Cell Reports (Sep 2019)

T Cell Activation Depends on Extracellular Alanine

  • Noga Ron-Harel,
  • Jonathan M. Ghergurovich,
  • Giulia Notarangelo,
  • Martin W. LaFleur,
  • Yoshiki Tsubosaka,
  • Arlene H. Sharpe,
  • Joshua D. Rabinowitz,
  • Marcia C. Haigis

Journal volume & issue
Vol. 28, no. 12
pp. 3011 – 3021.e4

Abstract

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Summary: T cell stimulation is metabolically demanding. To exit quiescence, T cells rely on environmental nutrients, including glucose and the amino acids glutamine, leucine, serine, and arginine. The expression of transporters for these nutrients is tightly regulated and required for T cell activation. In contrast to these amino acids, which are essential or require multi-step biosynthesis, alanine can be made from pyruvate by a single transamination. Here, we show that extracellular alanine is nevertheless required for efficient exit from quiescence during naive T cell activation and memory T cell restimulation. Alanine deprivation leads to metabolic and functional impairments. Mechanistically, this vulnerability reflects the low expression of alanine aminotransferase, the enzyme required for interconverting pyruvate and alanine, whereas activated T cells instead induce alanine transporters. Stable isotope tracing reveals that alanine is not catabolized but instead supports protein synthesis. Thus, T cells depend on exogenous alanine for protein synthesis and normal activation. : In health, T lymphocytes are in a resting state. However, stimulation with their cognate antigen induces massive growth and proliferation. Ron-Harel et al. demonstrate that T cells rely on extracellular alanine for activation. Consumed alanine is used primarily for protein synthesis, and alanine deprivation inhibits T cell metabolism and effector functions. Keywords: T cells, T cell activation, protein synthesis, metabolism, alanine