Taysha Gene Therapies, Inc. and UT Southwestern Medical Center Launch Innovation Fund to Accelerate Advancement of AAV Gene Therapies for Monogenic Diseases of the Central Nervous System
January 13, 2021 at 05:30 pm IST
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Taysha Gene Therapies, Inc. and UT Southwestern Medical Center (UTSW) announced the launch of an innovation fund to discover and develop novel gene therapy candidates and next-generation technologies for monogenic diseases of the CNS. This expanded partnership will support UTSW’s discovery efforts to facilitate the translation of promising discoveries from bench to clinic. Taysha will have an exclusive option on new programs and intellectual property associated with, and arising from, the research conducted under this agreement. A team of researchers from the gene therapy program at UT Southwestern will explore novel gene therapy targets in new disease areas and create next-generation gene therapy technology platforms to address some of the current limitations of this modality.
Taysha Gene Therapies Inc is a clinical-stage biotechnology company, which is focused on advancing adeno-associated virus (AAV)-based gene therapies for severe monogenic diseases of the central nervous system. The Companyâs lead clinical program, TSHA-102, is in development for the treatment of Rett syndrome, a rare neurodevelopmental disorder. The Company is evaluating TSHA-102 in the REVEALPhase I/II adolescent and adult clinical trial, which is a first-in-human, open-label, randomized, dose escalation and dose-expansion, multicenter study evaluating the safety and preliminary efficacy of TSHA-102 in female patients aged 12-years and older with Rett syndrome. It has acquired a worldwide right to a clinical-stage, intrathecally dosed AAV9 gene therapy program, TSHA-120, for the treatment of giant axonal neuropathy (GAN). It received orphan drug designation from the European Commission for TSHA-120 for the treatment of GAN.
Taysha Gene Therapies, Inc. and UT Southwestern Medical Center Launch Innovation Fund to Accelerate Advancement of AAV Gene Therapies for Monogenic Diseases of the Central Nervous System