黏膜相关恒定T细胞（MAIT细胞）的可塑性能够实现功能性适应，从而驱动抗菌免疫保护。

MAIT cell plasticity enables functional adaptation that drives antibacterial immune protection.

作者信息

Wang Huimeng, Souter Michael N T, de Lima Moreira Marcela, Li Shihan, Zhou Yuchen, Nelson Adam G, Yu Jinhan, Meehan Lucy J, Meehan Bronwyn S, Eckle Sidonia B G, Lee Hyun Jae, Schröder Jan, Haque Ashraful, Mak Jeffrey Y W, Fairlie David P, McCluskey James, Wang Zhongfang, Chen Zhenjun, Corbett Alexandra J

机构信息

State Key Laboratory of Respiratory Disease, Guangzhou Institute of Respiratory Disease, Guangzhou Medical University, Guangzhou, China.

Department of Immunology and Microbiology, University of Melbourne at the Peter Doherty Institute for Infection and Immunity, Melbourne, Australia.

出版信息

Sci Immunol. 2024 Dec 6;9(102):eadp9841. doi: 10.1126/sciimmunol.adp9841.

DOI:10.1126/sciimmunol.adp9841

PMID:39642244

Abstract

Mucosal-associated invariant T (MAIT) cells are known for their rapid effector functions and antibacterial immune protection. Here, we define the plasticity of interferon-γ (IFN-γ)-producing MAIT1 and interleukin-17A (IL-17A)-producing MAIT17 cell subsets in vivo. Whereas T-bet MAIT1 cells remained stable in all experimental settings, after adoptive transfer or acute or infection, RORγt MAIT17 cells could undergo phenotypic and functional conversion into both RORγtT-bet MAIT1/17 and RORγtT-bet MAIT1 cells. This plasticity ensured that MAIT17 cells played a dominant role in generating antibacterial MAIT1 responses in mucosal tissues. Single-cell transcriptomics revealed that MAIT17-derived MAIT1 cells were distinct from canonical MAIT1 cells yet could migrate out of mucosal tissues to contribute to the global MAIT1 pool in subsequent systemic infections. Human IL-17A-secreting MAIT cells also showed similar functional plasticity. Our findings have broad implications for understanding the role of MAIT cells in combatting infections and their potential utility in MAIT cell-targeted vaccines.

摘要

黏膜相关恒定T（MAIT）细胞以其快速的效应功能和抗菌免疫保护而闻名。在此，我们定义了体内产生干扰素-γ（IFN-γ）的MAIT1细胞亚群和产生白细胞介素-17A（IL-17A）的MAIT17细胞亚群的可塑性。虽然T-bet MAIT1细胞在所有实验条件下都保持稳定，但在过继转移或急性感染后，RORγt MAIT17细胞可发生表型和功能转化，变为RORγtT-bet MAIT1/17细胞和RORγtT-bet MAIT1细胞。这种可塑性确保了MAIT17细胞在黏膜组织中产生抗菌MAIT1反应中发挥主导作用。单细胞转录组学显示，MAIT17来源的MAIT1细胞不同于典型的MAIT1细胞，但可从黏膜组织迁移出来，在随后的全身感染中为整体MAIT1库做出贡献。分泌人IL-17A的MAIT细胞也表现出类似的功能可塑性。我们的发现对于理解MAIT细胞在对抗感染中的作用及其在MAIT细胞靶向疫苗中的潜在应用具有广泛意义。

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黏膜相关恒定T细胞（MAIT细胞）的可塑性能够实现功能性适应，从而驱动抗菌免疫保护。

MAIT cell plasticity enables functional adaptation that drives antibacterial immune protection.

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