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The transcriptional cofactor Tle3 reciprocally controls effector and central memory CD8 + T cell fates.

Xin ZhaoWei HuSung Rye ParkShaoqi ZhuSheng'en Shawn HuChongzhi ZangWeiqun PengQiang ShanHai-Hui Xue
Published in: Nature immunology (2024)
Antigen-experienced CD8 + T cells form effector and central memory T cells (T EM and T CM cells, respectively); however, the mechanism(s) controlling their lineage plasticity remains incompletely understood. Here we show that the transcription cofactor Tle3 critically regulates T EM and T CM cell fates and lineage stability through dynamic redistribution in antigen-responding CD8 + T cell genome. Genetic ablation of Tle3 promoted CD8 + T CM cell formation at the expense of CD8 + T EM cells. Lineage tracing showed that Tle3-deficient CD8 + T EM cells underwent accelerated conversion into CD8 + T CM cells while retaining robust recall capacity. Tle3 acted as a coactivator for Tbet to increase chromatin opening at CD8 + T EM cell-characteristic sites and to activate CD8 + T EM cell signature gene transcription, while engaging Runx3 and Tcf1 to limit CD8 + T CM cell-characteristic molecular features. Thus, Tle3 integrated functions of multiple transcription factors to guard lineage fidelity of CD8 + T EM cells, and manipulation of Tle3 activity could favor CD8 + T CM cell production.
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