CNGB3

Mutations in the CNGB3 gene account for >50% of all known cases of achromatopsia. Although of early onset, its stationary character and the potential for rapid assessment of restoration of retinal function following therapy renders achromatopsia a very attractive candidate for gene therapy. Here we tested the efficacy of an rAAV2/8 vector containing a human cone arrestin promoter and a human CNGB3 cDNA in CNGB3 deficient mice. Following subretinal delivery of the vector, CNGB3 was detected in both M- and S-cones and resulted in increased levels of CNGA3, increased cone density and survival, improved cone outer segment structure and normal subcellular compartmentalization of cone opsins. Therapy also resulted in long-term improvement of retinal function, with restoration of cone ERG amplitudes of up to 90% of wild-type and a significant improvement in visual acuity. Remarkably, successful restoration of cone function was observed even when treatment was initiated at 6 months of age; however, restoration of normal visual acuity was only possible in younger animals (e.g. 2-4 weeks old). This study represents achievement of the most substantial restoration of visual function reported to date in an animal model of achromatopsia using a human gene construct, which has the potential to be utilized in clinical trials.

MeSH Terms

• Aging
• Animals
• Arrestins
• Cell Survival
• Color Vision Defects
• Cyclic Nucleotide-Gated Cation Channels
• Disease Models, Animal
• Gene Transfer Techniques
• Genetic Therapy
• Genetic Vectors
• Humans
• Injections
• Mice
• Mice, Transgenic
• Opsins
• Organ Specificity
• Promoter Regions, Genetic
• Protein Transport
• Retina
• Retinal Cone Photoreceptor Cells
• Time Factors
• Vision, Ocular
• Visual Acuity