Literature DB >> 27293185

Mitochondrial Dynamics Controls T Cell Fate through Metabolic Programming.

Michael D Buck1, David O'Sullivan2, Ramon I Klein Geltink2, Jonathan D Curtis2, Chih-Hao Chang3, David E Sanin2, Jing Qiu1, Oliver Kretz4, Daniel Braas5, Gerritje J W van der Windt6, Qiongyu Chen3, Stanley Ching-Cheng Huang3, Christina M O'Neill3, Brian T Edelson3, Edward J Pearce7, Hiromi Sesaki8, Tobias B Huber9, Angelika S Rambold10, Erika L Pearce11.   

Abstract

Activated effector T (TE) cells augment anabolic pathways of metabolism, such as aerobic glycolysis, while memory T (TM) cells engage catabolic pathways, like fatty acid oxidation (FAO). However, signals that drive these differences remain unclear. Mitochondria are metabolic organelles that actively transform their ultrastructure. Therefore, we questioned whether mitochondrial dynamics controls T cell metabolism. We show that TE cells have punctate mitochondria, while TM cells maintain fused networks. The fusion protein Opa1 is required for TM, but not TE cells after infection, and enforcing fusion in TE cells imposes TM cell characteristics and enhances antitumor function. Our data suggest that, by altering cristae morphology, fusion in TM cells configures electron transport chain (ETC) complex associations favoring oxidative phosphorylation (OXPHOS) and FAO, while fission in TE cells leads to cristae expansion, reducing ETC efficiency and promoting aerobic glycolysis. Thus, mitochondrial remodeling is a signaling mechanism that instructs T cell metabolic programming.
Copyright © 2016 Elsevier Inc. All rights reserved.

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Year:  2016        PMID: 27293185      PMCID: PMC4974356          DOI: 10.1016/j.cell.2016.05.035

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  62 in total

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