Dysfunction of exhausted T cells is enforced by MCT11-mediated lactate metabolism

Ronal M. Peralta(University of Pittsburgh), Bingxian Xie(University of Pittsburgh), Konstantinos Lontos(University of Pittsburgh), Hector Nieves-Rosado(University of Pittsburgh), Kellie Spahr(University of Pittsburgh), Supriya Joshi(University of Pittsburgh), B. Rhodes Ford(University of Pittsburgh), Kevin Quann(University of Pittsburgh), Andrew Frisch(University of Pittsburgh), Victoria Dean(University of Pittsburgh), Mary Philbin(UPMC Hillman Cancer Center), Anthony R. Cillo(University of Pittsburgh), Sébastien Gingras(University of Pittsburgh), Amanda C. Poholek(University of Pittsburgh), Larry Kane(University of Pittsburgh), Dayana B. Rivadeneira(University of Pittsburgh), Greg M. Delgoffe(University of Pittsburgh)
Nature Immunology
November 8, 2024
10.1038/s41590-024-01999-3
Cited by 134Open Access
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Abstract

Abstract CD8 + T cells are critical mediators of antitumor immunity but differentiate into a dysfunctional state, known as T cell exhaustion, after persistent T cell receptor stimulation in the tumor microenvironment (TME). Exhausted T (T ex ) cells are characterized by upregulation of coinhibitory molecules and reduced polyfunctionality. T cells in the TME experience an immunosuppressive metabolic environment via reduced levels of nutrients and oxygen and a buildup of lactic acid. Here we show that terminally T ex cells uniquely upregulate Slc16a11 , which encodes monocarboxylate transporter 11 (MCT11). Conditional deletion of MCT11 in T cells reduced lactic acid uptake by T ex cells and improved their effector function. Targeting MCT11 with an antibody reduced lactate uptake specifically in T ex cells, which, when used therapeutically in tumor-bearing mice, resulted in reduced tumor growth. These data support a model in which T ex cells upregulate MCT11, rendering them sensitive to lactic acid present at high levels in the TME.

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