Synaptic control of retinal ganglion cell survival and axon regeneration
Yuxuan Qiu, Qi Zhang, Jiahui Tang, Yunjie Cheng, Yuxin Wang, Zijie Wang, Xuehan Liu, Bing Zhang, Liyan Liu, Shilong Yu, Yangjiani Li, Zhe Liu, Fang Chai, Yehong Zhuo, Yiqing Li

TL;DR
This paper reviews how retinal synapses influence the survival and regeneration of retinal ganglion cells after injury, suggesting new strategies for treating vision loss.
Contribution
The paper highlights the novel role of synaptic communication in regulating retinal ganglion cell survival and regeneration after injury.
Findings
Retinal interneuron-to-RGC synaptic connections are structurally and molecularly dysregulated after injury.
Synaptic plasticity regulates RGC survival and regenerative capacity by orchestrating intrinsic repair programs.
The role of glial cells in transsynaptic dysregulation remains an unresolved question.
Abstract
Injury to retinal ganglion cell (RGC) axons in neurodegenerative conditions like glaucoma leads to irreversible vision loss. A major therapeutic challenge is promoting RGC survival and axon regeneration. Canonical research focused on intrinsic neuronal growth capacity and the inhibitory central nervous system (CNS) environment, but overlooking the role of retinal synaptic communication. This review summarizes emerging evidence that retinal interneuron-to-RGC synaptic connections are both structurally and molecularly dysregulated following RGC axon injury. Such synaptic plasticity critically regulates RGC survival and regenerative capacity, at least partly by orchestrating intrinsic repair programs. We then address two central unresolved questions: first, what are the specific molecular pathways that alter this interneuron-to-RGC signaling after injury, and second, how do glial cells…
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Taxonomy
TopicsNerve injury and regeneration · Retinal Development and Disorders · Axon Guidance and Neuronal Signaling
