生物
免疫系统
细胞生物学
肺
T细胞
细胞
免疫学
癌症研究
免疫
病毒学
T淋巴细胞
细胞毒性T细胞
计算生物学
先天免疫系统
分子生物学
信号转导
作者
Jean de Lima,Nivedya Swarnalekha,Claire E. Depew,Ewelina M. Bartoszek,Ludivine C. Litzler,Mara Esposito,M Erber,Tiphaine M.N. Camarasa,Lorenzo Iseppi,Marco Künzli,Anukul T. Shenoy,Ines Lammens,Stijn Vanhee,Bart N. Lambrecht,Ananda W. Goldrath,Jie Sun,David Schreiner,Carolyn G. King
出处
期刊:Immunity
[Cell Press]
日期:2026-03-07
卷期号:59 (4): 1092-1106.e6
标识
DOI:10.1016/j.immuni.2026.01.023
摘要
Summary
A deeper understanding of how tissue-localized immune cells arise and function is critical for developing mucosal vaccines. Currently, there are no murine models that specifically target tissue T cells while leaving their lymphoid counterparts untouched. Here, we leverage the observation that during influenza infection, HIF-1α regulatory activity is higher in the lung compared with lymph node CD4+ T cells. Inducible deletion of Hif1a in CD4+ T cells, at the onset of its activity in the lung, reduces the tissue-resident T cell compartment with minimal impact on peripheral immunity. HIF-1α-active CD4+ T cells occupy the border of tertiary lymphoid structures, where they coordinate an interleukin 21 (IL-21)-dependent network of spatially colocalized immune cells including macrophages, natural killer (NK) cells, and immunoglobulin A-positive (IgA+) B cells. A similar HIF-1α-dependent network is engaged in a lung adenocarcinoma model, highlighting a broader role for HIF-1α+ CD4+ T cells in integrating protective immunity during infection and cancer.
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