Viral-mediated Oct4 overexpression and inhibition of Notch signaling synergistically induce neurogenic competence in mammalian Muller glia.

Nguyet Le, Sherine Awad, Isabella Palazzo, Thanh Hoang, Seth Blackshaw
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Abstract

Retinal Muller glia in cold-blooded vertebrates can reprogram into neurogenic progenitors to replace neurons lost to injury, but mammals lack this ability. While recent studies have shown that transgenic overexpression of neurogenic bHLH factors and glial-specific disruption of NFI family transcription factors and Notch signaling induce neurogenic competence in mammalian Muller glia, induction of neurogenesis in wildtype glia has thus far proven elusive. Here we report that viral overexpression of the pluripotency factor Oct4 (Pou5f1) induces transdifferentiation of wildtype mouse Muller glia into bipolar neurons, and stimulates this process synergistically in parallel with Notch loss of function. Single cell multiomic analysis shows that Oct4 overexpression leads to widespread changes in gene expression and chromatin accessibility, inducing activity of both the neurogenic transcription factor Rfx4 and the Yamanaka factors Sox2 and Klf4. This study demonstrates that viral overexpression of Oct4 induces neurogenic competence in wildtype retinal Muller glia, identifying mechanisms that could be used in cell-based therapies for treating retinal dystrophies.
病毒介导的 Oct4 过表达和 Notch 信号传导抑制可协同诱导哺乳动物穆勒胶质细胞的神经源能力。
冷血脊椎动物的视网膜穆勒神经胶质细胞可以重编程为神经原祖细胞,以替代因损伤而丢失的神经元,但哺乳动物缺乏这种能力。最近的研究表明,转基因过表达神经源性 bHLH 因子和神经胶质特异性破坏 NFI 家族转录因子和 Notch 信号转导可诱导哺乳动物穆勒神经胶质细胞的神经源能力,但迄今为止,野生型神经胶质细胞的神经发生诱导仍被证明是难以实现的。在这里,我们报告了病毒过表达多能性因子 Oct4 (Pou5f1) 能诱导野生型小鼠 Muller 胶质向双极神经元的转分化,并在 Notch 功能缺失的同时协同刺激这一过程。单细胞多组学分析表明,Oct4 的过表达会导致基因表达和染色质可及性的广泛变化,诱导神经源转录因子 Rfx4 以及山中因子 Sox2 和 Klf4 的活性。这项研究证明,病毒过表达Oct4可诱导野生型视网膜穆勒胶质细胞的神经源能力,从而确定了可用于治疗视网膜营养不良症的细胞疗法的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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