Scientific Reports (Feb 2021)

Direct reprogramming of oligodendrocyte precursor cells into GABAergic inhibitory neurons by a single homeodomain transcription factor Dlx2

  • Linda L. Boshans,
  • Heun Soh,
  • William M. Wood,
  • Timothy M. Nolan,
  • Ion I. Mandoiu,
  • Yuchio Yanagawa,
  • Anastasios V. Tzingounis,
  • Akiko Nishiyama

DOI
https://doi.org/10.1038/s41598-021-82931-9
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 15

Abstract

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Abstract Oligodendrocyte precursor cells (NG2 glia) are uniformly distributed proliferative cells in the mammalian central nervous system and generate myelinating oligodendrocytes throughout life. A subpopulation of OPCs in the neocortex arises from progenitor cells in the embryonic ganglionic eminences that also produce inhibitory neurons. The neuronal fate of some progenitor cells is sealed before birth as they become committed to the oligodendrocyte lineage, marked by sustained expression of the oligodendrocyte transcription factor Olig2, which represses the interneuron transcription factor Dlx2. Here we show that misexpression of Dlx2 alone in postnatal mouse OPCs caused them to switch their fate to GABAergic neurons within 2 days by downregulating Olig2 and upregulating a network of inhibitory neuron transcripts. After two weeks, some OPC-derived neurons generated trains of action potentials and formed clusters of GABAergic synaptic proteins. Our study revealed that the developmental molecular logic can be applied to promote neuronal reprogramming from OPCs.