Litcius/Paper detail

Early methionine availability attenuates T cell exhaustion

Piyush Sharma, Ao Guo, Suresh Poudel, Emilio Boada-Romero, Katherine Verbist, Gustavo Palacios, Kalyan Immadisetty, Jinan Chen, Dalia Haydar, Ashutosh Mishra, Junmin Peng, M. Madan Babu, Giedre Krenciute, Evan S. Glazer, Douglas R. Green

2025Nature Immunology24 citationsDOIOpen Access PDF

Abstract

Abstract T cell receptor (TCR) activation is regulated in many ways, including niche-specific nutrient availability. Here we investigated how methionine (Met) availability and TCR signaling interplay during the earliest events of T cell activation affect subsequent cell fate. Limiting Met during the initial 30 min of TCR engagement increased Ca 2+ influx, NFAT1 (encoded by Nfatc2 ) activation and promoter occupancy, leading to T cell exhaustion. We identified changes in the protein arginine methylome during initial TCR engagement and identified an arginine methylation of the Ca 2+ -activated potassium transporter KCa3.1, which regulates Ca 2+ -mediated NFAT1 signaling for optimal activation. Ablation of KCa3.1 arginine methylation increased NFAT1 nuclear localization, rendering T cells dysfunctional in mouse tumor and infection models. Furthermore, acute, early Met supplementation reduced nuclear NFAT1 in tumor-infiltrating T cells and augmented antitumor activity. These findings identify a metabolic event early after T cell activation that affects cell fate.

Topics & Concepts

T-cell receptorT cellCell biologyMethylationBiologyMethionineHEK 293 cellsReceptorCancer researchBiochemistryGeneImmunologyImmune systemAmino acidCancer-related gene regulationImmune Cell Function and InteractionPancreatic function and diabetes