Vision Recovery and Connectivity by Fetal Retinal Sheet Transplantation in an Immunodeficient Retinal Degenerate Rat Model.

Diseases affecting the light-sensing cells in the retina (photoreceptors) affect millions of people. Although there are several treatments in clinical trials to delay vision loss in early stages of retinal degeneration (RD), there are currently no treatment options available for more progressed stages. This study investigated retinal progenitor sheet transplants in a new rat model of RD with a defective immune system that do not reject foreign cells (RD nude rats). These rats received transplants at one month of age when they would turn blind. Rats expressing a specific marker in all of their cells (human placental alkaline phosphatase) were used to provide donor tissue for retinal progenitor sheet transplants. The eyes of transplanted rats were imaged in vivo using optical coherence tomography (OCT) which showed the placement and development of the transplants in the subretinal space over time. Different methods were used to test whether the transplants could improve visual function: tests of visual acuity (optokinetic testing how rats can discriminate moving black and white stripes), and electrical responses to light from the cornea (electroretinogram = ERG) and the brain (superior colliculus = SC). In optokinetic testing, rats with retinal sheet transplants had improved visual acuity compared to RD rats without transplants or with sham surgery. No ERG responses could be recorded from RD nude rats with or without transplants. On the other hand, transplanted rats exhibited robust responses in the superior colliculus to light (as tested up to 7.5 month after transplantation) whereas age-matched control RD nude rats had no responses. Responsive areas in the brain corresponded to the placement of the transplant in the host retina. The quality of visual responses correlated with transplant organization and placement. Analysis of the transplants showed development of photoreceptors and other retinal cells in layers, and integration with the host retina. In summary, this study provides proof of concept that retinal progenitor sheet transplants integrate into the RD recipients’ retina and recover significant visual function.