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Chemically-defined and scalable culture system for intestinal stem cells derived from human intestinal organoids.

Ohman KwonHana LeeJae-Eun JungYe Seul SonSojeong JeonWon Dong YooNaeun SonKwang Bo JungEunho ChoiIn-Chul LeeHyung-Jun KwonChuna KimMi-Ok LeeHyun-Soo ChoDae-Soo KimMyung Jin Son
Published in: Nature communications (2024)
Three-dimensional human intestinal organoids (hIO) are widely used as a platform for biological and biomedical research. However, reproducibility and challenges for large-scale expansion limit their applicability. Here, we establish a human intestinal stem cell (ISC) culture method expanded under feeder-free and fully defined conditions through selective enrichment of ISC populations (ISC 3D-hIO ) within hIO derived from human pluripotent stem cells. The intrinsic self-organisation property of ISC 3D-hIO , combined with air-liquid interface culture in a minimally defined medium, forces ISC 3D-hIO to differentiate into the intestinal epithelium with cellular diversity, villus-like structure, and barrier integrity. Notably, ISC 3D-hIO is an ideal cell source for gene editing to study ISC biology and transplantation for intestinal diseases. We demonstrate the intestinal epithelium differentiated from ISC 3D-hIO as a model system to study severe acute respiratory syndrome coronavirus 2 viral infection. ISC 3D-hIO culture technology provides a biological tool for use in regenerative medicine and disease modelling.
Keyphrases
  • pluripotent stem cells
  • stem cells
  • endothelial cells
  • induced pluripotent stem cells
  • respiratory syndrome coronavirus
  • cell therapy
  • sars cov