학술논문

Extracellular acidosis restricts one-carbon metabolism and preserves T cell stemness
Document Type
Original Paper
Source
Nature Metabolism. 5(2):314-330
Subject
Language
English
ISSN
2522-5812
Abstract
The accumulation of acidic metabolic waste products within the tumor microenvironment inhibits effector functions of tumor-infiltrating lymphocytes (TILs). However, it remains unclear how an acidic environment affects T cell metabolism and differentiation. Here we show that prolonged exposure to acid reprograms T cell intracellular metabolism and mitochondrial fitness and preserves T cell stemness. Mechanistically, elevated extracellular acidosis impairs methionine uptake and metabolism via downregulation of SLC7A5, therefore altering H3K27me3 deposition at the promoters of key T cell stemness genes. These changes promote the maintenance of a ‘stem-like memory’ state and improve long-term in vivo persistence and anti-tumor efficacy in mice. Our findings not only reveal an unexpected capacity of extracellular acidosis to maintain the stem-like properties of T cells, but also advance our understanding of how methionine metabolism affects T cell stemness.
Prolonged exposure to acid is shown to reprogram T cell intracellular methionine metabolism to preserve T cell stemness and increase anti-tumor efficacy.