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Thursday, June 23, 2022

uniQure Update on Low-Dose Cohort in Phase I/II Trial of Gene Therapy for Huntington’s

  Treatment generally well-tolerated with no significant safety issues related to AMT-130 in treated patients through one year of follow-up ~

~ A mean reduction of 53.8% of mutant HTT (mHTT) observed in cerebral spinal fluid (CSF) at 12 months in evaluable patients treated with AMT-130 ~

~ Neurofilament Light Chain (NfL) in CSF near baseline at 12 months in patients treated with AMT-130 ~

~ Biomarker and clinical data including 24-month follow-up in the low-dose U.S. cohort and 12-month follow up in the high-dose U.S. cohort expected in first half of 2023 ~

~ Investor conference call and webcast today at 8:30 a.m. ET ~


uniQure management will host an investor conference call and webcast today, Thursday, June 23, 2022, at 8:30 a.m. ET. The conference call may be accessed by dialing (833) 962–1472 for domestic callers and (442) 268-1254 for international callers. The conference call ID is 3873647. Please specify to the operator that you would like to join the “uniQure Conference Call.” If you are joining the conference call, please dial-in 15 minutes before the start time. The webcast of the conference call may also be accessed through the Investors & Newsroom section of the uniQure website. Following the live webcast, a replay of the call will be archived for several weeks.

https://www.biospace.com/article/releases/uniqure-announces-update-on-low-dose-cohort-in-phase-i-ii-clinical-trial-of-amt-130-gene-therapy-for-the-treatment-of-huntington-s-disease/

Innovation Pharma: Brilacidin Inhibits Omicron, Delta, Gamma, Alpha Variants In Vitro

 Innovation Pharma (Formerly known as Cellceutix) (OTCQB:IPIX) ("the Company"), a clinical stage biopharmaceutical company, today reported that Brilacidin, the Company's defensin-mimetic drug candidate exhibiting broad-spectrum antiviral activity, inhibited the Omicron (B.1.1.529) and Delta (B.1.617.2) variants of SARS-CoV-2 based on in vitro testing conducted in collaboration with National Institutes of Health (NIH) National Institute of Allergy and Infectious Diseases (NIAID) scientists. Researchers at Rutgers University have also shown Brilacidin inhibited in vitro the Gamma (P.1) and Alpha (B.1.1.7) variants of SARS-CoV-2.

Brilacidin has now been tested in vitro in seven SARS-CoV-2 strains (Omicron, Delta, Gamma, Alpha, Italian, Washington, Wuhan) and three human coronavirus (H-CoV) strains (OC43, 229E, and NL63), in addition to MERS-CoV and SARS-CoV-1. Brilacidin has consistently inhibited all coronaviruses tested, independent of cell type, at generally attainable systemic concentrations (based on established human pharmacokinetics of IV-administered Brilacidin).

Identifying COVID-19 countermeasures with novel mechanisms of action is vital. SARS-CoV-2 continues to evolve at an accelerated pace, raising questions as to what the dominant variant (or sub-variant) may be this fall and winter, when infections often spike -- and if today's COVID-19 vaccines and therapeutics can maintain their effectiveness.

Emerging SARS-CoV-2 variants, and increasingly their sub-variants, contain immunity-evading mutations. These mutations alter key parts of the SARS-CoV-2 spike protein that attach to human cells, making the virus more transmissible and potentially more virulent. Unlike other antivirals, such as monoclonal antibodies, and most vaccines, Brilacidin has been shown not to target the Spike S1 and Spike RBD regions of SARS-CoV-2, acting instead through dual-acting neutralizing and blocking antiviral properties, able to target virus and host. These antiviral traits support Brilacidin's ability to maintain its anti-coronavirus activity and suggest Brilacidin would be less subject to resistance.

Related, results from new NIH/NIAID in vitro testing of Brilacidin in over 20 acutely infectious viruses, and from the Brilacidin Phase 2 COVID-19 clinical trial, are being prepared for publication. Findings from the Rutgers' Brilacidin research can be accessed at the link below1 and build on earlier published Brilacidin research conducted by scientists at George Mason University and at University of Arizona and University of California-San Francisco.

https://www.biospace.com/article/releases/innovation-pharmaceuticals-reports-brilacidin-inhibits-omicron-delta-gamma-and-alpha-sars-cov-2-variants-based-on-in-vitro-testing-by-nih-niaid-sponsored-and-rutgers-university-researchers/

Fusion Pharma Cleared to Trial Small Molecule Radiopharmaceutical Targeting Solid Tumors

  Fusion Pharmaceuticals Inc. (Nasdaq: FUSN), a clinical-stage oncology company focused on developing next-generation radiopharmaceuticals as precision medicines, today announced that the U.S. Food and Drug Administration (FDA) has cleared the Company's Investigational New Drug (IND) applications for [225Ac]-FPI-2059 (FPI-2059) and the corresponding imaging analogue [111In]-FPI-2058 (FPI-2058). FPI-2059 is a targeted alpha therapy (TAT) designed to use a small molecule to target and deliver actinium-225 to tumor sites expressing neurotensin receptor 1 (NTSR1), a protein that is overexpressed in multiple solid tumor types, including colorectal, pancreatic, gastric, neuroendocrine differentiated prostate, head and neck squamous cell carcinoma, and Ewing sarcoma cancers.

https://finance.yahoo.com/news/fusion-pharmaceuticals-announces-fda-clearance-114500674.html

PhaseBio’s Reversal Agent for Astra’s Brilinta could Spell Success for Both

 For millions of cardiac patients, antiplatelet therapies (P2Y12 inhibitors) such as ticagrelor (Brilinta) and clopidogrel (Plavix), are a blessing that reduces their risk from blood clots that may cause acute coronary syndrome – typically strokes or heart attacks. If such patients need surgery, they must stop taking the drug for about five days so it can exit their systems. However, if surgery cannot be delayed, that blessing quickly becomes a curse that could cause them to bleed out on the operating table.

“Antiplatelet therapy is doing exactly what it’s supposed to do, but if those patients require surgery, are in an accident or cut themselves, they have a limited ability to stop bleeding,” Jonathan Mow, CEO of PhaseBio Pharmaceuticals pointed out.

PhaseBio is working toward mitigating that risk with a medication in clinical development – bentracimab – that in trials has been shown to quickly reverse the blood-thinning effects of Brilinta. Completed Phase II trials and interim results from Phase III clinical trials met all endpoints and showed that the drug began reversing the antiplatelet effects of Brilinta within five minutes.

In the Phase IIb trial, “The safety profile was completely clean,” Mow said. The Phase III trial is still ongoing, and interim results look good. Interim data indicates surgical patients and patients who were actively bleeding achieved immediate, sustained reversal of Brilinta, which allowed platelets to function normally and their blood, therefore, to coagulate. More than 90% achieved clinical homeostasis, and the drug was well-tolerated with no reported serious adverse events.

“100% of patients had a reversal of their platelet function and had normalization of their platelet function. They went from completely inhibited to completely normal platelet function,” Mow said. “We’re getting the effects we’re looking for. We’re very happy.

“Obviously there are adverse events associated with surgery because a lot of our patients are surgical patients or are actively bleeding,” he noted. “They lead complicated lives, but the safety profile of the drug in and of itself is very clean. We had very high hurdles for safety and efficacy,” because a drug reversing agent like this shouldn’t give physicians cause for concern.

Cardiovascular disease accounts for approximately 32% of all deaths globally, according to the World Health Organization. The Centers for Disease Control and Prevention says heart disease is the leading cause of death in the U.S., accountable for 25% of all deaths.

Between 4 and 5 million patients are prescribed dual antiplatelet therapy in the United States each year. Brilinta – “the last remaining branded drug in the P2Y12 space” – has about 10 to 15% of that market. Of those patients, 10 to 15% will require surgery, and another 5% will have a spontaneous bleeding event, like an accident or an intracranial hemorrhage. Those patients need an immediate solution to quell the bleeding and allow medical intervention.  Bentracimab appears to be that solution, but – importantly – it only works against Brilinta.

As Mow explained, the other antiplatelet therapies permanently bind to the P2Y12 receptor, so the platelet is forever deactivated. “AstraZeneca’s Brilinta, in contrast, transiently binds to that receptor but still deactivates the platelets. It has a half-life of approximately six hours, but the actual effect of the drug lasts for days.” Medical guidelines advise at least a five-day washout period for the antiplatelet drug to leave the body.

In contrast, “Bentracimab, can deactivate the Brilinta when it’s not on the receptor, therefore restoring platelet function,” Mow explained. This means physicians can administer bentracimab minutes before surgery and put their patients back on Brilinta immediately afterward.

This approach has been in development for several years. PhaseBio licensed all rights for bentracimab in 2017 from AstraZeneca. If bentracimab is approved by the FDA, the ability to reverse Brilinta could become a competitive advantage for that company as well.

If approved, PhaseBio plans to make this product available on a global basis, just as Brilinta is available worldwide. Bentracimab holds Breakthrough Designation from the U.S. Food and Drug Administration, Prime Designation from the European Medicines Agency and Breakthrough Designation from the Chinese regulatory authority. Therefore, Mow said he expects this therapy to have an expedited review process in each of those regions.

“We plan to submit our Biologics License Agreement to the FDA early fourth quarter of this year,” he said, which makes a regulatory decision in the U.S. possible as early as mid-2023.

If bentracimab is approved as a reversal agent for Brilinta, a mid-2023 approval timeline would mean this reversal agent could potentially be on the market 12 to 18 months before Brilinta goes off patent. At that point, Brilinta would (presumably) be priced competitively with other generic antiplatelet therapies. That combination means the market for both Brilinta and bentracimab could soar.

https://www.biospace.com/article/phasebio-s-reversal-agent-for-astra-s-brilinta-could-spell-success-for-both-/

McKesson, HCA Eye Oncology Research JV

 McKesson Corporation (NYSE: MCK) and HCA Healthcare, Inc. (NYSE: HCA) announced today an agreement to form a joint venture combining McKesson’s US Oncology Research (USOR) and HCA Healthcare’s Sarah Cannon Research Institute (SCRI). USOR is the research arm of McKesson’s The US Oncology Network and draws from a network of experienced investigators and dedicated clinical staff who specialize in oncology clinical trials. SCRI, which is the research arm of Sarah Cannon, HCA Healthcare’s Cancer Institute, offers end-to-end clinical trial site support services with a deep expertise in early-phase oncology research and drug development as well as a specialized contract research organization (CRO).

Together, USOR and SCRI will create a fully integrated oncology research organization aimed at expanding clinical research, accelerating drug development and increasing availability and access to clinical trials for community oncology providers and patients, including those in underserved communities. The joint venture plans to offer an expanded clinical research network, a broader portfolio of clinical trials, and enhanced data and analytics capabilities to better match patients with clinical trials.

https://finance.yahoo.com/news/mckesson-hca-healthcare-announce-plans-123000954.html

Evaxion Expands DNA Vaccine Program Into Non-Small Cell Lung Cancer

  Evaxion Biotech A/S (NASDAQ: EVAX) (“Evaxion” or the “Company”), a clinical-stage biotechnology company specializing in the development of AI-driven immunotherapies, today announced that it has selected EVX-03 as the product candidate within its DNA technology platform to target a new indication with planned regulatory filing in H2 2022.

We currently have two product candidates in our DNA technology platform, EVX-02, and EVX-03. Based on very encouraging results from our pre-clinical studies of EVX-03, we have decided to use this candidate in an upcoming clinical trial in a new indication.

Enhanced DNA technology in EVX-03
EVX-03 is optimized with an APC-targeting unit (Antigen-Presenting Cell), which has shown promising pre-clinical data and significant tumor reduction at very low doses as well as a clear dose-response relationship in all our preclinical models.

New Indication
Evaxion has decided to continue the development of EVX-03 in patients with advanced disease and plans to target non-small cell lung cancer (NSCLC) with EVX-03.

https://finance.yahoo.com/news/evaxion-biotech-expands-evx-03-113000294.html

invoX Pharma to Acquire F-star Therapeutics

 

  • Proposed ~US$161 million all-cash acquisition to accelerate invoX’s strategy to build Sino Biopharm’s International Biopharmaceutical R&D Platform outside of China, transforming the lives of patients worldwide

  • The transaction demonstrates the strength of F-star’s differentiated bispecific antibody technology and provides backing from a top 40 global pharmaceutical company to accelerate growth and unlock potential

  • F-star’s unique next-generation tetravalent (2+2) bispecific antibody platform complements Sino Biopharm’s existing capabilities and reinforces its global oncology pipeline