Cell Reports (Apr 2024)

Derivation of functional thymic epithelial organoid lines from adult murine thymus

  • Sangho Lim,
  • Gijs J. F. van Son,
  • Ni Luh Wisma Eka Yanti,
  • Amanda Andersson-Rolf,
  • Sam Willemsen,
  • Jeroen Korving,
  • Hong-Gyun Lee,
  • Harry Begthel,
  • Hans Clevers

Journal volume & issue
Vol. 43, no. 4
p. 114019

Abstract

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Summary: Thymic epithelial cells (TECs) orchestrate T cell development by imposing positive and negative selection on thymocytes. Current studies on TEC biology are hampered by the absence of long-term ex vivo culture platforms, while the cells driving TEC self-renewal remain to be identified. Here, we generate long-term (>2 years) expandable 3D TEC organoids from the adult mouse thymus. For further analysis, we generated single and double FoxN1-P2A-Clover, Aire-P2A-tdTomato, and Cldn4-P2A-tdTomato reporter lines by CRISPR knockin. Single-cell analyses of expanding clonal organoids reveal cells with bipotent stem/progenitor phenotypes. These clonal organoids can be induced to express Foxn1 and to generate functional cortical- and Aire-expressing medullary-like TECs upon RANK ligand + retinoic acid treatment. TEC organoids support T cell development from immature thymocytes in vitro as well as in vivo upon transplantation into athymic nude mice. This organoid-based platform allows in vitro study of TEC biology and offers a potential strategy for ex vivo T cell development.

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