Transforming Growth Factor-β-regulated MTOR Activity Preserves Cellular Metabolism to Maintain Long-term T cell Responses in Chronic Infection

Overview

Journal Immunity

Publisher Cell Press

Specialty Allergy & Immunology

Date 2021 Jul 7

PMID 34233154

Citations 62

Authors

Sarah S Gabriel

Carlson Tsui

David Chisanga

Flora Weber

Manuela Llano-Leon

Patrick M Gubser

Laurent Bartholin

Fernando Souza-Fonseca-Guimaraes

Nicholas D Huntington

Wei Shi

Daniel T Utzschneider

Axel Kallies

Affiliations

Soon will be listed here.

Abstract

Antigen-specific CD8 T cells in chronic viral infections and tumors functionally deteriorate, a process known as exhaustion. Exhausted T cells are sustained by precursors of exhausted (Tpex) cells that self-renew while continuously generating exhausted effector (Tex) cells. However, it remains unknown how Tpex cells maintain their functionality. Here, we demonstrate that Tpex cells sustained mitochondrial fitness, including high spare respiratory capacity, while Tex cells deteriorated metabolically over time. Tpex cells showed early suppression of mTOR kinase signaling but retained the ability to activate this pathway in response to antigen receptor signals. Early transient mTOR inhibition improved long-term T cell responses and checkpoint inhibition. Transforming growth factor-β repressed mTOR signaling in exhausted T cells and was a critical determinant of Tpex cell metabolism and function. Overall, we demonstrate that the preservation of cellular metabolism allows Tpex cells to retain long-term functionality to sustain T cell responses during chronic infection.

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