生物
丁酸盐
CD8型
细胞毒性T细胞
细胞生物学
氧化磷酸化
抗原
生物化学
免疫学
发酵
体外
作者
Annabell Bachem,Christina Makhlouf,Katrina J. Binger,David P. De Souza,Dedreia Tull,Katharina Hochheiser,Paul G. Whitney,Daniel Fernandez‐Ruiz,Sabrina Dähling,Wolfgang Kastenmüller,Johanna Jönsson,Elise Gressier,Andrew M. Lew,Carolina Perdomo,Andreas Kupz,William A. Figgett,Fabienne Mackay,Moshe Oleshansky,Brendan E. Russ,Ian A. Parish
出处
期刊:Immunity
[Cell Press]
日期:2019-07-01
卷期号:51 (2): 285-297.e5
被引量:639
标识
DOI:10.1016/j.immuni.2019.06.002
摘要
Interactions with the microbiota influence many aspects of immunity, including immune cell development, differentiation, and function. Here, we examined the impact of the microbiota on CD8+ T cell memory. Antigen-activated CD8+ T cells transferred into germ-free mice failed to transition into long-lived memory cells and had transcriptional impairments in core genes associated with oxidative metabolism. The microbiota-derived short-chain fatty acid (SCFA) butyrate promoted cellular metabolism, enhanced memory potential of activated CD8+ T cells, and SCFAs were required for optimal recall responses upon antigen re-encounter. Mechanistic experiments revealed that butyrate uncoupled the tricarboxylic acid cycle from glycolytic input in CD8+ T cells, which allowed preferential fueling of oxidative phosphorylation through sustained glutamine utilization and fatty acid catabolism. Our findings reveal a role for the microbiota in promoting CD8+ T cell long-term survival as memory cells and suggest that microbial metabolites guide the metabolic rewiring of activated CD8+ T cells to enable this transition.
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