Abstract
Retinitis pigmentosa (RP) is a hereditary retinal degenerative disease that can lead to blindness. In RP, rod photoreceptors die first, followed by cone photoreceptors death due to unknown mechanisms. However, one clue for cone death concerns their metabolism. Early changes suggest that they do not have enough glucose, which normally fuels their metabolism. We sought to design adeno-associated virus (AAV)-based gene therapy to address their metabolic challenges and found that overexpressing Txnip is an effective gene therapy that extends cone survival and vision in three strains of RP mice. The Txnip-mediated rescue was found to be dependent upon lactate dehydrogenase b (Ldhb), which is required for lactate catabolism. Txnip also was found to improve mitochondrial health. Herein, we propose a model in which Txnip shifts cones from their normal reliance on glucose to enhanced utilization of lactate to benefit cones in a condition where the glucose supply is limiting.
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