Review
doi: 10.1016/j.coph.2021.02.004.
Epub 2021 Mar 11.
Metabolic regulation of tissue-resident memory CD8+ T cells
Affiliations
- PMID: 33714873
- PMCID: PMC8164981
- DOI: 10.1016/j.coph.2021.02.004
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Review
Metabolic regulation of tissue-resident memory CD8+ T cells
Curr Opin Pharmacol.
2021 Apr.
Abstract
Intracellular metabolic adaptations help define the function and homeostasis of memory CD8+ T cells. These cells, which promote protection against infections or cancer, undergo consecutive metabolic shifts, ultimately relying on mitochondrial-related pathways. Past CD8+ T cell metabolism studies focused on circulating memory cells, which are exclusive to secondary lymphoid organs or recirculate between lymphoid and non-lymphoid organs. Yet, now there is unequivocal evidence that memory CD8+ T cells reside in many non-lymphoid organs and mediate protective immunity in barrier tissues. The metabolic adaptations occurring in forming and established tissue-resident memory CD8+ T cells are currently subject of intense research. In this review, we discuss the latest breakthroughs on the transcriptional and protein control of tissue-resident memory CD8+ T cell metabolism.
Keywords: Bhlhe40; Memory CD8(+) T cells; Memory precursor; Mitochondria; P2RX7; T(RM) cells.
Copyright © 2021 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Conflict of interest statement
Nothing declared.
Figures
Bhlhe40 expression promotes the up-regulation of TRM-associated transcription factors like Runx3 and Notch1/2, and concomitantly is crucial for the engagement of the TCA/OXPHOS pathway, thus favoring mitochondrial function in TRM. Consequently, Bhlhe40+ TRM display enhanced mitochondrial fitness, effector function and ability to establish residency long-term. Unveiling a) which upstream factors support Bhlhe40 expression, with special attention to TGF-β, and b) whether Bhlhe40 specifically directs the formation of Blimp1+ effector-like TRM are subjects for future research.
The TRM mitochondrial metabolism is somewhat similar to that observed for circulating TCM. Both subsets are long-lived and rely on mitochondrial respiration via FAO for their homeostasis. Unlike TCM, which synthetize fatty acids through varied mechanisms, TRM mainly use exogenous fatty acids, internalized by FABP molecules (FABP4/5 in skin TRM). TCM and TRM also rely on P2RX7-mediated eATP sensing that controls their mitochondrial function and their long-term survival. In the case of TRM, P2RX7 action in mitochondria is to some extent intertwined with signals promoted by TGF-β. Defining how these signaling pathways are connected to promote TRM mitochondrial homeostasis will be determined in future studies.
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