Medical
Capricor Therapeutics | January 24, 2024
Capricor Therapeutics a biotechnology company developing transformative cell and exosome-based therapeutics for the treatment and prevention of rare diseases, today announced that Capricor’s proprietary StealthX™ exosome-based multivalent vaccine (StealthX™ vaccine) for the prevention of SARS-CoV-2 has been selected to be part of Project NextGen, an initiative by the U.S. Department of Health and Human Services to advance a pipeline of new, innovative vaccines providing broader and more durable protection for COVID-19. As part of Project NextGen, the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, will conduct a Phase 1 clinical study with Capricor’s StealthX™ vaccine, subject to regulatory approval. NIAID's Division of Microbiology and Infectious Diseases (DMID) would oversee the study.
“We are extremely pleased with the external support from the NIH, which highlights the clinical potential of our StealthX™ exosome platform technology and provides non-dilutive support for the advancement of our vaccine candidate,” said Linda Marbán, Ph.D., Capricor’s chief executive officer. “Our proprietary vaccine is multivalent, delivering both the highly mutagenic S protein (Spike) and the more stable N protein (Nucleocapsid) which potentially may offer broader and longer lasting immunity against SARS-CoV-2. We view the NIH SARS-CoV-2 project as the first clinical step towards development of a next generation vaccine platform that may be extended to other infectious diseases. Our platform is designed to combine the speed of response of an mRNA vaccine with the potential efficacy of a protein vaccine. Further, our StealthX™ vaccine is free of both adjuvant and lipid nanoparticles and in preclinical studies has generated a strong immune response at low doses. We believe our StealthX™ vaccine may offer a clinically meaningful alternative for highly mutating or novel infectious agents.”
Dr. Marbán continued, “This is the opportunity we have been waiting for as it allows the exosome technology to be brought into the clinic as we continue to focus our resources on CAP-1002 for the treatment of Duchenne muscular dystrophy. Beyond SARS-CoV-2, we look forward to exploring the potential therapeutic utility of this platform, and more broadly, expanding our pipeline into therapeutics and future partnership opportunities.”
About Capricor’s StealthX™ Vaccine
The StealthX™ vaccine is a proprietary vaccine developed internally by Capricor utilizing exosomes that were engineered to express either spike or nucleocapsid proteins on the surface. Preclinical results from murine and rabbit models published in Microbiology Spectrum, showed the StealthX™ vaccine, resulted in robust antibody production, potent neutralizing antibodies, a strong T-cell response and a favorable safety profile. These effects were obtained with administration of only nanogram amounts of protein and without adjuvant or synthetic lipid nanoparticles (LNPs). Exosomes offer a new antigen delivery system that potentially could be utilized to rapidly generate multivalent protein-based vaccines. Exosomes, first identified as extracellular vesicles, are small vesicles enriched in specific subsets of proteins, RNAs and lipids and responsible for cell-to-cell communication.
About Capricor Therapeutics
Capricor Therapeutics, Inc. is a biotechnology company focused on the development of transformative cell and exosome-based therapeutics for the treatment and prevention of rare diseases. Capricor’s lead candidate, CAP-1002, is an allogeneic cardiac-derived cell therapy currently in Phase 3 clinical development for treating Duchenne muscular dystrophy (DMD). Further, Capricor has entered into a partnership for the exclusive commercialization and distribution of CAP-1002 for DMD in the United States and Japan with Nippon Shinyaku Co., Ltd. (U.S. subsidiary: NS Pharma, Inc.), subject to regulatory approval. Capricor is also developing its exosome technology as a potential next-generation therapeutic platform. Our proprietary StealthX™ exosome platform has potential for a broad range of new therapeutic applications in the field of vaccinology as well as targeted oligonucleotide, protein and small molecule therapeutics to treat or prevent a variety of diseases.
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Medical
Andelyn Biosciences, Inc. | January 16, 2024
Andelyn Biosciences, Inc., a pioneering and patient-focused cell and gene therapy Contract Development and Manufacturing Organization (CDMO), has partnered with Armatus Bio to accelerate manufacturing of their gene therapy treatment for Charcot-Marie-Tooth Type 1A (CMT1A), a rare genetic neurological disease associated with independence-limiting disability and risk of fatal complications that has no approved therapies today. The partnership will seek to maximize program efficiency and speed to clinical studies of this novel, precision approach.
As part of the agreement, Armatus will leverage Andelyn's extensive experience in adeno-associated virus (AAV) production and its proprietary suspension platform for development activities, plasmid manufacturing, and viral vector toxicology and GMP clinical manufacturing. The partnership strengthens the working relationship and offers great hope for patients suffering from neuromuscular disease.
Both organizations, located in the well-established and growing biotech hub of Columbus, Ohio, are aligned in their belief that the rise of gene therapies will continue to advance human health.
Matt Niloff, Chief Commercial Officer at Andelyn Biosciences said, "We are extremely moved by Armatus Bio's commitment to address the urgent unmet needs in CMT1A and are impressed by its innovative therapeutic technology for the disease. We look forward to scaling up the process in our program-specific, configurable suspension platform, and accelerating the therapy into the clinic with the highest degree of quality."
"Andelyn has demonstrated its strong capabilities in manufacturing complex genetic medicines with high quality and consistency, which will be critical to accelerating our development efforts," said Brian Price, PhD, Chief Technical Officer of Armatus. "We look forward to collaborating with Andelyn on this program as we work toward supporting this population that urgently awaits innovative solutions."
From its time-tested experience, Andelyn is proud to offer its clients exceptional development, plasmid production, and quality manufacturing at its three Columbus, Ohio facilities. Andelyn is advancing client discoveries and manufacturing life-altering cell and gene therapies for rare and prevalent diseases.
About Andelyn Biosciences, Inc.
Andelyn Biosciences is a full-service cell and gene therapy CDMO focused on the development, characterization and production of viral vectors for gene therapy. With more than 20 years of experience, Andelyn's deep scientific expertise has resulted in the production of cGMP material for more than 450 clinical batches and 75 global clinical trials. Operating out of three Columbus, Ohio facilities, Andelyn supports its clients in developing curative cell and gene therapies from concept through plasmid development and manufacturing, process development, and cGMP clinical and commercial manufacturing. Andelyn's versatile capabilities include cGMP manufacturing capacity for both adherent and suspension processes up to a 2,000-liter capacity. An advanced digital model, quality system, full regulatory support and supply chain vertical integration help Andelyn accelerate the development and manufacturing of its clients' innovative cell and gene therapies.
About Armatus Bio
Armatus Bio is a privately held late preclinical stage biotechnology innovator leveraging vectorized RNAi to address urgent unmet medical needs in genetically-driven neurological diseases. Based in Columbus, Ohio, the company is led by a seasoned team with expertise in drug development and delivery, and partnered with world renowned experts in vector biology, genomics, and neurology. The company's lead candidate for Charcot Marie Tooth Type 1A (CMT1A) has received Orphan Drug Designation and Rare Pediatric Drug Designation, and is advancing toward IND-enabling studies. The company is also developing a preclinical vectorized RNAi asset for the rare neuromuscular disease Facioscapulohumeral Muscular Dystrophy (FSHD).
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Medical
Jnana Therapeutics, Inc. | February 02, 2024
Jnana Therapeutics, a clinical-stage biotechnology company leveraging its next-generation chemoproteomics platform to discover medicines for challenging-to-drug targets, today announced positive, statistically significant interim results from its ongoing clinical study of JNT-517 in individuals with phenylketonuria (PKU). JNT-517, a small molecule inhibitor of the phenylalanine (Phe) transporter SLC6A19, is being evaluated as a potential first-in-class oral treatment for PKU across all ages and genotypes. On the basis of these positive interim results, Jnana has adapted the Phase 1b trial design to support the potential for accelerated progression of JNT-517.
“There is an urgent need for an oral, safe, and efficacious therapy for the more than 60% of individuals with PKU not currently on therapy. Across the spectrum of mild to severe disease, our results demonstrate a robust, sustained reduction in blood Phe levels, the registrational endpoint for PKU, giving us high confidence in the path forward for JNT-517,” said George Vratsanos, M.D., Chief Medical Officer and Head of R&D at Jnana Therapeutics. “We are also encouraged by this validation of the power of our RAPID platform to discover small molecules with compelling clinical benefit against challenging-to-drug targets.”
JNT-517 is being studied in a randomized, double-blind, placebo-controlled trial in individuals with mild to severe PKU. Following a 28-day screening period focused predominantly on ensuring an average blood Phe level of >600µM, study participants were randomized with no run-in period to 75mg of JNT-517 twice daily (BID) or placebo.
The planned interim analysis was based on 13 participants, eight dosed with JNT-517 and five dosed with placebo over 28 days, and demonstrated the following results
JNT-517 led to a statistically significant (p=0.0019 vs. placebo) mean blood Phe reduction from baseline of 51%, measured per-protocol at day 28.
A high response rate was seen where seven of eight (88%) treated participants achieved >30% reduction in blood Phe from baseline; five of eight (63%) achieved >45% reduction; and two of eight (25%) achieved >65% reduction.
A robust response was seen across participants treated with JNT-517 irrespective of baseline blood Phe levels, which ranged from 593µM to 1,526µM with a mean of 1,124µM.
A rapid onset of effect was observed with significant blood Phe reduction achieved within seven days after commencing dosing, which was sustained through the full 28 days of dosing.
JNT-517 was safe and well tolerated with no serious adverse events and no clinically significant changes in laboratory parameters, consistent with the safety profile demonstrated in the Phase 1a healthy volunteer study.
"JNT-517 represents a completely new therapeutic approach that could transform the current treatment paradigm in PKU, in particular for individuals with severe, or classical, PKU where there is the highest unmet medical need,” said Cary O. Harding, M.D., study investigator and Professor of Molecular and Medical Genetics at Oregon Health and Science University School of Medicine. “I am encouraged by the clinical results to date and look forward to working with Jnana and the PKU community to continue to advance this program.”
Based on these interim results, Jnana has adapted the protocol of the ongoing trial to include dose exploration. Jnana expects topline data from the second dose cohort in mid-2024 and plans to submit full data from the two dose cohorts for presentation at a scientific meeting in the second half of 2024. Jnana anticipates the company will engage regulators in the second half of 2024 and seek to advance JNT-517 directly into a pivotal Phase 3 study in the first half of 2025.
JNT-517 Phase 1b Clinical Trial
The ongoing clinical program includes a randomized, double-blind, placebo-controlled trial evaluating the safety, tolerability, pharmacokinetics, and effect on blood and urinary Phe of JNT-517 dosed over a four-week period in individuals diagnosed with PKU. The study dosed its first participant with PKU in August 2023 and is enrolling individuals aged 18 to 65 at clinical sites in the United States and Australia. For more information about the study, please see clinicaltrials.gov (NCT05781399).
About JNT-517
JNT-517 is a selective small molecule inhibitor of the Phe transporter SLC6A19 that has the potential to be a first-in-class oral therapy used to treat any person with PKU, regardless of age or genotype. JNT-517 acts at a novel, cryptic allosteric site to block kidney reabsorption of Phe and offers a promising new approach to reduce blood Phe levels. The U.S. Food and Drug Administration granted JNT-517 Rare Pediatric Disease Designation in late 2022.
About PKU
PKU is a rare inherited metabolic disorder caused by a deficiency of the enzyme phenylalanine hydroxylase (PAH). This enzyme is required for the breakdown of phenylalanine (Phe), an amino acid found in all protein-containing foods. When PAH is deficient or defective, Phe accumulates to abnormally high levels in the blood. If left untreated, toxic levels of Phe in the blood can result in progressive and severe neurological impairment and neuropsychological complications. The SLC transporter SLC6A19 is responsible for kidney reabsorption of Phe back into the bloodstream, and the inhibition of SLC6A19 offers a novel, oral approach for the treatment of PKU by facilitating urinary excretion of excess Phe.
About Jnana Therapeutics
Jnana Therapeutics is a clinical-stage biotechnology company leveraging its next-generation RAPID chemoproteomics platform to discover medicines for highly validated, challenging-to-drug targets to treat diseases with high unmet needs. Jnana is focused on developing first- and best-in-class therapies to treat a wide range of diseases, including rare diseases and immune-mediated diseases. Jnana’s wholly owned lead program, JNT-517, which targets an allosteric site on the phenylalanine transporter SLC6A19, is a potential first-in-class oral approach for the treatment of PKU, a rare genetic metabolic disease. Located in Boston, Jnana brings together scientific leaders in small molecule drug discovery and development, a highly experienced management team, and the backing of leading life science investors Bain Capital Life Sciences, RA Capital Management, Polaris Partners, Versant Ventures, Avalon Ventures, Pfizer Ventures, and AbbVie Ventures.
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Industrial Impact
MOMA Therapeutics | January 04, 2024
MOMA Therapeutics, a biotechnology company focused on identifying and targeting highly dynamic, difficult to drug targets in cancer and other diseases, is pleased to announce a strategic collaboration and licensing agreement with Roche. This partnership provides Roche with access to MOMA’s proprietary KnowledgeBase platform for the identification and prosecution of a certain number of novel drug targets involved in promoting cancer cell growth and survival.
MOMA’s KnowledgeBase comprises integrated structure-function capabilities, advanced lead-finding technologies and computation-enabled lead optimization. It was built upon the concept that functionally related targets lacking sequence homology still possess three dimensional structural motifs that can be exploited to produce highly impactful therapies. To date, MOMA has utilized this bespoke platform to accelerate drug discovery in the ATPase target class, a class with a high number of genetically validated targets for which industry efforts to identify therapeutically viable drugs have been hampered by the extent of dynamic protein motion.
“Given its deep expertise and global footprint in oncology, Roche represents an ideal collaborator with whom to further advance the application of MOMA’s platform in a way that impacts patients’ lives. The vision for this collaboration was crafted jointly with Roche to enable each party to bring its strengths in pursuit of this shared goal. It also contributes to the long-term sustainability of MOMA’s core focus as we advance our rich pipeline of precision oncology programs to the clinic,” said Asit Parikh, M.D., Ph.D., chief executive officer of MOMA.
Through the collaboration, MOMA will receive $66 million as an upfront cash payment and is also eligible to receive discovery, development, and commercialization milestone payments potentially exceeding US$2 billion, as well as tiered royalties. MOMA will be primarily responsible for all activities for selected targets through to development candidate confirmation, whereas Roche will be responsible for IND-enabling activities and clinical development and commercialization. Additionally, if multiple collaboration assets reach pivotal clinical studies, MOMA will receive a right to co-fund late-stage development of one product in exchange for increased royalties in the US on this product.
“We are excited to join forces with MOMA, combining our leadership in oncology with MOMA’s deep expertise in drug discovery for difficult-to-drug and novel targets in oncology. The broader field of cancer dependencies is of high importance for Roche and we are looking forward to further deepening our knowledge and discovering novel targets involved in cancer cell growth and survival leveraging MOMA’s innovative platform,” said James Sabry, M.D., Ph.D., global head of pharma partnering, Roche.
“It is exciting to utilize our industry-leading knowledge in how to identify and drug highly dynamic proteins to deliver on a breadth of discovery programs in partnership with Roche,” added Peter Hammerman, M.D., Ph.D., chief scientific officer and head of development at MOMA. “Along with bringing two MOMA-owned high-impact programs to the clinic next year, we are making exciting progress towards our goal of addressing key unmet needs for patients living with advanced cancer.”
About MOMA Therapeutics
MOMA Therapeutics is committed to discovering the next generation of precision medicines by targeting highly dynamic proteins that underlie human disease. Bringing together seminal scientific advancements in biochemistry, biophysics, structural biology, chemistry, computation, and functional genomics, the company has established the KnowledgeBase platform to exploit a key vulnerability inherent to all dynamic proteins: their dependence on well-coordinated, stepwise changes in protein conformation. By focusing this platform on disease-causing targets, MOMA aims to develop high impact, precision medicines for patients with unmet medical needs. MOMA Therapeutics is a private company launched in 2020 with seasoned leadership, a highly specialized workforce with deep expertise in oncology discovery, world-class scientific founders, and financed by leading biotech investors.
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