Insights on the Regeneration Potential of Muller Glia in the Mammalian Retina

Muller glia, the major glial cell types in the retina, maintain retinal homeostasis and provide structural support to retinal photoreceptors. They also possess regenerative potential that might be used for retinal repair in response to injury or disease. In teleost fish (such as zebrafish), the Muller glia response to injury involves reprogramming events that result in a population of proliferative neural progenitors that can regenerate the injured retina. Recent studies have revealed several important mechanisms for the regenerative capacity of Muller glia in fish, which may shed more light on the mechanisms of Muller glia reprogramming and regeneration in mammals. Mammalian Muller glia can adopt stem cell characteristics, and in response to special conditions, be persuaded to proliferate and regenerate, although their native regeneration potential is limited. In this review, we consider the work to date revealing the regenerative potential of the mammalian Muller glia and discuss whether they are a potential source for cell regeneration therapy in humans.

Automated summary

Muller glia play crucial roles in maintaining retinal homeostasis and have regenerative potential in fish and mammals. While they can adopt stem cell characteristics in mammals, their native regeneration potential is limited. Further studies are needed to explore the potential of Muller glia as a source for cell regeneration therapy in humans.