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Functionally diverse thymic medullary epithelial cells interplay to direct central tolerance

Ushio Aya, Mami Matsuda‐Lennikov, Felix Kalle-Youngoue, Akihide Shimizu, Abdalla Abdelmaksoud, Michael C. Kelly, Naozumi Ishimaru, Yousuke Takahama

2024Cell Reports18 citationsDOIOpen Access PDF

Abstract

Medullary thymic epithelial cells (mTECs) are essential for the establishment of self-tolerance in T cells. Promiscuous gene expression by a subpopulation of mTECs regulated by the nuclear protein Aire contributes to the display of self-genomic products to newly generated T cells. Recent reports have highlighted additional self-antigen-displaying mTEC subpopulations, namely Fezf2-expressing mTECs and a mosaic of self-mimetic mTECs including thymic tuft cells. In addition, a functionally different subset of mTECs produces chemokine CCL21, which attracts developing thymocytes to the medullary region. Here, we report that CCL21 + mTECs and Aire + mTECs non-redundantly cooperate to direct self-tolerance to prevent autoimmune pathology by optimizing the deletion of self-reactive T cells and the generation of regulatory T cells. We also detect cooperation for self-tolerance between Aire and Fezf2, the latter of which unexpectedly regulates thymic tuft cells. Our results indicate an indispensable interplay among functionally diverse mTECs for the establishment of central self-tolerance.

Topics & Concepts

Medullary cavityCentral toleranceCell biologyBiologyImmunologyImmune toleranceAnatomyImmune systemCircadian rhythm and melatoninLymphatic System and DiseasesNeonatal Respiratory Health Research