|Gene therapy for inherited severe photoreceptor diseases
Domaine: Cooperation Health
Durée: 01.11.2008 – 31.10.2011
Budget total: 2.970.000 EUR
Budget Fondation Asile des aveugles: 776.400 EUR
The retina represents the visual sensory receptor of the nervous system (CNS). Inherited diseases like Retintitis Pigmentosa (RP) and Leber Congenital Amaurosis (LCA), for which no therapies are available, are due to mutations in genes preferentially expressed in the photoreceptor cells of the retina. Vectors derived from the adeno-associated virus (AAV) efficiently transduce the retina of animal models. AAV-mediated gene transfer reverts retinal pigment epithelium (RPE) defects and the safety of this strategy is being tested for the first time in humans by an AAVEYE partner.
However, approaches to correct photoreceptor-specific diseases are inefficient. The objective of the AAVEYE consortium is to develop state-of-the art gene transfer to photoreceptors in the retina, and to provide pre-clinical proof-of-concept of gene therapy for severe blinding retinal photoreceptor diseases to be transferred from bench to bedside.
AAVEYE, which uniquely combines leading European scientists in the fields of: AAV-mediated gene transfer to the retina, elucidation of the pathogenesis of photoreceptor degeneration and design of molecular diagnostics for inherited retinal diseases, will accomplish this through:
- development of AAV-based long-term and safe gene transfer to photoreceptors through combinations of endogenous promoters and AAV serotypes.
- assessment of the impact of AAV-mediated photoreceptor transduction on rescue of visual function in animal models of severe RP and LCA.
- evaluation of the efficacy of combination of gene replacement with adjuvant molecules on photoreceptor survival.
- characterization of patients with severe inherited photoreceptor diseases to move from bench to bedside the gene therapies strategies tested.
The results of this proposal will provide the knowledge and validation to further develop novel AAV-mediated therapeutic approaches with a broad potential application in the retina and central nervous system.