A Drug-Tunable Gene Therapy for Broad-Spectrum Protection against Retinal Degeneration

Retinal degenerations are a large cluster of diseases characterized by the irreversible loss of light-sensitive photoreceptors that impairs the vision of 9.1 million people in the US. An attractive treatment option is to use gene therapy to deliver broad-spectrum neuroprotective factors. However, this approach has had limited clinical translation because of the inability to control transgene expression. To address this problem, we generated an adeno-associated virus vector named RPF2 that was engineered to express domains of leukemia inhibitory factor fused to the destabilization domain of bacterial dihydrofolate reductase. Fusion proteins containing the destabilization domain are degraded in mammalian cells but can be stabilized with the binding of the drug trimethoprim. Our data show that expression levels of RPF2 are tightly regulated by the dose of trimethoprim and can be reversed by trimethoprim withdrawal. We further show that stabilized RPF2 can protect photoreceptors and prevent blindness in treated mice. [Display omitted] Santiago et al. report the development of a drug-tunable neuroprotective factor named Retinal Protective Factor 2 (RPF2). RPF2 expression is tunable with the addition of a drug therapy and is reversible with drug withdrawal. RPF2 delivered by AAV in vivo is a potent neuroprotective factor for retinal photoreceptors.