Rapamycin inhibited photoreceptor necroptosis and protected the retina by activation of autophagy in experimental retinal detachment.

Purpose: After experimental retinal detachment (RD), the applications of caspase inhibitor z-vad-fmk (a pan-caspase inhibitor) could inhibit apoptosis, but increased receptor interacting protein (RIP)-mediated necroptosis. In this study, we investigated whether rapamycin could inhibit necroptosis and cooperate with z-vad-fmk to protect the retina after RD. Methods: RD animal models were established in Sprague-Dawley rats by subretinal injection of sodium hyaluronate and treated with subretinal injections of z-vad-fmk or z-vad-fmk combined with rapamycin. On day 3 after RD, retinas were collected and analyzed by transmission electron microscopy (TEM), ROS assay, and western blot (for beclin-1, LC-3, RIP-1, AIF). On day 7 after RD, retinas were observed by H&E staining. Vision-dependent behavior of rats was tested by the modified Morris water maze. Results: TEM and H&E staining indicated that rapamycin combined with z-vad-fmk could reduce photoreceptor necrosis and preserve the ONL thickness after RD. The modified Morris water maze test showed that vision-dependent behavior was also significantly improved in the rapamycin + z-vad-fmk group.Western Blotting results demonstrated that rapamycin promoted the activation of autophagy by promoting beclin-1 and LC-3 induction and inhibited z-vad-fmk-induced necroptosis by inhibiting RIP-1 expression. In addition, rapamycin could also inhibit ROS production and AIF release. Conclusions: These findings indicated that rapamycin is a promising therapeutic agent that inhibits z-VAD-induced necroptosis, and protects photoreceptors and improves functional outcome in combination with z-vad-fmk.