The impact of timing and injury mode on induced neurogenesis in the adult mammalian retina

Stem Cell Reports. 2024 Feb 13;19(2):239-253. doi: 10.1016/j.stemcr.2023.12.010. Epub 2024 Jan 25.

Abstract

Regeneration of neurons has important implications for human health, and the retina provides an accessible system to study the potential of replacing neurons following injury. In previous work, we generated transgenic mice in which neurogenic transcription factors were expressed in Müller glia (MG) and showed that they stimulated neurogenesis following inner retinal damage. It was unknown, however, whether the timing or mode of injury mattered in this process. Here, we explored these parameters on induced neurogenesis from MG and show that MG expressing Ascl1 will generate new bipolar neurons with similar efficiency irrespective of injury mode or timing. However, MG that express Ascl1-Atoh1 produce a new type of retinal ganglion-like cell after outer retinal damage, which is absent with inner retinal damage. Our data suggest that although cell fate is primarily dictated by neurogenic transcription factors, the inflammatory state of MG relative to injury can influence the outcome of induced neurogenesis.

Keywords: Ascl1; Ascl1-Atoh1; Müller glia; NMDA; inflammation; injury mode; light-damage; neurogenesis; retina.

MeSH terms

  • Animals
  • Cell Proliferation / physiology
  • Ependymoglial Cells* / metabolism
  • Humans
  • Mammals
  • Mice
  • Mice, Transgenic
  • Neurogenesis / physiology
  • Neuroglia / metabolism
  • Retina* / metabolism
  • Retinal Ganglion Cells
  • Transcription Factors / metabolism

Substances

  • Transcription Factors