Molecular Therapy: Methods & Clinical Development (Sep 2023)

Starburst amacrine cells amplify optogenetic visual restoration through gap junctions

  • Yusaku Katada,
  • Hiromitsu Kunimi,
  • Naho Serizawa,
  • Deokho Lee,
  • Kenta Kobayashi,
  • Kazuno Negishi,
  • Hideyuki Okano,
  • Kenji F. Tanaka,
  • Kazuo Tsubota,
  • Toshihide Kurihara

Journal volume & issue
Vol. 30
pp. 1 – 13

Abstract

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Ectopic induction of optogenetic actuators, such as channelrhodopsin, is a promising approach to restoring vision in the degenerating retina. However, the cell type-specific response of ectopic photoreception has not been well understood. There are limits to obtaining efficient gene expression in a specifically targeted cell population by a transgenic approach. In the present study, we established a murine model with high efficiency of gene induction to retinal ganglion cells (RGCs) and amacrine cells using an improved tetracycline transactivator-operator bipartite system (KENGE-tet system). To investigate the cell type-specific visual restorative effect, we expressed the channelrhodopsin gene into RGCs and amacrine cells using the KENGE-tet system. As a result, enhancement in the visual restorative effect was observed to RGCs and starburst amacrine cells. In conclusion, a photoresponse from amacrine cells may enhance the maintained response of RGCs and further increase or improve the visual restorative effect.

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