Abstract
Neurons are not regenerated in the adult mammalian retina. However, in non-mammalian vertebrates, specialized glial cells (Muller glia, MG) spontaneously generate neural progenitors, which go on to replace neurons after injury. We have recently developed strategies to stimulate regeneration of functional neurons in the adult mouse retina by over-expressing developmental transcription factors, including Ascl1, Atoh1, Islet1 and Pou4f2. We have found that over-expressing Ascl1 in MG in vivo, followed by injury and TSA, induces regeneration of functional retinal neurons in adult mice. Adding additional TFs, such as Atoh1, substantially increases the efficiency of neurogenesis from the MG, while combining other TFs with Ascl1 can alter the types of neurons that are regenerated after injury. Together our data show that we can considerably recapitulate in mice much of the regeneration that occurs naturally in fish.
Funding: Funding: NEI, FFB, Genentech, GVRI, Tenpoint