iScience (Jun 2023)

Lens regeneration in situ using hESCs-derived cells —similar to natural lens

  • Xinyi Chen,
  • Hanle Wang,
  • Hui Chen,
  • Ling Ren,
  • Wei Wang,
  • Jingjie Xu,
  • Chenqi Luo,
  • Peike Hu,
  • Qiuli Fu,
  • Ke Yao

Journal volume & issue
Vol. 26, no. 6
p. 106921

Abstract

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Summary: Lens itself has limited regeneration functionality, thus we aimed to create regenerated lens with biological function to treat cataracts rather than the intraocular lens used in cataract surgery. We induced exogenous human embryonic stem cells to directionally differentiate into lens fate like cells in vitro, mixed these cells with hyaluronate, and then implanted the mixture into lens capsule to regenerate in vivo. We successfully achieved near-complete lens regeneration, and the thickness of the regenerated lens reached 85% of the contralateral eye, showing the characteristics of biconvex shape, transparency, and a thickness and diopter close to that of natural lenses. Meanwhile, the participation of Wnt/PCP pathway in lens regeneration was verified. The regenerated lens in this study was the most transparent, thickest, and most similar to the original natural lens that has thus far been reported. Overall, these findings offer a new therapeutic strategy for cataracts and other lens diseases.

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