Linking YAP to Müller Glia Quiescence Exit in the Degenerative Retina.

Contrasting with fish or amphibian, retinal regeneration from Müller glia is largely limited in mammals. In our quest toward the identification of molecular cues that may boost their stemness potential, we investigated the involvement of the Hippo pathway effector YAP (Yes-associated protein), which is upregulated in Müller cells following retinal injury. Conditional Yap deletion in mouse Müller cells prevents cell-cycle gene upregulation that normally accompanies reactive gliosis upon photoreceptor cell death. We further show that, in Xenopus , a species endowed with efficient regenerative capacity, YAP is required for their injury-dependent proliferative response. In the mouse retina, where Müller cells do not spontaneously proliferate, YAP overactivation is sufficient to induce their reprogramming into highly proliferative cells. Overall, we unravel a pivotal role for YAP in tuning Müller cell proliferative response to injury and highlight a YAP-EGFR (epidermal growth factor receptor) axis by which Müller cells exit their quiescence state, a critical step toward regeneration. • YAP is required for Xenopus Müller glia proliferation in response to injury • YAP is required for mouse Müller glia exit from quiescence upon degeneration • YAP5SA reprograms mouse Müller glia into highly proliferative cells • YAP functionally interacts with EGFR signaling in Müller cells While fish and amphibian Müller cells behave as retinal stem cells upon injury, their regenerative potential is limited in mammals. Hamon et al. show that YAP is required for their cell-cycle re-entry in Xenopus and is sufficient in mouse to awake them from quiescence and trigger their proliferative response. [ABSTRACT FROM AUTHOR]