Coave Therapeutics aims to move its lead gene therapy program, CTx-PDE6b, for a form of retinitis pigmentosa (RP) into a pivotal trial in 2025 on the back of a phase I/II study, which uncovered a preliminary efficacy signal in one patient subgroup.
With overuse of opioids – the standard of care for many chronic pain cases – becoming something of an epidemic in the U.S., the availability of an alternative, non-opioid analgesic is a big draw. Established in 2021, Adolore Biotherapeutics Inc. is one company that could provide the answer, with its locally and long-acting gene therapies potentially providing a breakthrough that “knocks everybody’s socks off.”
In its bid to become, as Chairman and CEO David Hallal said, the “world’s most indispensable cell and gene therapy technology company,” Elevatebio LLC disclosed a $401 million series D round with support from new and existing investors. At the same time, the company’s Life Edit Therapeutics Inc. affiliate inked a potential billion-dollar collaboration focused on gene editing therapies.
Word from Immix Biopharma Inc. of updated data due with NXC-201 brought to the forefront an ongoing push by drug developers to come up with a treatment for AL amyloidosis. Immix has the only CAR T therapy in the works for the disease, and the principal investigator in the Nexicart-1 phase Ib/IIa effort is slated to speak May 19 during the annual meeting of the American Society of Gene & Cell Therapy.
The most ambitious objective of any treatment is to eradicate the disease, acting on its origin to cure it instead of treating its symptoms. This is the purpose of the gene therapy against type 2 diabetes (T2D) and obesity that Fractyl Health Inc. is developing. Scientists from the Lexington, Mass.-based company have designed a strategy based on glucagon-like peptide-1 (GLP-1) to transform pancreatic cells and reverse the disease.
Sarepta Therapeutics Inc.’s balloting March 12 from the U.S. FDA’s Cellular, Tissue and Gene Therapies Advisory Committee (OTAT) in favor of gene transfer therapy SRP-9001 (delandistrogene moxeparvovec) in Duchenne muscular dystrophy (DMD) had Wall Street mulling the odds for others in the space.
Ray Therapeutics Inc.’s upsized and oversubscribed $100 million series A financing will support the firm’s ongoing efforts with optogenetics, an approach that deploys adeno-associated virus (AAV) gene therapy to deliver a light-sensitive, highly bioengineered protein found in nature to retinal cells.
The debate over Sarepta Therapeutics Inc.’s gene transfer therapy, SRP-9001 (delandistrogene moxeparvovec), in Duchenne muscular dystrophy (DMD) proved as thorny as expected during a closely watched meeting of the U.S. FDA’s Cellular, Tissue and Gene Therapies Advisory Committee. Panelists voted on a single question: “Do the overall considerations of benefit and risk, taking into account the existing uncertainties, support accelerated approval of SRP-9001, using as a surrogate endpoint expression of Sarepta’s microdystrophin at week 12 after administration, for the treatment of ambulatory patients with DMD with a confirmed mutation in the DMD gene?” Balloting turned out 8 yes, 6 no.
When it comes to CAR T therapies, South Korea is trailing behind the U.S. and China, but the South Korean government sees cell and gene therapies as a space where the country can draw international investors, speakers said during the Bio Korea 2023 conference in Seoul on May 10.
How grave they might be remains unknown, but regulatory questions have surfaced in briefing documents related to the soon-to-happen panel meeting on Sarepta Therapeutics Inc.’s gene transfer therapy delandistrogene moxeparvovec in Duchenne muscular dystrophy (DMD). The U.S. FDA’s Cellular, Tissue and Gene Therapies Advisory Committee will meet May 12 to discuss the compound, also known as SRP-9001.
RSS
