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Coordination of asparagine uptake and asparagine synthetase expression modulates CD8+ T cell activation
Helen Carrasco Hope, Rebecca J. Brownlie, Christopher M. Fife, Lynette Steele, Mihaela Lorger, Robert J. Salmond
Helen Carrasco Hope, Rebecca J. Brownlie, Christopher M. Fife, Lynette Steele, Mihaela Lorger, Robert J. Salmond
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Research Article Immunology

Coordination of asparagine uptake and asparagine synthetase expression modulates CD8+ T cell activation

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Abstract

T cell receptor (TCR) triggering by antigen results in metabolic reprogramming that, in turn, facilitates the exit of T cells from quiescence. The increased nutrient requirements of activated lymphocytes are met, in part, by upregulation of cell surface transporters and enhanced uptake of amino acids, fatty acids, and glucose from the environment. However, the role of intracellular pathways of amino acid biosynthesis in T cell activation is relatively unexplored. Asparagine is a nonessential amino acid that can be synthesized intracellularly through the glutamine-hydrolyzing enzyme asparagine synthetase (ASNS). We set out to define the requirements for uptake of extracellular asparagine and ASNS activity in CD8+ T cell activation. At early time points of activation in vitro, CD8+ T cells expressed little or no ASNS, and, as a consequence, viability and TCR-stimulated growth, activation, and metabolic reprogramming were substantially impaired under conditions of asparagine deprivation. At later time points (more than 24 hours of activation), TCR-induced mTOR-dependent signals resulted in ASNS upregulation that endowed CD8+ T cells with the capacity to function independently of extracellular asparagine. Thus, our data suggest that the coordinated upregulation of ASNS expression and uptake of extracellular asparagine is involved in optimal T cell effector responses.

Authors

Helen Carrasco Hope, Rebecca J. Brownlie, Christopher M. Fife, Lynette Steele, Mihaela Lorger, Robert J. Salmond

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Figure 2

Extracellular asparagine is limiting for initial TCR-induced T cell activation.

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Extracellular asparagine is limiting for initial TCR-induced T cell acti...
OT-1 TCR transgenic T cells were stimulated with cognate SIINFEKL peptide for 6 (H), 24 (A–D, and I), or 48 hours (E–G) in DMEM supplemented with or without asparagine and/or Gln, as indicated. (A) Levels of IL-2 in culture supernatants were assessed by ELISA. (B) Histograms show levels of cell surface activation marker expression on live-gated cells. Data are representative of 1 of at least 3 repeated experiments. Proportions of live-gated cells expressing transcriptions factors eomesodermin (eomes) (C) and Tbet (D) were determined by intracellular staining and FACS. (E) Representative histograms show levels of intracellular granzyme B in live-gated cells. Proportions of granzyme B+ (GZMB+) cells (F) were determined. Relative levels of expression of GZMB in live GZMB+ cells were assessed as mean fluorescence intensity (MFI) (G). Levels of Il2 (H) and Tbx21 (I) transcripts were determined by qRT-PCR. Levels are fold change using the ddCT method and Rpl13a as a housekeeping gene. For H and I, dots represent biological replicates (n = 4) from 1 of 2 repeated experiments. For all other data, dots represent technical replicates (n = 3) from at least 3 repeated experiments. *P < 0.05, **P < 0.01, ****P < 0.0001, as assessed by 1-way ANOVA, with Tukey’s multiple comparisons test.

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