MSTX Mast Therapeutics, Inc. (delisted)

 

 

 

UNITED STATES

SECURITIES AND EXCHANGE COMMISSION

WASHINGTON, D.C. 20549

 

FORM 8-K

 

CURRENT REPORT

Pursuant to Section 13 or 15(d) of the Securities Exchange Act of 1934

Date of Report (Date of earliest event reported): September 3, 2015

 

Mast Therapeutics, Inc.

(Exact name of Registrant as Specified in Its Charter)

 

 

Registrant’s Telephone Number, Including Area Code: (858) 552-0866

Not Applicable

(Former Name or Former Address, if Changed Since Last Report)

 

Check the appropriate box below if the Form 8-K filing is intended to simultaneously satisfy the filing obligation of the registrant under any of the following provisions (see General Instructions A.2. below):

 

 

 

 

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Item 7.01 Regulation FD Disclosure.

The information attached as Exhibit 99.1 to this report relating to Mast Therapeutics, Inc. (the “Company”) and its development programs may be presented from time to time by the Company at various investor and analyst meetings, including on September 3, 2015 at the 4^th Annual Sickle Cell Disease Therapeutics Conference.  

Item 9.01 Financial Statements and Exhibits.

(d) Exhibits.

The list of exhibits called for by this Item is incorporated by reference to the Exhibit Index immediately following the signature page of this report.

 

In accordance with General Instruction B.2. of Form 8-K, the information in Item 7.01 of this report and Exhibit 99.1 hereto shall not be deemed “filed” for purposes of Section 18 of the Securities Exchange Act of 1934, as amended (the “Exchange Act”), or otherwise subject to the liability of that section, nor shall it be deemed incorporated by reference in any of the Company’s filings under the Securities Act of 1933, as amended, or the Exchange Act, whether made before or after the date hereof, regardless of any incorporation language in such a filing, except as expressly set forth by specific reference in such a filing.

By filing this report, including the information contained in Exhibit 99.1 attached hereto, the Company makes no admission as to the materiality of any information in this report. The information contained in Exhibit 99.1 hereto is summary information that is intended to be considered in the context of the Company’s filings with the U.S. Securities and Exchange Commission (the “SEC”), including its Annual Report on Form 10-K filed on March 24, 2015, Quarterly Report on Form 10-Q filed on August 12, 2015, and other public announcements that the Company makes, by press release or otherwise, from time to time. The Company undertakes no duty or obligation to publicly update or revise the information contained in this report, although it may do so from time to time as it believes is appropriate. Any such updating may be made through the filing of other reports or documents with the SEC, through press releases, or through other public disclosure.

Forward-Looking Statements

Mast Therapeutics cautions you that statements included in this report, including in Exhibit 99.1 attached hereto, that are not a description of historical facts are forward-looking statements that are based on the Company’s current expectations and assumptions. Such forward-looking statements include, but are not limited to, statements regarding the Company’s development, regulatory and commercialization strategies and plans for its investigational drug drugs, vepoloxamer (also known as MST-188) and AIR001, as well as the timing of activities and events related to those plans, including commencement and completion of clinical and nonclinical studies, and prospects for clinical, regulatory and commercial success. Among the factors that could cause or contribute to material differences between the Company’s actual results and the expectations indicated by the forward-looking statements are risks and uncertainties that include, but are not limited to: the uncertainty of outcomes in ongoing and future studies of its product candidates and the risk that its product candidates may not demonstrate adequate safety, efficacy or tolerability in one or more such studies, including vepoloxamer in the ongoing EPIC study; delays in the commencement or completion of clinical studies, including the EPIC study, the planned Phase 2 study of vepoloxamer in heart failure, and the ongoing Phase 2a studies of AIR001, including as a result of difficulties in obtaining regulatory agency agreement on clinical development plans or clinical study design, opening trial sites, enrolling study subjects, manufacturing sufficient quantities of clinical trial material, completing manufacturing process development activities, being subject to a “clinical hold,” and/or suspension or termination of a clinical study, including due to patient safety concerns or lack of funding; the potential for institutional review boards or the FDA or other regulatory agencies to require additional clinical or nonclinical studies prior to initiation of a planned clinical study; the risk that, even if clinical studies are successful, the FDA or another regulatory agency may determine they are not sufficient to support a new drug application; the potential that even if clinical studies of a product candidate in one indication are successful, clinical studies in another indication may not be successful; the Company’s reliance on contract research organizations (CROs), contract manufacturing organizations (CMOs), and other third parties to assist in the conduct of important aspects of development of its product candidates, including clinical studies, manufacturing, and regulatory activities for its product candidates and that such third parties may fail to perform as expected; the Company’s ability to obtain, as needed, additional funding on a timely basis or on acceptable terms, or at all; the potential for the Company to delay, reduce or discontinue current and/or planned development activities, including clinical studies, partner its product candidates at inopportune times or pursue less expensive but higher-risk and/or lower return development paths if it is unable to raise sufficient additional capital as needed; the risk that the FDA and regulatory agencies outside of the U.S. do not grant marketing approval of a product candidate, on a timely basis, or at all; the risk that, even if the Company successfully develops a product candidate in one or more indications, it may not realize commercial success and may never achieve profitability; the risk that the Company is not able to adequately protect its intellectual property rights and prevent competitors from duplicating or developing equivalent versions of its product candidates or

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that the use or manufacture of its products or product candidates infringe the proprietary rights of others; and other risks and uncertainties more fully described in the Company’s periodic filings with the SEC and press releases.

 

You are cautioned not to place undue reliance on forward-looking statements, which speak only as of the date they are made. Mast Therapeutics does not intend to revise or update any forward-looking statement set forth in this report to reflect events or circumstances arising after the date hereof, except as may be required by law. This caution is made under the safe harbor provisions of Section 21E of the Securities Exchange Act of 1934, as amended, and Section 27A of the Securities Act of 1933, as amended.

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SIGNATURES

Pursuant to the requirements of the Securities Exchange Act of 1934, the registrant has duly caused this report to be signed on its behalf by the undersigned hereunto duly authorized.

 

 

 

 

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Exhibit Index

 

 

 

 

 

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NYSE MKT: MSTX 4th Annual SCD Therapeutics Conference September 3, 2015 Exhibit 99.1

Forward-Looking Statements This presentation includes forward-looking statements about our business prospects, financial position, and development of vepoloxamer and AIR001 for therapeutic use in humans. Any statement that is not a statement of historical fact should be considered a forward-looking statement. Because forward-looking statements relate to the future, they are subject to inherent risks, uncertainties and changes in circumstances that are difficult to predict.  Actual events or performance may differ materially from our expectations indicated by these forward-looking statements due to a number of factors, including, but not limited to, results of our pending and future clinical studies, the timeline for clinical and manufacturing activities and regulatory approval; our dependency on third parties to conduct our clinical studies and manufacture our clinical trial material; our ability to raise additional capital, as needed; our ability to establish and protect proprietary rights related to our product candidates; and other risks and uncertainties more fully described in our press releases and our filings with the SEC, including our quarterly report on Form 10-Q filed with the SEC on August 12, 2015. We caution you not to place undue reliance on any of these forward-looking statements, which speak only as of the date of this presentation. We do not intend to update any forward-looking statement included in this presentation to reflect events or circumstances arising after the date of the presentation, except as may be required by law.

Preclinical Phase 1 2a 2b Phase 3 Heart Failure (“HFpEF”) Product Pipeline Preclinical Phase 1 Phase 2 Phase 3 Sickle Cell Disease (orphan) Chronic Heart Failure Ischemic Stroke Initiation planned for Sep 2015 Planned for 2016 >75% Enrolled Vepoloxamer AIR001 Data expected fall 2015 Data expected 2016 Planned for 2016

Poiseuille’s Law describes Newtonian flow with = flow (volume/time) = length of the capillary = viscosity of the media = pressure drop over the length = radius of the capillary   Vepoloxamer: A Biophysical Agent Want lower viscosity? Reduce friction by lowering adhesion and improving the deformability of cells How? Reduce surface tension with vepoloxamer

Poiseuille’s Law describes Newtonian flow with = flow (volume/time) = length of the capillary = viscosity of the media = pressure drop over the length = radius of the capillary   Vepoloxamer: A Biophysical Agent Want lower viscosity? Reduce friction by lowering adhesion and improving the deformability of cells How? Reduce surface tension with vepoloxamer

API Structure: CMC: Large, synthesized polymer with extraction process to remove undesirable (toxic) components Composition of matter claims pending Administration: IV infusion ADME: Rapidly and predominantly cleared by kidneys (4-8h) Ether linkages cannot be cleaved; no drug metabolites Vepoloxamer Overview HO – (CH2CH2O)79– (CH2CHO)30– (CH2CH2O)79– H CH3 |

No Affinity for Healthy Cell Membranes… But Adheres to Damaged Cell Membranes Core of molecule adheres to hydrophobic domains on a cell surface, such as damaged membranes and adhesive proteins. Vepoloxamer Mechanism of Action

Vepoloxamer Pharmacodynamics Vepoloxamer adheres to hydrophobic domains on cells and lowers surface tensions Viscosity is reduced Lowers adhesion Improves flow Membranes are sealed Cell integrity maintained Ca2+ influx reduced Sickle Cell Disease: Less occlusion, reduced hemolysis Heart Failure: Membranes repair, cells survive

SCD Pathophysiology (multiple points of intervention) sRBC Adherence to Endothelium VASO-OCCLUSION ORGAN DAMAGE/FAILURE ANEMIA PAIN INTRAVASCULAR Hemolysis NITRIC OXIDE DEPLETION VASOCONSTRICTION INFLAMMATION ACTIVATION OF COAGULATION TISSUE ISCHEMIA LOCAL HYPOXIA STRESS LARGE VESSEL DAMAGE Microvascular DAMAGE WBC adherence to RBCs Activated WBCs WBC adherence to endothelium Activated platelets Release of Inflammatory Cytokines Endothelial Cell Activation Free Radical Formation Loss of antithrombotic action Loss of anti-inflammatory action Release of Inflammatory Cytokines Endothelial Cell Retraction/ Exposed Subendothelial Matrix Release of Inflammatory Cytokines Free Radical Formation Stimulation of nociceptors Increased Epinephrine Levels Activated platelets Endothelial Cell Retraction/ Exposed Subendothelial Matrix Increased Platelet Count Activated WBCs Increased WBC Count Release of Inflammatory Cytokines Externalization of phosphatidylserine Polymerization of HbS Membrane Damage Red Cell Dehydration Increased Reticulocyte Counts Plasma Free Hb Irreversibly Sickled Cells Red Cell Arginase Release Source: Curr Probl Pediatr Adolesc Health Care 2006; 36: 346-376 (1538-5442)

Vepoloxamer Effect on Sickle Cells Before vepoloxamer Lower surface tension improves flow and deformability (video) After vepoloxamer

Role of Vepoloxamer in Sickle Cell Disease Vaso-Occlusive Crisis: Adhesion of poorly-deformable, “sticky” cells to endothelium and to each other leads to vessel obstruction Occluded RBC’s cannot deliver oxygen, leading to ischemia, pain, organ damage Vepoloxamer: Lowers viscosity, reduces adhesion of cells to endothelium, lowers RBC aggregation, improves RBC deformability and restores blood flow

Vepoloxamer Lowers Pathologic Blood Viscosity Under Low Shear Rates *Vepoloxamer is purified poloxamer 188 Shear Rate (1/sec) 2.5 5 10 20 40 80

Vepoloxamer Reduces RBC Aggregation (sickle cell patients) RBCs represent 99.9% of the volume of blood cells Poloxamer 188* (mg/mL) Aggregate extent Aggregate strength *Vepoloxamer is purified poloxamer 188 The effect of poloxamer 188 on sickle cell RBC aggregation determined by a Myrenne aggregometer Results represent the mean from 11 patients relative to PBS controls (Meiselman, et al.)

Lung pathology was compared in transgenic mice pretreated with either vepoloxamer (400 mg/kg) or saline and subject to hypoxia (5% O2). (Asakura, et al.) Vepoloxamer Reduced Organ Pathology in Transgenic Sickle Mice Vepoloxamer Control

Transgenic mice pretreated with either vepoloxamer (400 mg/kg) or saline, subject to hypoxia (5% O2), and monitored for survival. (Asakura, et al.) Vepoloxamer Increased Survival in Transgenic Sickle Mice Vepoloxamer Control

Vepoloxamer Placebo Before Infusion (Crisis Baseline) Velocity (mm/sec) 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2-Hours After Loading 7-Hours After Loading Source: J. Investig. Med. 2004;52(6):402-6 (p = 0.00003) Vepoloxamer improved microvascular blood flow in SCD patients during vaso-occlusive crisis Vepoloxamer Improves Blood Flow Red cell velocity (mm/s) measured by video microscopy in nine sickle cell patients with vaso-occlusive crisis.

Phase 2 Study Source: Blood, September 1, 1997 – Vol 90, No. 5 Subjects Who Received Full Dose± Poloxamer 188* (n=18) Placebo (n=13) p value±± Duration of Crisis 44 hours 80 hours 0.025 Duration of Hospitalization 5 days 7 days 0.111 Total Analgesic Use 34mg 145mg 0.045 Parenteral Analgesic Use 27mg 133mg 0.022 ± Excludes patients who had drug administration errors or incomplete pain assessments (16), who withdrew consent (2) and who withdrew because of injection site pain after 15 minutes of infusion. Subjects were excluded equally (n=9) between poloxamer 188 and placebo. ±± Proportional hazards model adjusted for baseline pain. * Vepoloxamer is purified poloxamer 188 Randomized, double-blind, placebo-controlled, multi-center study in SCD patients hospitalized for vaso-occlusive crisis

Acute Chest Syndrome Clinical Study Vepoloxamerⱡ Hi Dose (100-120mg/kg/hr) (n=7) Vepoloxamerⱡ Lo Dose (40-80mg/kg/hr) (n=20) NEJM 2000* Standard of care (n=409) Vepoloxamerⱡ Hi Dose (100-120 mg/kg/hr) (n=4) Vepoloxamerⱡ Lo Dose (40-80 mg/kg/hr) (n=10) NEJM 2000* Standard of care (n=128) Children (≤19y) Adults (>19y) Acute Chest Syndrome (ACS) Serious complication of SCD that results in prolonged hospitalizations A leading cause of death in SCD patients Vepoloxamer reduced duration of hospitalization in SCD patients with ACS compared to standard of care *Source: NEJM, June 22, 2000, Vol 342, No 25 ⱡ Data on file

Flawed endpoint selection and premature termination led to loss of power Proportional analysis positive: All ages: 52% vs. 37% (n=249, p=0.02) Under 16y*: 60% vs. 28% (n=73, p=0.009) Lessons learned for Mast’s Phase 3 study: Vepoloxamer has activity in SCD Incorporate FDA, physician, and patient input Pain scores confounded by analgesia use Use a clinically-relevant, objective endpoint Anticipate and address data loss Source: JAMA, November 17, 2001 – Vol 286, No. 17 Prior Sponsor’s Phase 3 Study 350 patients (intended) 255 patients (actual) ENROLLMENT *Average age of patients in Mast’s Phase 3 trial (EPIC) as of August 2015: ~15 years

Largest Interventional SCD Trial Ever Conducted 388 patients, randomized 1:1 (standard of care +/- vepoloxamer) Double-blind, placebo-controlled, international (2/3rd U.S. sites) Primary Endpoint: Duration of crisis Assessed from randomization to last dose of parenteral opioid Clinically relevant (no IV meds = readiness for discharge) Sensitive data collection (patient-controlled analgesia device) Reduction in data loss (PCA device) Secondary Endpoints and Other Assessments: Re-hospitalization for crisis within 14 days Occurrence of acute chest syndrome Duration of hospitalization Tissue oxygenation Biomarkers Power Calculations 90% power to detect a 16-hour difference (17% benefit, p=0.05, CV >50%) Current Phase 3 Study “EPIC” (Mast study)

Enrollment on-track Enrollment >75% complete Top-line data anticipated Q1 2016 Most Advanced New Drug in SCD Potential to be 1st drug ever approved to treat on-going vaso-occlusive crisis Substantial head start versus other drugs in development Considerations for Regulatory Decision-Making Significant unmet need – standard of care unchanged for years Increased reliance on disease experts in rare diseases Support among medical / advocacy communities Fast Track designation Orphan Drug designation Healthcare disparity concerns Supportive clinical studies: Thorough QT, repeat-admin, special populations EPIC Success Factors

SCD Market Opportunity United States Approximately 100,000 hospitalizations annually ~50% of events occur in just 16 metropolitan areas Effective coverage with small, targeted field force Europe Approximately 40,000 patients ~50% of patients reside in 2 cities: Paris and London

Addressable market for vepoloxamer is substantially larger than for current gene corrective approaches (e.g. not limited to just “severe” patients) Vepoloxamer Market Opportunity Approximately 100,000 Hospitalizations Annually for Crisis (U.S.) * Estimated research analyst consensus (range 5-25%)

Vepoloxamer Positioned for Success in SCD Novel Therapy for Rare Disease with High Unmet Need Unique mechanism Orphan Drug Designation (U.S. and EU) New composition of matter patent application pending No approved therapies available for crisis intervention First-To-Market Advantage Clinical development >2 years ahead of nearest competitor Concentrated, In-Patient Setting 50% of U.S. patients live in just 16 metropolitan areas 80% public payer (NTAP, DRG, DSH considerations) Pharmacy Director Support Based on qualitative market research, perceived as a 4.4 out of 5; e.g. a “breakthrough medical innovation”

An Emerging Cardiovascular Company Sickle Cell Disease Most clinically-advanced new drug in development Heart Failure Two distinct programs with novel mechanisms Stroke Encouraging nonclinical data, phase 2 planned for 2016 Mast Therapeutics is committed to: Bringing the first new SCD therapy to market in over 17 years, and Showing the clinical benefit of improving blood flow and sealing cell membranes in dysfunctional circulatory conditions. Mast Therapeutics Summary

Cash/investments at 6/30/15: $43.4 million Market capitalization: ~$72 million* Shares outstanding: 164 million* Average daily volume (3 mo): ~700,000* * As of August 26, 2015 MSTX Financial Overview