Targeting memory T cell metabolism to improve immunity
Mauro Corrado, Erika L. Pearce
Mauro Corrado, Erika L. Pearce
Published January 4, 2022
Citation Information: J Clin Invest. 2022;132(1):e148546. https://doi.org/10.1172/JCI148546.
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Review Series

Targeting memory T cell metabolism to improve immunity

Abstract

Vaccination affords protection from disease by activating pathogen-specific immune cells and facilitating the development of persistent immunologic memory toward the vaccine-specific pathogen. Current vaccine regimens are often based on the efficiency of the acute immune response, and not necessarily on the generation of memory cells, in part because the mechanisms underlying the development of efficient immune memory remain incompletely understood. This Review describes recent advances in defining memory T cell metabolism and how metabolism of these cells might be altered in patients affected by mitochondrial diseases or metabolic syndrome, who show higher susceptibility to recurrent infections and higher rates of vaccine failure. It discusses how this new understanding could add to the way we think about immunologic memory, vaccine development, and cancer immunotherapy.

Authors

Mauro Corrado, Erika L. Pearce

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Figure 2

Metabolic features of different memory T cell subsets.

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Metabolic features of different memory T cell subsets. Different Tm cell...
Different Tm cell subsets preferentially use different substrates. Although they mainly rely on FAO for their energy demands, Tcm and Trm cells differ in the substrate of choice. Ex vivo Tcm cells and in vitro–generated IL-15–cultured Tcm cells engage an apparently futile cycle with the uptake of glucose used to generate fatty acids that are subsequently burned by FAO. These Tcm cells take up a lower amount of fatty acid compared with Teff or Trm cells and can even survive in a lipid-depleted medium (75). Conversely, Trm cells are able to acquire a greater amount of fatty acids directly from the microenvironment. Tem cells are relatively more metabolically active, as they are able to use multiple substrates to fuel glycolysis and OXPHOS.