents on important products and technologies in a timely fashion or at all, or we may fail to apply for patents in potentially relevant jurisdictions. There can be no assurance that the claims of our patents (or any patent application that issues as a patent), will exclude others from making, using or selling our technology or technology that is substantially similar to ours. We also rely on trade secrets to protect aspects of our business that are not amenable to, or that we do not consider appropriate for, patent protection. In countries where we have not sought and do not seek patent protection, third parties may be able to manufacture and sell our technology without our permission, and we may not be able to stop them from doing so. We may not be able to file and prosecute all necessary or desirable patent applications, or maintain, enforce and license any patents that may issue from such patent applications, at a reasonable cost or in a timely manner. It is also possible that we will fail to identify patentable aspects of our research and development output before it is too late to obtain patent protection. We may not have the right to control the preparation, filing and prosecution of patent applications, or to maintain the rights to patents licensed to third parties. Therefore, these patents and applications may not be prosecuted and enforced in a manner consistent with the best interests of our business.
As of December 31, 2020, we owned or exclusively licensed over 50 issued or allowed patents and over 85 pending patent applications worldwide, which includes over 30 issued U.S. patents and over 20 pending U.S. patent applications. We own registered trademarks and trademark applications for AbCellera, Celium, Trianni and the Trianni Mouse in the U.S., Canada and Europe. It is possible that none of our pending patent applications will result in issued patents in a timely fashion or at all, and even if patents are granted, they may not provide a basis for intellectual property protection of commercially viable products or services, may not provide us with any competitive advantages, or may be challenged and invalidated by third parties. It is possible that others will design around our current or future patented technologies. As a result, our owned and licensed patents and patent applications comprising our patent portfolio may not provide us with sufficient rights to exclude others from commercializing technology and products similar to any of our technology.
It is possible that in the future some of our patents, licensed patents and patent applications may be challenged at the United States Patent and Trademark Office, or USPTO, or in proceedings before the patent offices of other jurisdictions. We may not be successful in defending any such challenges made against our patents or patent applications. Any successful third party challenge to our patents could result in loss of exclusivity or freedom to operate, patent claims being narrowed, the unenforceability or invalidity of such patents, in whole or in part, which could limit our ability to stop others from using or commercializing similar or identical technology and products, limit the duration of the patent protection of our technology, and increased competition to our business. We may have to challenge the patents or patent applications of third parties. The outcome of patent litigation or other proceeding can be uncertain, and any attempt by us to enforce our patent rights against others or to challenge the patent rights of others may not be successful, or, if successful, may take substantial time and result in substantial cost, and may divert our efforts and attention from other aspects of our business.
Any changes we make to our technology, including changes that may be required for commercialization or that cause them to have what we view as more advantageous properties may not be covered by our existing patent portfolio, and we may be required to file new applications and/or seek other forms of protection for any such alterations to our technology. There can be no assurance that we would be able to secure patent protection that would adequately cover an alternative to our technology.
The patent positions of life sciences companies can be highly uncertain and involve complex legal and factual questions for which important legal principles remain unresolved. No consistent policy regarding the breadth of claims allowed in such companies’ patents has emerged to date in the United States or elsewhere. Courts frequently render opinions in the biotechnology field that may affect the patentability of certain inventions or discoveries.
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Changes in patent law in the United States and other jurisdictions could diminish the value of patents in general, thereby impairing our ability to protect our technology.
Changes in either the patent laws or in interpretations of patent laws in the United States or other countries or regions may diminish the value of our intellectual property. We cannot predict the breadth of claims that may be allowed or enforced in our patents or in third party patents. We may not develop additional proprietary platforms, methods and technologies that are patentable.
Assuming that other requirements for patentability are met, prior to March 16, 2013, in the United States, the first to invent the claimed invention was entitled to the patent, while outside the United States, the first to file a patent application was entitled to the patent. On or after March 16, 2013, under the Leahy-Smith America Invents Act, or the America Invents Act, enacted in September 16, 2011, the United States transitioned to a first inventor to file system in which, assuming that other requirements for patentability are met, the first inventor to file a patent application will be entitled to the patent on an invention regardless of whether a third party was the first to invent the claimed invention. A third party that files a patent application in the USPTO on or after March 16, 2013, but before us could therefore be awarded a patent covering an invention of ours even if we had made the invention before it was made by such third party. This will require us to be cognizant of the time from invention to filing of a patent application. Since patent applications in the United States and most other countries are confidential for a period of time after filing or until issuance, we cannot be certain that we or our licensors were the first to either (i) file any patent application related to our technology or (ii) invent any of the inventions claimed in our or our licensor’s patents or patent applications.
The America Invents Act also includes a number of significant changes that affect the way patent applications will be prosecuted and also may affect patent litigation. These include allowing third party submission of prior art to the USPTO during patent prosecution and additional procedures to attack the validity of a patent by USPTO administered post-grant proceedings, including post-grant review, inter partes review and derivation proceedings. Because of a lower evidentiary standard in USPTO proceedings compared to the evidentiary standard in United States federal courts necessary to invalidate a patent claim, a third party could potentially provide evidence in a USPTO proceeding sufficient for the USPTO to hold a claim invalid even though the same evidence would be insufficient to invalidate the claim if first presented in a district court action. Accordingly, a third party may attempt to use the USPTO procedures to invalidate our patent claims that would not have been invalidated if first challenged by the third party as a defendant in a district court action. Therefore, the America Invents Act and its implementation could increase the uncertainties and costs surrounding the prosecution of our owned or in-licensed patent applications and the enforcement or defense of our owned or in-licensed issued patents, all of which could have a material adverse effect on our business, financial condition, results of operations and prospects.
In addition, the patent position of companies in the biotechnology field is particularly uncertain. Various courts, including the United States Supreme Court have rendered decisions that affect the scope of patentability of certain inventions or discoveries relating to biotechnology. These decisions state, among other things, that a patent claim that recites an abstract idea, natural phenomenon or law of nature (for example, the relationship between particular genetic variants and cancer) are not themselves patentable. Precisely what constitutes a law of nature or abstract idea is uncertain, and it is possible that certain aspects of our technology could be considered natural laws. Accordingly, the evolving case law in the United States may adversely affect our and our licensors’ ability to obtain new patents or to enforce existing patents and may facilitate third party challenges to any owned or licensed patents.
Issued patents covering our platform and technology could be found invalid or unenforceable if challenged.
The issuance of a patent is not conclusive as to its inventorship, scope, validity or enforceability. Some of our patents or patent applications (including licensed patents) may be challenged at a future point in time in opposition, derivation, reexamination, inter partes review, post-grant review or interference. Any successful third party challenge to our patents in this or any other proceeding could result in the unenforceability or invalidity of such patents or amendment to our patents in such a way that they no longer cover our platform and our technology, which may lead to increased competition to our business, which could harm our business. In addition, in patent litigation in the United States, defendant counterclaims alleging invalidity or unenforceability are commonplace. The outcome following legal assertions of invalidity and unenforceability during patent litigation is unpredictable. If a defendant were to prevail on a legal assertion of invalidity or unenforceability, we would lose at least part, and perhaps all, of the patent protection on certain aspects of our platform technologies. In addition, if the breadth or strength of protection provided by our patents and patent applications is threatened, regardless of the outcome, it could dissuade companies from collaborating with us to license, develop or commercialize current or future products.
We may not be aware of all third party intellectual property rights potentially relating to our platform or technology. Publications of discoveries in the scientific literature often lag behind the actual discoveries, and patent applications in the United States and other jurisdictions are typically not published until approximately 18 months after filing or, in some cases, not until such patent applications issue as patents. We or our licensors might not have been the first to make the inventions covered by each of our pending patent applications and we or our licensors might not have been the first to file patent applications for these inventions. There
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is also no assurance that all of the potentially relevant prior art relating to our patents and patent applications or licensed patents and patent applications has been found, which could be used by a third party to challenge their validity, or prevent a patent from issuing from a pending patent application.
To determine the priority of these inventions, we may have to participate in interference proceedings, derivation proceedings or other post-grant proceedings declared by the USPTO that could result in substantial cost to us. The outcome of such proceedings is uncertain. No assurance can be given that other patent applications will not have priority over our patent applications. In addition, changes to the patent laws of the United States allow for various post-grant opposition proceedings that have not been extensively tested, and their outcome is therefore uncertain. Furthermore, if third parties bring these proceedings against our patents, we could experience significant costs and management distraction.
We rely on in-licenses from third parties. If we lose these rights, our business may be materially adversely affected, our ability to develop improvements to our technology stack and drug-discovery platform may be negatively and substantially impacted, and if disputes arise, we may be subjected to future litigation as well as the potential loss of or limitations on our ability to incorporate the technology covered by these license agreements.
We are party to a royalty-bearing license agreement with the University of British Columbia that grants us exclusive rights to exploit certain patent rights that are related to our systems. Through our acquisition of Lineage, we obtained an exclusive license from Stanford University to patents and patent applications directed toward immune repertoire sequencing. We may need to obtain additional licenses from others to advance our research, development and commercialization activities. Some of our license agreements impose, and we expect that any future exclusive in-license agreements will impose, various development, diligence, commercialization and other obligations on us. We may enter into engagements in the future, with other licensors under which we obtain certain intellectual property rights relating to our platform and technology. These engagements take the form of exclusive license or of actual ownership of intellectual property rights or technology from third parties. Our rights to use the technology we license are subject to the continuation of and compliance with the terms of those agreements. In some cases, we may not control the prosecution, maintenance or filing of the patents to which we hold licenses, or the enforcement of those patents against third parties.
Moreover, disputes may arise with respect to our licensing or other upstream agreements, including:
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the scope of rights granted under the agreements and other interpretation-related issues;
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the extent to which our systems and consumables, technology and processes infringe on intellectual property of the licensor that is not subject to the licensing agreement;
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the sublicensing of patent and other rights under our collaborative development relationships;
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our diligence obligations under the license agreements and what activities satisfy those diligence obligations;
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the inventorship and ownership of inventions and know-how resulting from the joint creation or use of intellectual property by our licensors and us and our partners; and
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the priority of invention of patented technology.
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In spite of our efforts to comply with our obligations under our in-license agreements, our licensors might conclude that we have materially breached our obligations under our license agreements and might therefore, including in connection with any aforementioned disputes, terminate the relevant license agreement, thereby removing or limiting our ability to develop and commercialize technology covered by these license agreements. If any such in-license is terminated, or if the licensed patents fail to provide the intended exclusivity, competitors or other third parties might have the freedom to market or develop technologies similar to ours. In addition, absent the rights granted to us under such license agreements, we may infringe the intellectual property rights that are the subject of those agreements, we may be subject to litigation by the licensor, and if such litigation by the licensor is successful we may be required to pay damages to our licensor, or we may be required to cease our development and commercialization activities which are deemed infringing, and in such event we may ultimately need to modify our activities or technologies to design around such infringement, which may be time- and resource-consuming, and which may not be ultimately successful. Any of the foregoing could have a material adverse effect on our business, financial condition, results of operations and prospects.
In addition, our rights to certain components of our technology stack, are licensed to us on a non-exclusive basis. The owners of these non-exclusively licensed technologies are therefore free to license them to third parties, including our competitors, on terms that may be superior to those offered to us, which could place us at a competitive disadvantage. Moreover, our licensors may own or control intellectual property that has not been licensed to us and, as a result, we may be subject to claims, regardless of their merit, that we are infringing or otherwise violating the licensor’s rights. In addition, certain of our agreements with third parties may provide that intellectual property arising under these agreements, such as data that could be valuable to our business, will be owned by the
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counterparty, in which case, we may not have adequate rights to use such data or have exclusivity with respect to the use of such data, which could result in third parties, including our competitors, being able to use such data to compete with us.
If we cannot acquire or license rights to use technologies on reasonable terms or if we fail to comply with our obligations under such agreements, we may not be able to commercialize new technologies or services in the future and our business could be harmed.
In the future, we may identify third party intellectual property and technology we may need to license in order to engage in our business, including to develop or commercialize new technologies or services, and the growth of our business may depend in part on our ability to acquire, in-license or use this technology. However, such licenses may not be available to us on acceptable terms or at all. The licensing or acquisition of third party intellectual property rights is a competitive area, and several more established companies may pursue strategies to license or acquire third party intellectual property rights that we may consider attractive or necessary. These established companies may have a competitive advantage over us due to their size, capital resources and greater development or commercialization capabilities. In addition, companies that perceive us to be a competitor may be unwilling to assign or license rights to us. Even if such licenses are available, we may be required to pay the licensor in return for the use of such licensor’s technology, lump-sum payments, payments based on certain milestones such as sales volumes, or royalties based on sales of our platform. In addition, such licenses may be non-exclusive, which could give our competitors access to the same intellectual property licensed to us. We may also need to acquire or negotiate licenses to patents or patent applications before or after introducing a new service. The acquisition and licensing of third party patent rights is a competitive area, and other companies may also be pursuing strategies to acquire or license third party patent rights that we may consider attractive. We may not be able to acquire or obtain necessary licenses to patents or patent applications. Even if we are able to obtain a license to patent rights of interest, we may not be able to secure exclusive rights, in which case others could use the same rights and compete with us.
In spite of our best efforts, our licensors might conclude that we have materially breached our license agreements and might therefore terminate the license agreements, thereby removing our ability to develop and commercialize technology covered by these license agreements. If these licenses are terminated, or if the underlying intellectual property fails to provide the intended exclusivity, competitors would have the freedom to seek regulatory approval of, and to market, technologies identical to ours. This could have a material adverse effect on our competitive position, business, financial condition, results of operations and prospects. Additionally, termination of these agreements or reduction or elimination of our rights under these agreements, or restrictions on our ability to freely assign or sublicense our rights under such agreements when it is in the interest of our business to do so, may result in our having to negotiate new or reinstated agreements with less favorable terms, or cause us to lose our rights under these agreements, including our rights to important intellectual property or technology or impede, or delay or prohibit the further development or commercialization of one or more technologies that rely on such agreements.
While we still face all of the risks described herein with respect to those agreements, we cannot prevent third parties from also accessing those technologies. In addition, our licenses may place restrictions on our future business opportunities.
In addition to the above risks, intellectual property rights that we license in the future may include sublicenses under intellectual property owned by third parties, in some cases through multiple tiers. The actions of our licensors may therefore affect our rights to use our sublicensed intellectual property, even if we are in compliance with all of the obligations under our license agreements. Should our licensors or any of the upstream licensors fail to comply with their obligations under the agreements pursuant to which they obtain the rights that are sublicensed to us, or should such agreements be terminated or amended, our ability to further commercialize our technology may be materially harmed.
Further, we may not have the right to control the prosecution, maintenance and enforcement of all of our licensed and sublicensed intellectual property, and even when we do have such rights, we may require the cooperation of our licensors and upstream licensors, which may not be forthcoming. Our business could be adversely affected if we or our licensors are unable to prosecute, maintain and enforce our licensed and sublicensed intellectual property effectively.
Our licensors may have relied on third-party consultants or collaborators or on funds from third parties such that our licensors are not the sole and exclusive owners of the patents and patent applications we in-license. If other third parties have ownership rights to patents or patent applications we in-license, they may be able to license such patents to our competitors, and our competitors could market competing products and technology. This could have a material adverse effect on our competitive position, business, financial conditions, results of operations and prospects.
Our business, financial condition, results of operations and prospects could be materially and adversely affected if we are unable to enter into necessary agreements on acceptable terms or at all, if any necessary licenses are subsequently terminated, if the licensors fail to abide by the terms of the licenses or fail to prevent infringement by third parties, or if the acquired or licensed patents or other rights are found to be invalid or unenforceable. Moreover, we could encounter delays in the introduction of services while we attempt
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to develop alternatives. Defense of any lawsuit or failure to obtain any of these licenses on favorable terms could prevent us from commercializing products, which could harm our business, financial condition, results of operations and prospects.
We may not be able to protect our intellectual property rights throughout the world.
Filing, prosecuting and defending patents on our platform, software, systems, workflows and processes in all countries throughout the world would be prohibitively expensive, and our intellectual property rights in some countries outside the United States and Canada can be less extensive than those in the United States and Canada. In addition, the laws of some foreign countries do not protect intellectual property rights to the same extent as the laws of the United States and Canada, and even where such protection is nominally available, judicial and governmental enforcement of such intellectual property rights may be lacking. Whether filed in the United States or abroad, our patent applications may be challenged or may fail to result in issued patents. Further, we may encounter difficulties in protecting and defending such rights in foreign jurisdictions. Consequently, we may not be able to prevent third parties from practicing our inventions in some or all countries outside the United States and Canada, or from selling or importing products made using our inventions in and into the United States, Canada or other jurisdictions. Competitors may use our technologies in jurisdictions where we have not obtained patent protection to develop their own platform or technologies and may also sell their products or services to territories where we have patent protection, but enforcement is not as strong as that in the United States and Canada. These platforms and technologies may compete with ours. Our patents or other intellectual property rights may not be effective or sufficient to prevent them from competing. In addition, certain countries have compulsory licensing laws under which a patent owner may be compelled to grant licenses to other parties. Furthermore, many countries limit the enforceability of patents against other parties, including government agencies or government contractors. In these countries, the patent owner may have limited remedies, which could materially diminish the value of any patents. In many foreign countries, patent applications and/or issued patents, or parts thereof, must be translated into the native language. If our patent applications or issued patents are translated incorrectly, they may not adequately cover our technologies; in some countries, it may not be possible to rectify an incorrect translation, which may result in patent protection that does not adequately cover our technologies in those countries.
Many companies have encountered significant problems in protecting and defending intellectual property rights in foreign jurisdictions. The legal systems of many other countries do not favor the enforcement of patents and other intellectual property protection, particularly those relating to biotechnology, which could make it difficult for us to stop the misappropriation or other violations of our intellectual property rights including infringement of our patents in such countries. Proceedings to enforce our patent rights in foreign jurisdictions could result in substantial cost and divert our efforts and attention from other aspects of our business, could put our patents at risk of being invalidated or interpreted narrowly and our patent applications at risk of not issuing, and could provoke third parties to assert claims against us. We may not prevail in any lawsuits that we initiate, or that are initiated against us, and the damages or other remedies awarded, if any, may not be commercially meaningful. In addition, changes in the law and legal decisions by courts in the United States and Canada and foreign countries may affect our ability to obtain adequate protection for our technologies and the enforcement of intellectual property. Accordingly, our efforts to enforce our intellectual property rights around the world may be inadequate to obtain a significant commercial advantage from the intellectual property that we develop or license.
Intellectual property rights do not necessarily address all potential threats to our competitive advantage.
The degree of future protection afforded by our intellectual property rights is uncertain because intellectual property rights have limitations and may not adequately protect our business or permit us to maintain our competitive advantage. For example:
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others may be able to make products that are similar to any product candidates we may develop or utilize similar technology but that are not covered by the claims of the patents that we license or may own in the future;
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we, or our current or future collaborators, might not have been the first to make the inventions covered by the issued patents and pending patent applications that we license or may own in the future;
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we, or our current or future collaborators, might not have been the first to file patent applications covering certain of our or their inventions;
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others may independently develop similar or alternative technologies or duplicate any of our technologies without infringing our owned or licensed intellectual property rights;
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it is possible that our pending patent applications or those that we may own in the future will not lead to issued patents;
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issued patents that we hold rights to may be held invalid or unenforceable, including as a result of legal challenges by our competitors;
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our competitors might conduct research and development activities in countries where we do not have patent rights and then use the information learned from such activities to develop competitive products for sale in our major commercial markets;
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we cannot ensure that any patents issued to us or our licensors will provide a basis for an exclusive market for our commercially viable product candidates or will provide us with any competitive advantages;
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we cannot ensure that our commercial activities or product candidates will not infringe upon the patents of others;
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we cannot ensure that we will be able to further commercialize our technology on a substantial scale, if approved, before the relevant patents that we own or license expire;
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we cannot ensure that any of our patents, or any of our pending patent applications, if issued, or those of our licensors, will include claims having a scope sufficient to protect our technology;
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we may not develop additional proprietary technologies that are patentable;
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the patents or intellectual property rights of others may harm our business; and
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we may choose not to file a patent application in order to maintain certain trade secrets or know-how, and a third party may subsequently file a patent covering such intellectual property.
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Should any of these events occur, they could have a material adverse effect on our business, financial condition, results of operations and prospects.
If we are unable to protect the confidentiality of our information and our trade secrets, the value of our technology could be materially adversely affected and our business could be harmed.
We rely heavily on trade secrets and confidentiality agreements to protect our unpatented know-how, technology and other proprietary information, including parts of our technology platform, and to maintain our competitive position. However, trade secrets and know-how can be difficult to protect. In addition to pursuing patents on our technology, we take steps to protect our intellectual property and proprietary technology by entering into agreements, including confidentiality agreements, non-disclosure agreements and intellectual property assignment agreements, with our employees, consultants, academic institutions, corporate partners and, when needed, our advisers. However, we cannot be certain that such agreements have been entered into with all relevant parties, and we cannot be certain that our trade secrets and other confidential proprietary information will not be disclosed or that competitors will not otherwise gain access to our trade secrets or independently develop substantially equivalent information and techniques. For example, any of these parties may breach the agreements and disclose our proprietary information, including our trade secrets, and we may not be able to obtain adequate remedies for such breaches. Such agreements may not be enforceable or may not provide meaningful protection for our trade secrets or other proprietary information in the event of unauthorized use or disclosure or other breaches of the agreements, and we may not be able to prevent such unauthorized disclosure, which could adversely impact our ability to establish or maintain a competitive advantage in the market. If we are required to assert our rights against such party, it could result in significant cost and distraction.
Monitoring unauthorized disclosure and detection of unauthorized disclosure is difficult, and we do not know whether the steps we have taken to prevent such disclosure are, or will be, adequate. If we were to enforce a claim that a third party had illegally obtained and was using our trade secrets, it would be expensive and time-consuming, and the outcome would be unpredictable. In addition, some courts both within and outside the United States and Canada may be less willing, or unwilling, to protect trade secrets.
We also seek to preserve the integrity and confidentiality of our confidential proprietary information by maintaining physical security of our premises and physical and electronic security of our information technology systems, but it is possible that these security measures could be breached. If any of our confidential proprietary information were to be lawfully obtained or independently developed by a competitor or other third party, absent patent protection, we would have no right to prevent such competitor from using that technology or information to compete with us, which could harm our competitive position. If any of our trade secrets were to be disclosed to or independently discovered by a competitor or other third party, it could harm our business, financial condition, results of operations and prospects.
We may be subject to claims that our employees, consultants or independent contractors have wrongfully used or disclosed confidential information of third parties or that our employees have wrongfully used or disclosed alleged trade secrets of their former employers.
We have employed and expect to employ individuals who were previously employed at universities or other companies. Although we try to ensure that our employees, consultants, advisors and independent contractors do not use the proprietary information or know-how of others in their work for us, we may be subject to claims that our employees, advisors, consultants or independent contractors have inadvertently or otherwise used or disclosed intellectual property, including trade secrets or other proprietary information of their former employers or other third parties, or to claims that we have improperly used or obtained such
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trade secrets. Litigation may be necessary to defend against these claims. If we fail in defending such claims, in addition to paying monetary damages, we may lose valuable intellectual property rights and face increased competition to our business. A loss of key research personnel work product could hamper or prevent our ability to commercialize potential technologies and solutions, which could harm our business. Even if we are successful in defending against these claims, litigation could result in substantial costs and be a distraction to management.
In addition, while it is our policy to require our employees and contractors who may be involved in the conception or development of intellectual property to execute agreements assigning such intellectual property to us, we may be unsuccessful in executing such an agreement with each party who, in fact, conceives or develops intellectual property that we regard as our own. The assignment of intellectual property rights may not be self-executing, or the assignment agreements may be breached, and we may be forced to bring claims against third parties, or defend claims that they may bring against us, to determine the ownership of what we regard as our intellectual property. Any of the foregoing could harm our business, financial condition, results of operations and prospects.
We may not be able to protect and enforce our trademarks and trade names, or build name recognition in our markets of interest thereby harming our competitive position.
The registered or unregistered trademarks or trade names that we own may be challenged, infringed, circumvented, declared generic, lapsed or determined to be infringing on or dilutive of other marks. We may not be able to protect our rights in these trademarks and trade names, which we need in order to build name recognition. In addition, third parties may in the future file for registration of trademarks similar or identical to our trademarks, thereby impeding our ability to build brand identity and possibly leading to market confusion. If they succeed in registering or developing common law rights in such trademarks, and if we are not successful in challenging such rights, we may not be able to use these trademarks to develop brand recognition of our technologies or platform. In addition, there could be potential trade name or trademark infringement claims brought by owners of other registered trademarks or trademarks that incorporate variations of our registered or unregistered trademarks or trade names. Further, we have and may in the future enter into agreements with owners of such third party trade names or trademarks to avoid potential trademark litigation which may limit our ability to use our trade names or trademarks in certain fields of business.
We have not yet registered certain of our trademarks in all of our potential markets, although we have registered AbCellera in the United States and Canada as well as certain of our trademarks outside of the United States and Canada. If we apply to register these trademarks in other countries, and/or other trademarks in the United States, Canada and other countries, our applications may not be allowed for registration in a timely fashion or at all; and further, our registered trademarks may not be maintained or enforced. In addition, opposition or cancellation proceedings may in the future be filed against our trademark applications and registrations, and our trademarks may not survive such proceedings. In addition, third parties may file first for our trademarks in certain countries. If they succeed in registering such trademarks, and if we are not successful in challenging such third party rights, we may not be able to use these trademarks to market our technologies in those countries. If we do not secure registrations for our trademarks, we may encounter more difficulty in enforcing them against third parties than we otherwise would. If we are unable to establish name recognition based on our trademarks and trade names, we may not be able to compete effectively, which could harm our business, financial condition, results of operations and prospects. And, over the long-term, if we are unable to establish name recognition based on our trademarks, then our marketing abilities may be materially adversely impacted.
We may be subject to claims challenging the inventorship of our patents and other intellectual property.
We or our licensors may be subject to claims that former employees, partners or other third parties have an interest in our owned or in-licensed patents, trade secrets or other intellectual property as an inventor or co-inventor. Litigation may be necessary to defend against these and other claims challenging inventorship of our or our licensors’ ownership of our owned or in-licensed patents, trade secrets or other intellectual property. If we or our licensors fail in defending any such claims, in addition to paying monetary damages, we may lose valuable intellectual property rights, such as exclusive ownership of, or right to use, intellectual property that is important to our systems, including our software, workflows, consumables and reagent kits. Even if we are successful in defending against such claims, litigation could result in substantial costs and be a distraction to management and other employees, and certain partners or partners may defer engaging with us until the particular dispute is resolved. Any of the foregoing could have a material adverse effect on our business, financial condition, results of operations and prospects.
We are and in the future may be involved in litigation and other proceedings related to intellectual property, which could be time-intensive and costly and may adversely affect our business, financial condition, results of operations and prospects.
In recent years, there has been significant litigation in the United States and other jurisdictions involving intellectual property rights. We are and may in the future be involved with litigation or actions at the USPTO or the patent offices of other jurisdictions with various third parties that claim we or our partners using our solutions have misappropriated, misused or infringed other parties’
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intellectual property rights. We expect that the number of such claims may increase as our business and the level of competition in our industry segments, grow. Any infringement claim, regardless of its validity, could harm our business by, among other things, resulting in time-consuming and costly litigation, diverting management’s time and attention from the development of the business, requiring the payment of monetary damages (including treble damages, attorneys’ fees, costs and expenses) or royalty payments, or result in potential or existing partners delaying purchases of our data packages or entering into engagements with us pending resolution of the dispute.
As we move into new markets and applications for our platform, incumbent participants in such markets may assert their patents and other proprietary rights against us as a means of slowing our entry into such markets or as a means to extract substantial license and royalty payments from us. Our competitors and others may now and, in the future, have significantly larger and more mature patent portfolios than we currently have. In addition, future litigation may involve patent holding companies or other adverse patent owners who have no relevant product or service revenue and against whom our own patents may provide little or no deterrence or protection. Therefore, our commercial success may depend in part upon our ability to develop, manufacture, market and sell any products and services that we may develop and use without infringing, misappropriating or otherwise violating the intellectual property and proprietary rights of third parties, or the invalidity of such patents or proprietary rights.
Our research, development and commercialization activities may in the future be subject to claims that we infringe or otherwise violate patents or other intellectual property rights owned or controlled by third parties. There is a substantial amount of litigation and other patent challenges, both within and outside the United States and Canada, involving patent and other intellectual property rights in the biotechnology industry, including patent infringement lawsuits, interferences, oppositions and inter partes review proceedings before the USPTO, and corresponding foreign patent offices. Third parties may initiate legal proceedings against us or our licensor, and we or our licensor may initiate legal proceedings against third parties. The outcome of such proceedings would be uncertain and could have a material adverse effect on the success of our business. Numerous U.S., Canadian and foreign issued patents and pending patent applications, which are owned by third parties, exist in the fields in which we are developing our platform and technology. As the biotechnology industry expands and more patents are issued, the risk increases that our technologies may be subject to claims of infringement of the patent rights of third parties.
Additionally, the risks of being involved in such litigation and proceedings may increase if our technology nears commercialization. Numerous significant intellectual property issues have been litigated, are being litigated and will likely continue to be litigated, between existing and new participants in our existing and targeted markets, and one or more third parties may assert that our technologies infringe their intellectual property rights as part of a business strategy to impede our successful entry into or growth in those markets.
The legal threshold for initiating litigation or contested proceedings is low, so that even lawsuits or proceedings with a low probability of success might be initiated and require significant resources to defend. An unfavorable outcome in any such proceeding could require us to cease using the related technology or developing or commercializing our technology, or to attempt to license rights to it from the prevailing party, which may not be available on commercially reasonable terms, or at all.
Third parties may assert that we are employing their proprietary technology without authorization. We are also aware of issued U.S. patents and patent applications with subject matter related to our platform, systems, workflows and processes, and there may be other related third party patents or patent applications of which we are not aware.
It is possible that we are or may become aware of patents or pending patent applications that we think do not relate to our technology or that we believe are invalid or unenforceable, but that may nevertheless be interpreted to encompass our technology and to be valid and enforceable. Thus, we do not know with certainty that our technology, or our development and commercialization thereof, do not and will not infringe, misappropriate or otherwise violate any third party’s intellectual property.
In addition, we may receive in the future, correspondence from third parties referring to the relevance of such third parties’ intellectual property to our technology, our workflows or our advanced automated systems, and we are currently engaged in litigation with one such third party, Berkeley Lights. Because patent applications can take many years to issue, there may be currently pending patent applications which may later result in issued patents that our current or future programs or technologies may infringe. In addition, similar to what other companies in our industry have experienced, we expect our competitors and others may have patents or may in the future obtain patents and claim that making, having made, using, selling, offering to sell or importing our platform, or the systems, workflows, consumables and reagent kits that comprise our platform, infringes these patents. As to pending third party applications, we cannot predict with any certainty which claims will issue, if any, or the scope of such issued claims. Additionally, pending patent applications that have been published can, subject to certain limitations, be later amended in a manner that could cover our platforms, including our systems, workflows, consumables and reagent kits. Under the applicable law of certain jurisdictions, the scope of a patent claim is determined by an interpretation of the law, the written disclosure in a patent and the patent’s prosecution history. Our interpretation of the relevance or the scope of a patent or a pending application may be incorrect, which may negatively
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impact our ability to market our technologies. We may incorrectly determine that our technologies are not covered by a third party patent or may incorrectly predict whether a third party’s pending application will issue with claims of relevant scope. Our determination of the expiration date of any patent in the United States or abroad that we consider relevant may be incorrect, which may negatively impact our ability to develop and market our technologies.
There can be no assurance that we will prevail in any suit initiated against us by third parties, successfully settle or otherwise resolve patent infringement claims. A court of competent jurisdiction could hold that third party patents are valid, enforceable and infringed, which could materially and adversely affect our ability and the ability of our licensor to commercialize any technology we may develop and any other technologies covered by the asserted third-party patents. Third parties making claims against us may be able to obtain injunctive or other relief, which could block our ability to develop, commercialize and sell data packages, and could result in the award of substantial damages against us, including treble damages, attorney’s fees, costs and expenses if we are found to have willfully infringed. In the event of a successful claim of infringement against us, we may be required to pay damages and ongoing royalties, and obtain one or more licenses from third parties, or be prohibited from selling certain products or services. We may not be able to obtain these licenses on acceptable or commercially reasonable terms, if at all, or these licenses may be non-exclusive, which could result in our competitors and other third parties gaining access to the same intellectual property. In addition, we could encounter delays and incur significant costs in service introductions while we attempt to develop alternative processes, technologies or services, or redesign our technologies or services, to avoid infringing third party patents or proprietary rights. Defense of any lawsuit or failure to obtain any of these licenses or to develop a workaround could prevent us from commercializing products or services, and the prohibition of sale or the threat of the prohibition of sale of any of our data packages could materially affect our business and our ability to gain market acceptance for our technologies. Furthermore, because of the substantial amount of discovery required in connection with intellectual property litigation or administrative proceedings, there is a risk that some of our confidential information could be compromised by disclosure.
In addition, our agreements with some of our partners, suppliers or other entities with whom we do business require us to defend or indemnify these parties to the extent they become involved in infringement claims, including the types of claims described above. We could also voluntarily agree to defend or indemnify third parties in instances where we are not obligated to do so if we determine it would be important to our business relationships. If we are required or agree to defend or indemnify third parties in connection with any infringement claims, we could incur significant costs and expenses that could adversely affect our business, financial condition, results of operations and prospects.
Any uncertainties resulting from the initiation and continuation of any litigation or administrative proceeding could have a material adverse effect on our ability to raise additional funds or otherwise have a material adverse effect on our business, results of operations, financial condition and prospects.
The outcome of our litigation with Berkeley Lights may adversely affect our business, financial condition, results of operations and prospects.
In July 2020, we filed a complaint against Berkeley Lights, in the United States District Court for the District of Delaware, alleging that Berkeley Lights infringed and continues to infringe, directly and indirectly, the following patents exclusively licensed by the Company, including U.S. Patent Nos. 10,107,812; 10,274,494; 10,466,241; 10,578,618; 10,697,962; 10,087,408; 10,421,936 and 10,704,018, by making, using, offering for sale, selling and/or importing Berkeley Lights’ Beacon Optofluidic System. In August 2020, we filed an additional related complaint against Berkeley Lights in the United States District Court for the District of Delaware, alleging that Berkeley Lights infringed and continues to infringe, directly and indirectly, U.S. Patent Nos. 10,718,768; 10,738,270; 10,746,737 and 10,753,933. In September 2020, we filed another complaint against Berkeley Lights in the United States District Court for the District of Delaware, alleging that Berkeley Lights infringed and continues to infringe, directly and indirectly, U.S. Patent Nos. 10,775,376; 10,775,377 and 10,775,378. On December 3, 2020, the judge assigned to these three lawsuits ordered that they be transferred to the U.S. District Court for the Northern District of California. In these lawsuits, we are seeking, among other things, a judgment of infringement, a permanent injunction and damages (including lost profits, a reasonable royalty, reasonable costs and attorney’s fees and treble damages for willful infringement). In February 2021, these lawsuits were consolidated and assigned to the Honorable Judge Lucy Koh. In February 2021, Berkley Lights filed a motion seeking leave to amend its counterclaims to add the allegations of unfair competition (as plead in the case described below) against AbCellera only. The Company is opposing the request to amend and should the court allow the amendment, we intend to seek dismissal of the counterclaims. In March 2021, the court set this matter down for a jury trial with a December 12, 2022 start date. These lawsuits remain pending.
In August 2020, Berkeley Lights filed a complaint in the Northern District of California against us and our wholly-owned subsidiary Lineage Inc. The complaint includes two counts of unfair competition and one count of non-infringement of a U.S. patent: Patent No. 10,058,839 (the “’839 patent”). Berkeley Lights is seeking, among other things, damages and a declaratory judgment of non-infringement of the ’839 patent. We filed a motion to dismiss the action for lack of jurisdiction and failure to state a claim upon which relief can be granted pursuant to Federal Rules of Civil Procedure 12(b) 1, 2, and 6. In January 2021, the Court determined that
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there was no jurisdiction over AbCellera or Lineage and dismissed the unfair competition claims but ordered jurisdictional discovery on a limited basis with respect to AbCellera only regarding Berkley Lights’ request for declaratory judgment on the ‘839 patent. The lawsuit remains pending.
In the event that Berkeley Lights were to prevail in the litigation against us, as a result of which Berkeley Lights could continue to sell its products, it could reduce our competitive advantage and differentiation in the market place, impairing our ability to bring in new business. Furthermore, Berkeley Lights may seek to invalidate the asserted patents during the litigation. If Berkeley Lights succeeds in invalidating the asserted patents, the strength of our intellectual property portfolio could be adversely affected and our ability to protect our technology, business and reputation or to generate licensing revenue from our intellectual property would be adversely impacted.
Intellectual property litigation could cause us to spend substantial resources and distract our personnel from their normal responsibilities.
Litigation or other legal proceedings relating to intellectual property claims, even if resolved in our favor, may cause us to incur substantial costs and divert the attention of our management and technical personnel from their normal responsibilities in defending against any of these claims. Parties making claims against us may be able to sustain the costs of complex patent litigation more effectively than we can because they have substantially greater resources. Such litigation or proceedings could substantially increase our operating costs and reduce the resources available for development activities or any future sales, marketing, or distribution activities. We may not have sufficient financial or other resources to conduct such litigation or proceedings adequately. Some of our competitors may be able to sustain the costs of such litigation or proceedings more effectively than we can because of their greater financial resources and more mature and developed intellectual property portfolios. Uncertainties resulting from the initiation and continuation of intellectual property proceedings could harm our ability to compete in the marketplace. In addition, because of the substantial amount of discovery required in connection with intellectual property litigation, there is a risk that some of our confidential information could be compromised by disclosure during this type of litigation. Any of the foregoing could harm our business, financial condition, results of operations and prospects.
We may become involved in lawsuits to protect or enforce our intellectual property, which could be expensive, time consuming and unsuccessful and have a material adverse effect on the success of our business.
Third parties, including our competitors, could be infringing, misappropriating or otherwise violating our intellectual property rights. Monitoring unauthorized use of our intellectual property is difficult and costly. From time to time, we seek to analyze our competitors’ products and services, and may in the future seek to enforce our rights against potential infringement, misappropriation or violation of our intellectual property. However, the steps we have taken to protect our proprietary rights may not be adequate to enforce our rights as against such infringement, misappropriation or violation of our intellectual property. We may not be able to detect unauthorized use of, or take appropriate steps to enforce, our intellectual property rights. Any inability to meaningfully enforce our intellectual property rights could harm our ability to compete and reduce demand for our data packages.
Litigation may be necessary for us to enforce our patent and proprietary rights or to determine the scope, coverage and validity of the proprietary rights of others. We are currently engaged in a lawsuit with Berkeley Lights based upon our allegations of its infringement of our intellectual property rights and we may become involved in additional lawsuits in the future. If we do not prevail in such legal proceedings, we may be required to pay damages, we may lose significant intellectual property protection for our technologies, such that competitors could copy our technologies and we could be forced to cease selling certain of our data packages. Any litigation that may be necessary in the future could result in substantial costs and diversion of resources and could have a material adverse effect on our business, financial condition, results of operations and prospects. In any lawsuit we bring to enforce our intellectual property rights, a court may refuse to stop the other party from using the technology at issue on grounds that our intellectual property rights do not cover the technology in question. Further, in such proceedings, the defendant could counterclaim that our intellectual property is invalid or unenforceable and the court may agree, in which case we could lose valuable intellectual property rights. The outcome in any such lawsuits are unpredictable. Even if we do prevail in any future litigation related to intellectual property rights, the cost and time requirements of the litigation could negatively impact our financial results.
Obtaining and maintaining our patent protection depends on compliance with various required procedures, document submissions, fee payments and other requirements imposed by governmental patent agencies, and our patent protection could be reduced or eliminated for non-compliance with these requirements.
Periodic maintenance fees, renewal fees, annuity fees and various other governmental fees on issued United States and most foreign patents and/or applications will be due to be paid to the USPTO and various governmental patent agencies outside of the United States at several stages over the lifetime of the patents and/or applications in order to maintain such patents and patent applications. We have systems in place to remind us to pay these fees, and we engage an outside service and rely on our outside
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counsel to pay these fees due to non-U.S. patent agencies. The USPTO and various non-U.S. governmental patent agencies require compliance with a number of procedural, documentary, fee payment and other similar provisions during the patent application process. We employ reputable law firms and other professionals to help us comply, and in many cases, an inadvertent lapse can be cured by payment of a late fee or by other means in accordance with the applicable rules. However, there are situations in which non-compliance can result in abandonment or lapse of the patent or patent application, resulting in partial or complete loss of patent rights in the relevant jurisdiction. Non-compliance events that could result in abandonment or lapse of a patent or patent application include failure to respond to official actions within prescribed time limits, non-payment of fees and failure to properly legalize and submit formal documents. In such an event, if we or our licensors fail to maintain the patents and patent applications covering our products and technology our competitors may be able to enter the market with similar or identical products or technology without infringing our patents and this circumstance would have a material adverse effect on our business.
Patent terms may be inadequate to protect our competitive position on our technology for an adequate amount of time.
Patents have a limited lifespan. In the United States, if all maintenance fees are timely paid, the natural expiration of a patent is generally 20 years from its earliest U.S. non-provisional filing date. Various extensions may be available, but the life of a patent, and the protection it affords, is limited. Even if patents covering our platform or technology are obtained, once the patent life has expired, we may be open to competition from others. If our platform or technologies require extended development and/or regulatory review, patents protecting our platform or technologies might expire before or shortly after we are able to successfully commercialize them. As a result, our owned and licensed patent portfolio may not provide us with sufficient rights to exclude others from commercializing processes or technologies similar or identical to ours.
Our use of open source software could compromise our ability to offer our data packages and subject us to possible litigation.
We use open source software in connection with our technology and computational engine of our platform, Celium. Companies that incorporate open source software into their technologies and services have, from time to time, faced claims challenging their use of open source software and compliance with open source license terms. As a result, we could be subject to lawsuits by parties claiming ownership of what we believe to be open source software or claiming noncompliance with open source licensing terms. Some open source software licenses require users who distribute software containing open source software to publicly disclose all or part of the source code to the licensee’s software that incorporates, links or uses such open source software, and make available to third parties for no cost, any derivative works of the open source code created by the licensee, which could include the licensee’s own valuable proprietary code. While we monitor our use of open source software and try to ensure that none is used in a manner that would require us to disclose our proprietary source code or that would otherwise breach the terms of an open source agreement, such use could inadvertently occur, or could be claimed to have occurred, in part because open source license terms are often ambiguous. There is little legal precedent in this area and any actual or claimed requirement to disclose our proprietary source code or pay damages for breach of contract could harm our business and could help third parties, including our competitors, develop technologies that are similar to or better than ours. Any of the foregoing could harm our business, financial condition, results of operations and prospects.
Some intellectual property that we have in-licensed may have been discovered through government funded programs and thus may be subject to federal regulations such as “march-in” rights, certain reporting requirements and a preference for U.S.-based companies. Compliance with such regulations may limit our exclusive rights, and limit our ability to contract with non-U.S. manufacturers.
Some of our intellectual property rights may have been generated through the use of U.S. government funding and are therefore subject to certain federal regulations. As a result, the U.S. government may have certain rights to intellectual property embodied in our technology pursuant to the Bayh-Dole Act of 1980, or Bayh-Dole Act, and implementing regulations. These U.S. government rights in certain inventions developed under a government-funded program include a non-exclusive, non-transferable, irrevocable worldwide license to use inventions for any governmental purpose. In addition, the U.S. government has the right to require us or our licensors to grant exclusive, partially exclusive, or non-exclusive licenses to any of these inventions to a third party if it determines that: (i) adequate steps have not been taken to commercialize the invention; (ii) government action is necessary to meet public health or safety needs; or (iii) government action is necessary to meet requirements for public use under federal regulations (also referred to as “march-in rights”). The U.S. government also has the right to take title to these inventions if we, or the applicable licensor, fail to disclose the invention to the government and fail to file an application to register the intellectual property within specified time limits. These time limits have recently been changed by regulation, and may change in the future. Intellectual property generated under a government funded program is also subject to certain reporting requirements, compliance with which may require us or the applicable licensor to expend substantial resources. To date, only our work in helping develop bamlanivimab may be subject to government funding or “march-in” rights. In addition, the U.S. government requires that any products embodying the subject invention or produced through the use of the subject invention be manufactured substantially in the United States. The manufacturing preference requirement can be waived if the owner of the intellectual property can show that reasonable but unsuccessful efforts have been made
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to grant licenses on similar terms to potential licensees that would be likely to manufacture substantially in the United States or that under the circumstances domestic manufacture is not commercially feasible. This preference for U.S. manufacturers may limit our ability to contract with non-U.S. product manufacturers for products covered by such intellectual property. To the extent any of our future intellectual property is generated through the use of U.S. government funding, the provisions of the Bayh-Dole Act may similarly apply.
Risks Related to Ownership of Our Common Shares
If we fail to establish and maintain proper and effective internal control over financial reporting, our operating results and our ability to operate our business could be harmed.
Ensuring that we have effective internal financial and accounting controls and procedures in place so that we can produce financial statements that are, in all material respects, in conformity with accounting principles generally accepted in the United States of America, on a timely basis is a costly and time-consuming effort that needs to be re-evaluated annually. Our internal control over financial reporting is a process designed to provide reasonable assurance regarding the reliability of financial reporting and the preparation of financial statements in accordance with generally accepted accounting principles. In connection with our initial public offering, or IPO, we began the process of documenting, and reviewing and improving our internal controls and procedures for compliance with Section 404 of the Sarbanes-Oxley Act of 2002, as amended, or the Sarbanes-Oxley Act, which require annual management assessment of the effectiveness of our internal control over financial reporting.
Implementing any appropriate changes to our internal controls may distract our officers and employees, entail substantial costs to modify our existing processes, and take significant time to complete. These changes may not, however, be effective in maintaining the adequacy of our internal controls, and any failure to maintain that adequacy, or consequent inability to produce accurate financial statements on a timely basis, could increase our operating costs and harm our business. In our efforts to maintain proper and effective internal control over financial reporting, we may discover significant deficiencies or material weaknesses in our internal control over financial reporting, which we may not successfully remediate on a timely basis or at all. Any failure to remediate any significant deficiencies or material weaknesses identified by us or to implement required new or improved controls, or difficulties encountered in their implementation, could cause us to fail to meet our reporting obligations or result in material misstatements in our financial statements. If we identify one or more material weaknesses in the future, it could result in an adverse reaction in the financial markets due to a loss of confidence in the reliability of our financial statements, which may harm the market price of our shares.
In connection with the audit of our financial statements as of and for the years ended December 31, 2018 and 2019, a material weakness in our internal control over financial reporting was identified and we may identify additional material weaknesses in the future.
In connection with the preparation and audits of our financial statements as of and for the years ended December 31, 2018 and 2019, a material weakness (as defined under the Exchange Act and by the auditing standards of the U.S. Public Company Accounting Oversight Board, or “PCAOB”), was identified in our internal control over financial reporting. A material weakness is a deficiency, or a combination of deficiencies, in internal control over financial reporting, such that there is a reasonable possibility that a material misstatement of our annual financial statements will not be prevented or detected on a timely basis.
Specifically, there was a material adjustment in our financial statements required due to an overstatement of lease liability upon adoption of ASU 2016-02, Leases (Topic 842), as well as certain other adjustments. In the aggregate, such adjustments amounted to a material weakness. The material weakness resulted from a lack of resources and experience within our finance function with respect to our transition to U.S. GAAP, and our change in measurement currency from Canadian dollars to U.S. dollars. The material weakness has not been remediated as of December 31, 2020. There were no material adjustments required in the 2020 annual consolidated financial statements due to this material weakness.
Neither our management nor our independent registered public accounting firm has performed an evaluation of our internal control over financial reporting in accordance with the provision of the Sarbanes-Oxley Act because no such evaluation has been required. Had we or our independent registered public accounting firm performed an evaluation of our internal control over financial reporting in accordance with the provisions of the Sarbanes-Oxley Act, additional material weaknesses may have been identified.
We have begun taking significant measures, and plan to continue to take measures, to remediate this material weakness. These measures include hiring and engaging additional accounting personnel with familiarity with reporting under U.S. GAAP, and implementing and adopting additional controls and procedures. However, the implementation of these measures may not fully address this material weakness in our internal control over financial reporting, and, if so, we would not be able to conclude that they have been fully remedied. If we are unable to successfully remediate our existing or any future material weaknesses in our internal control over financial reporting, or if we identify any additional material weaknesses, the accuracy and timing of our financial reporting may be
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adversely affected, we may be unable to maintain compliance with securities law requirements regarding timely filing of periodic reports in addition to applicable stock exchange listing requirements, investors may lose confidence in our financial reporting, and our share price may decline as a result. We also could become subject to investigations by Nasdaq, the SEC, or other regulatory authorities.
Future sales and issuances of our common shares or rights to purchase common shares, including pursuant to our Employee Share Option and Incentive Plan, or EIP, could result in additional dilution of the percentage ownership of our shareholders and could cause our share price to fall.
We expect that significant additional capital will be needed in the future to continue our planned operations, including expanded research and development activities, and costs associated with operating as a public company. To raise capital, we may sell common shares, convertible securities or other equity securities in one or more transactions at prices and in a manner we determine from time to time. If we sell common shares, convertible securities or other equity securities, investors may be materially diluted by subsequent sales. Such sales may also result in material dilution to our existing shareholders, and new investors could gain rights, preferences, and privileges senior to the holders of our common shares, including common shares sold in our IPO.
Pursuant to our incentive plan, that we adopted in connection with our IPO, our management is authorized to grant stock options to our employees, directors and consultants.
Initially, the aggregate number of our common shares that may be issued pursuant to share awards under the EIP was 21,280,000 shares. The number of common shares reserved for issuance under the EIP shall be cumulatively increased on January 1, 2022 and each January 1 thereafter by 5% of the total number of common shares outstanding on December 31 of the preceding calendar year or a lesser number of shares determined by our board of directors. Unless our board of directors elects not to increase the number of shares available for future grant each year, our shareholders may experience additional dilution, which could cause our share price to fall.
Raising additional capital may cause dilution to our existing shareholders, restrict our operations or require us to relinquish rights to our technologies.
We may seek additional capital through a combination of public and private equity offerings, debt financings, strategic partnerships and alliances and licensing arrangements. To the extent that we raise additional capital through the sale of equity or convertible debt securities, your ownership interest will be diluted, and the terms may include liquidation or other preferences that adversely affect your rights as a shareholder. The incurrence of indebtedness would result in increased fixed payment obligations and could involve certain restrictive covenants, such as limitations on our ability to incur additional debt, limitations on our ability to acquire or license intellectual property rights and other operating restrictions that could adversely impact our ability to conduct our business. If we raise additional funds through strategic partnerships and alliances and licensing arrangements with third parties, we may have to relinquish valuable rights to our technologies or grant licenses on terms unfavorable to us.
We do not intend to pay dividends on our common shares, so any returns will be limited to the value of our common shares.
We currently anticipate that we will retain future earnings for the development, operation, expansion and continued investment into our business and do not anticipate declaring or paying any cash dividends for the foreseeable future. In addition, we may enter into agreements that prohibit us from paying cash dividends without prior written consent from our contracting parties, or which other terms prohibiting or limiting the amount of dividends that may be declared or paid on our common shares. Any return to shareholders will therefore be limited to the appreciation of their common shares, which may never occur.
Our principal shareholders and management own a significant percentage of our shares and will be able to exert significant influence over matters subject to shareholder approval.
Our executive officers, directors, and 5% shareholders beneficially currently own approximately 46% of our common shares. Therefore, these shareholders have the ability to influence us through this ownership position. These shareholders may be able to determine all matters requiring shareholder approval. For example, these shareholders may be able to control elections of directors, amendments of our organizational documents or approval of any merger, sale of assets or other major corporate transaction. This may prevent or discourage unsolicited acquisition proposals or offers for our common shares that you may feel are in your best interest as one of our shareholders.
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Sales of a substantial number of our common shares by our existing shareholders in the public market could cause our share price to fall.
If our existing shareholders sell, or indicate an intention to sell, substantial amounts of our common shares in the public market after the lock-up and other legal restrictions on resale imposed during our IPO lapse, the trading price of our common shares could decline. Based on the number of common shares outstanding as of December 31, 2020, we have outstanding a total of 269,497,768 common shares. In connection with our IPO, our officers, directors and substantially all of our securityholders agreed to be subject to a contractual lock-up with the underwriters, which will expire 180 days after the date of the final prospectus used in our IPO. Credit Suisse Securities (USA) LLC, Stifel, Nicolaus & Company, Incorporated, Berenberg Capital Markets LLC, SVB Leerink LLC and BMO Capital Markets Corp., however, may, in their sole discretion, permit our officers, directors and other shareholders who are subject to these lock-up agreements to sell shares prior to the expiration of the lock-up agreements.
Common shares that are either subject to outstanding options reserved for future issuance under our EIP that we adopted in connection with our IPO, will become eligible for sale in the public market to the extent permitted by the provisions of various vesting schedules, the lock-up agreements and Rule 144 and Rule 701 under the Securities Act of 1933, as amended, or the Securities Act. Additionally, common shares that are issuable upon the exercise of share options will become eligible for sale in the public market to the extent permitted by the lock-up agreements and Rule 144 and Rule 701 under the Securities Act. If these additional common shares are sold, or if it is perceived that they will be sold, in the public market, the trading price of our common shares could decline.
We are governed by the corporate laws of Canada which in some cases have a different effect on shareholders than the corporate laws of the United States.
We are governed by the Business Corporations Act (British Columbia), or BCBCA, and other relevant laws, which may affect the rights of shareholders differently than those of a company governed by the laws of a U.S. jurisdiction, and may, together with our charter documents, have the effect of delaying, deferring or discouraging another party from acquiring control of our company by means of a tender offer, a proxy contest or otherwise, or may affect the price an acquiring party would be willing to offer in such an instance. The material differences between the BCBCA and Delaware General Corporation Law, or DGCL, that may have the greatest such effect include, but are not limited to, the following: (i) for certain corporate transactions (such as mergers and amalgamations or amendments to our articles) the BCBCA generally requires the voting threshold to be a special resolution approved by 66 2/3% of shareholders, or as set out in the articles, as applicable, whereas DGCL generally only requires a majority vote; and (ii) under the BCBCA a holder of 5% or more of our common shares can requisition a special meeting of shareholders, whereas such right does not exist under the DGCL. We cannot predict whether investors will find our company and our common shares less attractive because we are governed by foreign laws.
Our articles and certain Canadian legislation contain provisions that may have the effect of delaying, preventing or making undesirable an acquisition of all or a significant portion of our shares or assets or preventing a change in control.
Certain provisions of our articles and certain provisions under the BCBCA, together or separately, could discourage, delay or prevent a merger, acquisition or other change in control of us that shareholders may consider favorable, including transactions in which they might otherwise receive a premium for their common shares. These provisions include the establishment of a staggered board of directors, which divides the board into three groups, with directors in each group serving a three-year term. The existence of a staggered board can make it more difficult for shareholders to replace or remove incumbent members of our board of directors. As such, these provisions could also limit the price that investors might be willing to pay in the future for our common shares, thereby depressing the market price of our common shares. In addition, because our board of directors is responsible for appointing the members of our management team, these provisions may frustrate or prevent any attempts by our shareholders to replace or remove our current management by making it more difficult for shareholders to replace members of our board of directors. Among other things, these provisions include the following:
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shareholders cannot amend our articles unless such amendment is approved by shareholders holding at least 66 2/3% of the shares entitled to vote on such approval;
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our board of directors may, without shareholder approval, issue preferred shares in one or more series having any terms, conditions, rights, preferences and privileges as the board of directors may determine; and
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shareholders must give advance notice to nominate directors or to submit proposals for consideration at shareholders’ meetings.
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A non-Canadian must file an application for review with the Minister responsible for the Investment Canada Act and obtain approval of the Minister prior to acquiring control of a “Canadian business” within the meaning of the Investment Canada Act, where prescribed financial thresholds are exceeded. A reviewable acquisition may not proceed unless the Minister is satisfied that the investment is likely to be of net benefit to Canada. If the applicable financial thresholds were exceeded such that a net benefit to
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Canada review would be required, this could prevent or delay a change of control and may eliminate or limit strategic opportunities for shareholders to sell their common shares. Furthermore, limitations on the ability to acquire and hold our common shares may be imposed by the Competition Act (Canada). This legislation has a pre-merger notification regime and mandatory waiting period that applies to certain types of transactions that meet specified financial thresholds, and permits the Commissioner of Competition to review any acquisition or establishment, directly or indirectly, including through the acquisition of shares, of control over or of a significant interest in us.
Our articles designate specific courts in Canada and the United States as the exclusive forum for certain litigation that may be initiated by our shareholders, which could limit our shareholders’ ability to obtain a favorable judicial forum for disputes with us.
Pursuant to our articles, unless we consent in writing to the selection of an alternative forum, the courts of the Province of British Columbia and the appellate courts therefrom shall, to the fullest extent permitted by law, be the sole and exclusive forum for: (a) any derivative action or proceeding brought on our behalf; (b) any action or proceeding asserting a claim of breach of fiduciary duty owed by any director, officer or other employee of ours to us; (c) any action or proceeding asserting a claim arising out of any provision of the BCBCA or our articles (as either may be amended from time to time); or (d) any action or proceeding asserting a claim or otherwise related to our affairs, or the Canadian Forum Provision. The Canadian Forum Provision will not apply to any causes of action arising under the Securities Act or the Exchange Act. In addition, our articles further provide that unless we consent in writing to the selection of an alternative forum, the United States District Court for the District of Delaware shall be the sole and exclusive forum for resolving any complaint filed in the United States asserting a cause of action arising under the Securities Act, or the U.S. Federal Forum Provision. In addition, our articles provide that any person or entity purchasing or otherwise acquiring any interest in our common shares is deemed to have notice of and consented to the Canadian Forum Provision and the U.S. Federal Forum Provision; provided, however, that shareholders cannot and will not be deemed to have waived our compliance with the U.S. federal securities laws and the rules and regulations thereunder.
The Canadian Forum Provision and the U.S. Federal Forum Provision in our articles may impose additional litigation costs on shareholders in pursuing any such claims. Additionally, the forum selection clauses in our amended articles may limit our shareholders’ ability to bring a claim in a judicial forum that they find favorable for disputes with us or our directors, officers or employees, which may discourage the filing of lawsuits against us and our directors, officers and employees, even though an action, if successful, might benefit our shareholders. In addition, while the Delaware Supreme Court ruled in March 2020 that federal forum selection provisions purporting to require claims under the Securities Act be brought in federal court are “facially valid” under Delaware law, there is uncertainty as to whether other courts, including courts in Canada and other courts within the U.S., will enforce our U.S. Federal Forum Provision. If the U.S. Federal Forum Provision is found to be unenforceable, we may incur additional costs associated with resolving such matters. The U.S. Federal Forum Provision may also impose additional litigation costs on shareholders who assert that the provision is not enforceable or invalid. The courts of the Province of British Columbia and the United States District Court for the District of Delaware may also reach different judgments or results than would other courts, including courts where a shareholder considering an action may be located or would otherwise choose to bring the action, and such judgments may be more or less favorable to us than our shareholders.
Because we are a Canadian company, it may be difficult to serve legal process or enforce judgments against us.
We are incorporated and maintain operations in Canada. In addition, while certain of our directors and officers reside in the United States, many of them reside outside of the United States. Accordingly, service of process upon us may be difficult to obtain within the United States. Furthermore, because substantially all of our assets are located outside the United States, any judgment obtained in the United States against us, including one predicated on the civil liability provisions of the U.S. federal securities laws, may not be collectible within the United States. Therefore, it may not be possible to enforce those actions against us.
In addition, it may be difficult to assert U.S. securities law claims in original actions instituted in Canada. Canadian courts may refuse to hear a claim based on an alleged violation of U.S. securities laws against us or these persons on the grounds that Canada is not the most appropriate forum in which to bring such a claim. Even if a Canadian court agrees to hear a claim, it may determine that Canadian law and not U.S. law is applicable to the claim. If U.S. law is found to be applicable, the content of applicable U.S. law must be proved as a fact, which can be a time-consuming and costly process. Certain matters of procedure will also be governed by Canadian law. Furthermore, it may not be possible to subject foreign persons or entities to the jurisdiction of the courts in Canada. Similarly, to the extent that our assets are located in Canada, investors may have difficulty collecting from us any judgments obtained in the U.S. courts and predicated on the civil liability provisions of U.S. securities provisions.
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If our estimates or judgments relating to our critical accounting policies prove to be incorrect or financial reporting standards or interpretations change, our results of operations could be adversely affected.
The preparation of financial statements in conformity with generally accepted accounting principles in the United States, or U.S. GAAP, requires management to make estimates and assumptions that affect the amounts reported in the consolidated financial statements and accompanying notes. We base our estimates on historical experience, known trends and events, and various other factors that we believe to be reasonable under the circumstances, as provided in “Management’s Discussion and Analysis of Financial Condition and Results of Operations—Critical Accounting Policies and Estimates.” The results of these estimates form the basis for making judgments about the carrying values of assets and liabilities that are not readily apparent from other sources. Significant assumptions and estimates used in preparing our consolidated financial statements include the estimated variable consideration included in the transaction price in our contracts with customers, stock-based compensation, and valuation of our equity investments in early-stage biotechnology companies. Our results of operations may be adversely affected if our assumptions change or if actual circumstances differ from those in our assumptions, which could cause our results of operations to fall below the expectations of securities analysts and investors, resulting in a decline in the trading price of our common shares.
Additionally, we regularly monitor our compliance with applicable financial reporting standards and review new pronouncements and drafts thereof that are relevant to us. As a result of new standards, changes to existing standards and changes in their interpretation, we might be required to change our accounting policies, alter our operational policies, and implement new or enhance existing systems so that they reflect new or amended financial reporting standards, or we may be required to restate our published financial statements. Such changes to existing standards or changes in their interpretation may have an adverse effect on our reputation, business, financial position, and profit.
Our disclosure controls and procedures may not prevent or detect all errors or acts of fraud.
We are subject to certain reporting requirements of the Exchange Act. Our disclosure controls and procedures are designed to reasonably assure that information required to be disclosed by us in reports we file or submit under the Exchange Act is accumulated and communicated to management, recorded, processed, summarized, and reported within the time periods specified in the rules and forms of the SEC. We believe that any disclosure controls and procedures or internal controls and procedures, no matter how well conceived and operated, can provide only reasonable, not absolute, assurance that the objectives of the control system are met. These inherent limitations include the realities that judgments in decision-making can be faulty, and that breakdowns can occur because of simple error or mistake. Additionally, controls can be circumvented by the individual acts of some persons, by collusion of two or more people or by an unauthorized override of the controls. Accordingly, because of the inherent limitations in our control system, misstatements or insufficient disclosures due to error or fraud may occur and not be detected.
If we or our non-U.S. subsidiary is a CFC there could be materially adverse U.S. federal income tax consequences to certain U.S. Holders of our common shares.
Each “Ten Percent Shareholder” (as defined below) in a non-U.S. corporation that is classified as a controlled foreign corporation, or a CFC, for U.S. federal income tax purposes generally is required to include in income for U.S. federal tax purposes such Ten Percent Shareholder’s pro rata share of the CFC’s “Subpart F income,” global intangible low taxed income, and investment of earnings in U.S. property, even if the CFC has made no distributions to its shareholders. Subpart F income generally includes dividends, interest, rents, royalties, gains from the sale of securities and income from certain transactions with related parties. In addition, a Ten Percent Shareholder that realizes gain from the sale or exchange of shares in a CFC may be required to classify a portion of such gain as dividend income rather than capital gain. An individual that is a Ten Percent Shareholder with respect to a CFC generally would not be allowed certain tax deductions or foreign tax credits that would be allowed to a Ten Percent Shareholder that is a U.S. corporation. Failure to comply with these reporting obligations may subject a Ten Percent Shareholder to significant monetary penalties and may prevent the statute of limitations with respect to such Ten Percent Shareholder’s U.S. federal income tax return for the year for which reporting was due from starting.
A non-U.S. corporation generally will be classified as a CFC for U.S. federal income tax purposes if Ten Percent Shareholders own, directly or indirectly, more than 50% of either the total combined voting power of all classes of stock of such corporation entitled to vote or of the total value of the stock of such corporation. A “Ten Percent Shareholder” is a United States person (as defined by the Code) who owns or is considered to own 10% or more of the total combined voting power of all classes of stock entitled to vote or 10% or more of the total value of all classes of stock of such corporation.
The determination of CFC status is complex and includes attribution rules, the application of which is not entirely certain. In addition, recent changes to the attribution rules relating to the determination of CFC status may make it difficult to determine our CFC status for any taxable year. In addition, those changes to the attribution rules may result in ownership of the stock of our non-U.S. subsidiary being attributed to our U.S. subsidiary, which could result in our non-U.S. subsidiary being treated as a CFC and certain
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U.S. Holders of our common shares being treated as Ten Percent Shareholders of such non-U.S. subsidiary CFC. In addition, it is possible that a shareholder treated as a U.S. person for U.S. federal income tax purposes will acquire, directly or indirectly, enough of our common shares to be treated as a Ten Percent Shareholder. We believe that we and our non-U.S. subsidiary will not be treated as CFCs in the 2020 taxable year. It is unclear whether we would be treated as a CFC in a subsequent taxable year. We cannot provide any assurances that we will assist holders of our common shares in determining whether we or any of our non-U.S. subsidiaries are treated as a CFC or whether any holder of the common shares is treated as a Ten Percent Shareholder with respect to any such CFC or furnish to any Ten Percent Shareholders information that may be necessary to comply with the aforementioned reporting and tax paying obligations.
U.S. Holders should consult their tax advisors with respect to the potential adverse U.S. tax consequences of becoming a Ten Percent Shareholder in a CFC, including the possibility and consequences of becoming a Ten Percent Shareholder in our non-U.S. subsidiary that may be treated as a CFC due to the changes to the attribution rules. If we are classified as both a CFC and a PFIC (as defined below), we generally will not be treated as a PFIC with respect to those U.S. Holders that meet the definition of a Ten Percent Shareholder during the period in which we are a CFC. A “U.S. Holder” is a holder who, for U.S. federal income tax purposes, is a beneficial owner of our common shares and is (i) an individual who is a citizen or resident of the United States, (ii) a corporation, or other entity taxable as a corporation, created or organized in or under the laws of the United States, any state therein or the District of Columbia, (iii) an estate the income of which is subject to U.S. federal income taxation regardless of its source or (iv) a trust if (1) a U.S. court is able to exercise primary supervision over the administration of the trust and one or more U.S. persons have authority to control all substantial decisions of the trust or (2) the trust has a valid election to be treated as a U.S. person under applicable U.S. Treasury Regulations.
Our U.S. shareholders may suffer adverse tax consequences if we are characterized as a PFIC.
The rules governing passive foreign investment companies, or PFICs, can have adverse effects on U.S. Holders for U.S. federal income tax purposes. Generally, if, for any taxable year, at least 75% of our gross income is passive income (such as interest income), or at least 50% of the gross value of our assets (determined on the basis of a weighted quarterly average) is attributable to assets that produce passive income or are held for the production of passive income (including cash), we would be characterized as a PFIC for U.S. federal income tax purposes. The determination of whether we are a PFIC, which must be made annually after the close of each taxable year, depends on the particular facts and circumstances and may also be affected by the application of the PFIC rules, which are subject to differing interpretations. Our status as a PFIC will depend on the composition of our income and the composition and value of our assets (including good will and other intangible assets), which will be affected by how, and how quickly, we utilize any cash that was raised in our IPO or in any other financing transaction. If we are treated as a non-publicly traded CFC for the year being tested for purposes of the PFIC rules, the value of our assets will be measured by the adjusted tax basis of our assets. If we were a publicly traded CFC or not a CFC for any part of such year, the value of our assets generally may be determined by reference to the fair market value of our common shares, which may be volatile. Moreover, our ability to earn specific types of income that will be treated as non-passive for purposes of the PFIC rules is uncertain with respect to future years. We believe we were not classified as a PFIC during the taxable year ended December 31, 2020. The determination of whether we are a PFIC is a fact-intensive determination made on an annual basis applying principles and methodologies that in some circumstances are unclear and subject to varying interpretation. Accordingly, we cannot provide any assurances regarding our PFIC status for any current or future taxable years.
If we are classified as a PFIC, a U.S. Holder would be subject to adverse U.S. federal income tax consequences, such as ineligibility for certain preferred tax rates on capital gains or on actual or deemed dividends, interest charges on certain taxes treated as deferred, and additional reporting requirements under U.S. federal income tax laws and regulations. A U.S. Holder may in certain circumstances mitigate adverse tax consequences of the PFIC rules by filing an election to treat the PFIC as a qualified electing fund, or QEF, or, if shares of the PFIC are “marketable stock” for purposes of the PFIC rules, by making a mark-to-market election with respect to the shares of the PFIC. U.S. Holders are urged to consult their own tax advisors regarding the potential consequences if we were or were to become classified as a PFIC, including the availability, and advisability, of, and procedure for, making QEF or mark-to-market elections.
Tax authorities may disagree with our positions and conclusions regarding certain tax positions, resulting in unanticipated costs, taxes or non-realization of expected benefits.
A tax authority may disagree with tax positions that we have taken, which could result in increased tax liabilities. For example, the U.S. Internal Revenue Service or another tax authority could challenge our allocation of income by tax jurisdiction and the amounts paid between our affiliated companies pursuant to our intercompany arrangements and transfer pricing policies, including amounts paid with respect to our intellectual property development. Similarly, a tax authority could assert that we are subject to tax in a jurisdiction where we believe we have not established a taxable connection, often referred to as a “permanent establishment” under international tax treaties, and such an assertion, if successful, could increase our expected tax liability in one or more jurisdictions. A tax authority may take the position that material income tax liabilities, interest and penalties are payable by us, in which case, we
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expect that we might contest such assessment. Contesting such an assessment may be lengthy and costly and if we were unsuccessful in disputing the assessment, the implications could increase our anticipated effective tax rate, where applicable.
General Risk Factors
The COVID-19 pandemic could adversely impact our business.
In late 2019, a novel strain of coronavirus, SARS-CoV-2, which resulted in the evolving COVID-19 pandemic, surfaced in Wuhan, China. Since then, COVID-19 has spread across the globe and to multiple regions within the United States and Canada, including British Columbia, where our primary office and laboratory space is located. The COVID-19 pandemic is evolving, and to date has led to the implementation of various responses, including government imposed shelter-in-place orders, quarantines, travel restrictions and other public health safety measures, as well as reported adverse impacts on healthcare resources, facilities and providers, in Canada, across the United States and in other countries. In response to the spread of COVID-19, and in accordance with guidance from provincial and local government authorities, we have restricted access to our facilities mostly to personnel and third parties who must perform critical activities that must be completed on-site, limited the number of such personnel that can be present at our facilities at any one time, and requested that most of our personnel work remotely in compliance with the local government issued guidance. In the event that government authorities were to further modify current restrictions, our employees conducting research and development or manufacturing activities may not be able to access our laboratory and manufacturing space, and our core activities may be significantly limited or curtailed, possibly for an extended period of time.
As a result of the COVID-19 pandemic, or similar pandemics and outbreaks, we have experienced and may continue to experience severe delays and disruptions, including, for example:
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interruption of or delays in receiving products and supplies from third parties;
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limitations on our business operations by local, state, provincial and/or federal governments that could impact our ability to sell our data packages;
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delays in negotiations with partners and potential partners;
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increases in facilities costs to comply with physical distancing guidance;
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business disruptions caused by workplace, laboratory and office closures and an increased reliance on employees working from home, travel limitations, cyber security and data accessibility, or communication or mass transit disruptions; and
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limitations on employee resources that would otherwise be focused on the conduct of our activities, including because of sickness of employees or their families or the desire of employees to avoid contact with large groups of people.
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Any of these factors could severely impact our research and development activities, business operations and sales, or delay necessary interactions with local regulators, manufacturing sites and other important contractors and partners. These and other factors arising from the COVID-19 pandemic could worsen in countries that are already afflicted with COVID-19, could continue to spread to additional countries, or could return to countries where the pandemic has been partially contained, and could further adversely impact our ability to conduct our business generally and have a material adverse impact on our operations and financial condition and results.
The extent to which the COVID-19 pandemic may negatively impact our operations and results of operations or those of our stakeholders will depend on future developments, which are highly uncertain and cannot be predicted with confidence, such as the ultimate geographic spread of the disease, the duration of the outbreak, travel restrictions, additional or modified government actions, new information that will emerge concerning the severity and impact of the COVID-19 pandemic and actions to contain the outbreak or treat its impact, such as social distancing, quarantines, lock-downs or business closures.
Our employees, consultants and commercial partners may engage in misconduct or other improper activities, including non-compliance with regulatory standards and requirements, and insider trading.
We are exposed to the risk of fraud or other misconduct by our employees, consultants and commercial partners. Misconduct by these parties could include intentional failures to comply with the applicable laws and regulations in the United States, Canada and abroad, report financial information or data accurately or disclose unauthorized activities to us. These laws and regulations may restrict or prohibit a wide range of pricing, discounting and other business arrangements. Such misconduct could result in legal or regulatory sanctions and cause serious harm to our reputation. It is not always possible to identify and deter employee misconduct, and any other precautions we take to detect and prevent this activity may not be effective in controlling unknown or unmanaged risks or losses, or in protecting us from governmental investigations or other actions or lawsuits stemming from a failure to comply with these laws or regulations. If any such actions are instituted against us, and we are not successful in defending ourselves or asserting our rights, those actions could result in the imposition of significant civil, criminal and administrative penalties, which could have a
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significant impact on our business. Whether or not we are successful in defending against such actions or investigations, we could incur substantial costs, including legal fees and divert the attention of management in defending ourselves against any of these claims or investigations.
The market price of our common shares may be volatile, and you could lose all or part of your investment.
The trading price of our common shares is highly volatile and subject to wide fluctuations in response to various factors, some of which are beyond our control, including limited trading volume These factors include:
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actual or anticipated fluctuations in our financial condition and operating results, including fluctuations in our quarterly and annual results;
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the introduction of new technologies or enhancements to existing technology by us or others in our industry;
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our inability to establish additional collaborations;
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departures of key scientific or management personnel;
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announcements of significant acquisitions, strategic partnerships, joint ventures or capital commitments by us or our competitors;
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our failure to meet the estimates and projections of the investment community or that we may otherwise provide to the public;
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publication of research reports about us or our industry, or antibody discovery in particular, or positive or negative recommendations or withdrawal of research coverage by securities analysts;
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changes in the market valuations of similar companies;
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overall performance of the equity markets;
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sales of our common shares by us or our shareholders in the future;
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trading volume of our common shares;
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disputes or other developments relating to proprietary rights, including patents, litigation matters and our ability to obtain patent protection for our technologies;
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significant lawsuits, including patent or shareholder litigation;
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the impact of the ongoing COVID-19 pandemic on our business;
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general political and economic conditions; and
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other events or factors, many of which are beyond our control.
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In addition, the stock market in general, and The Nasdaq Global Select Market and technology and life sciences companies in particular, have experienced extreme price and volume fluctuations that have often been unrelated or disproportionate to the operating performance of these companies. Broad market and industry factors may negatively affect the market price of our common shares, regardless of our actual operating performance. In the past, securities class action litigation has often been instituted against companies following periods of volatility in the market price of a company’s securities. This type of litigation, if instituted, could result in substantial costs and a diversion of management’s attention and resources, which would harm our business, financial condition and results of operations.
We are currently an emerging growth company, and we cannot be certain if the reduced reporting requirements applicable to emerging growth companies will make our common shares less attractive to investors.
We are an emerging growth company, as defined in the JOBS Act. For as long as we continue to be an emerging growth company, we may take advantage of exemptions from various reporting requirements that are applicable to other public companies that are not emerging growth companies, including not being required to comply with the auditor attestation requirements of Section 404 of the Sarbanes-Oxley Act of 2002 reduced disclosure obligations regarding executive compensation in our periodic reports and proxy statements, exemptions from the requirements of holding nonbinding advisory votes on executive compensation and shareholder approval of any golden parachute payments not previously approved, and an exemption from compliance with the requirement of the Public Accounting Oversight Board regarding the communication of critical audit matters in the auditor’s report on the financial statements. We could be an emerging growth company for up to five years following the year in which we completed our IPO, although circumstances could cause us to lose that status earlier. We will remain an emerging growth company until the earlier of
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(1) the last day of the fiscal year (a) following the fifth anniversary of the date of the closing of our IPO, (b) in which we have total annual gross revenue of at least $1.07 billion or (c) in which we are deemed to be a large accelerated filer, which requires the market value of our common shares that are held by non-affiliates to exceed $700.0 million as of the prior June 30th, and (2) the date on which we have issued more than $1.0 billion in non-convertible debt during the prior three-year period.
We cannot predict if investors will find our common shares less attractive because we may rely on these exemptions. If some investors find our common shares less attractive as a result, there may be a less active trading market for our common shares and our share price may be more volatile.
In addition, based on our current market capitalization, we may lose emerging growth company status in the near future, and the loss of such status may require us to incur significant additional costs as we transition to complying with the various reporting requirements applicable to other public companies that are not emerging growth companies.
We have incurred and will continue to incur significant increased costs as a result of operating as a public company, and our management has and will be required to devote substantial time to new compliance initiatives.
As a public company, we have incurred and will incur significant legal, accounting, insurance and other expenses that we did not incur as a private company. We are subject to the reporting requirements of the Exchange Act, which requires, among other things, that we file with the SEC annual, quarterly and current reports with respect to our business and financial condition. In addition, the Sarbanes-Oxley Act, as well as rules subsequently adopted by the SEC, and The Nasdaq Global Select Market to implement provisions of the Sarbanes-Oxley Act, impose significant requirements on public companies, including requiring establishment and maintenance of effective disclosure and financial controls and changes in corporate governance practices. Further, in July 2010, the Dodd-Frank Wall Street Reform and Consumer Protection Act, or the Dodd-Frank Act, was enacted. There are significant corporate governance and executive compensation related provisions in the Dodd-Frank Act that require the SEC to adopt additional rules and regulations in these areas, such as “say-on-pay” and proxy access. Recent legislation permits emerging growth companies to implement many of these requirements over a longer period and up to five years from the pricing of our IPO. We intend to take advantage of this new legislation but cannot guarantee that we will not be required to implement these requirements sooner than budgeted or planned and thereby incur unexpected expenses. Shareholder activism, the current political environment and the current high level of government intervention and regulatory reform may lead to substantial new regulations and disclosure obligations, which may lead to additional compliance costs and impact the manner in which we operate our business in ways we cannot currently anticipate.
These rules and regulations applicable to public companies have increased and will continue to substantially increase our legal and financial compliance costs and to make some activities more time-consuming and costly. If these requirements divert the attention of our management and personnel from other business concerns, they could have a material adverse effect on our business, financial condition, and results of operations. The increased costs will decrease our net income or increase our net loss and may require us to reduce costs in other areas of our business or increase the prices we charge for our data packages. For example, these rules and regulations have made it more difficult and more expensive for us to obtain director and officer liability insurance and we may be required to incur substantial costs to maintain the same or similar coverage. We cannot predict or estimate the amount or timing of additional costs we may incur to respond to these requirements. The impact of these requirements could also make it more difficult for us to attract and retain qualified persons to serve on our board of directors, our board committees, or as executive officers.
Pursuant to Section 404, in our second annual report due to be filed with the SEC after becoming a public company, we will be required to furnish a report by our management on our internal control over financial reporting. To achieve compliance with Section 404 within the prescribed period, we will be engaged in a process to document and evaluate our internal control over financial reporting, which is both costly and challenging. In this regard, we will need to continue to dedicate internal resources, potentially engage outside consultants, adopt a detailed work plan to assess and document the adequacy of internal control over financial reporting, continue steps to improve control processes as appropriate, validate through testing whether such controls are functioning as documented, and implement a continuous reporting and improvement process for internal control over financial reporting. Despite our efforts, there is a risk that we will not be able to conclude, within the prescribed timeframe or at all, that our internal control over financial reporting is effective as required by Section 404. In addition, investors’ perceptions that our internal controls are inadequate or that we are unable to produce accurate financial statements on a timely basis may harm the market price of our shares.
If securities or industry analysts do not publish research or publish inaccurate or unfavorable research about our business, our share price and trading volume could decline.
The trading market for our common shares will depend in part on the research and reports that securities or industry analysts publish about us or our business. Securities and industry analysts do not currently, and may never, publish research on our company. If no securities or industry analysts commence coverage of our company, the trading price for our common shares would likely be
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negatively impacted. In the event securities or industry analysts initiate coverage, if one or more of the analysts who cover us downgrades our common shares or publishes inaccurate or unfavorable research about our business, our share price may decline. If one or more of these analysts ceases coverage of our company or fails to publish reports on us regularly, demand for our shares could decrease, which might cause our share price and trading volume to decline.