Selective glutamine metabolism inhibition in tumor cells improves antitumor T lymphocyte activity in triple-negative breast cancer
Deanna N. Edwards, … , Mark R. Boothby, Jin Chen
Deanna N. Edwards, … , Mark R. Boothby, Jin Chen
Published December 15, 2020
Citation Information: J Clin Invest. 2021;131(4):e140100. https://doi.org/10.1172/JCI140100.
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Research Article Oncology

Selective glutamine metabolism inhibition in tumor cells improves antitumor T lymphocyte activity in triple-negative breast cancer

Abstract

Rapidly proliferating tumor and immune cells need metabolic programs that support energy and biomass production. The amino acid glutamine is consumed by effector T cells and glutamine-addicted triple-negative breast cancer (TNBC) cells, suggesting that a metabolic competition for glutamine may exist within the tumor microenvironment, potentially serving as a therapeutic intervention strategy. Here, we report that there is an inverse correlation between glutamine metabolic genes and markers of T cell–mediated cytotoxicity in human basal-like breast cancer (BLBC) patient data sets, with increased glutamine metabolism and decreased T cell cytotoxicity associated with poor survival. We found that tumor cell–specific loss of glutaminase (GLS), a key enzyme for glutamine metabolism, improved antitumor T cell activation in both a spontaneous mouse TNBC model and orthotopic grafts. The glutamine transporter inhibitor V-9302 selectively blocked glutamine uptake by TNBC cells but not CD8+ T cells, driving synthesis of glutathione, a major cellular antioxidant, to improve CD8+ T cell effector function. We propose a “glutamine steal” scenario, in which cancer cells deprive tumor-infiltrating lymphocytes of needed glutamine, thus impairing antitumor immune responses. Therefore, tumor-selective targeting of glutamine metabolism may be a promising therapeutic strategy in TNBC.

Authors

Deanna N. Edwards, Verra M. Ngwa, Ariel L. Raybuck, Shan Wang, Yoonha Hwang, Laura C. Kim, Sung Hoon Cho, Yeeun Paik, Qingfei Wang, Siyuan Zhang, H. Charles Manning, Jeffrey C. Rathmell, Rebecca S. Cook, Mark R. Boothby, Jin Chen

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Figure 1

Glutamine metabolism inversely correlates with expression of T cell activation markers in glutamine metabolism high human basal-like breast cancer samples.

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Glutamine metabolism inversely correlates with expression of T cell acti...
(AC) Analysis of mRNA expression (log2) z-scores in basal-like tumor samples from TCGA BRCA data set. The samples with the greatest glutamine metabolism gene signature (GMGS) combined with the lowest glycolysis gene signature are considered “glutamine metabolism high.” All others are considered to have “mixed metabolism.” (A) Expression levels of individual genes are displayed as a heatmap, with low expression in blue and high expression in red. (B and C) The CTL gene signature ([GZMA + GZMB + PRF1 + INFG]/4) was plotted as a function of the GMGS or GLS for basal-like breast cancer samples that are “glutamine metabolism high” (black) and “mixed metabolism” (pink). Linear regression lines of best fit are shown for both groups. Pearson’s correlation analyses are shown. (D) Kaplan-Meier analysis of overall survival of basal breast tumors stratified based on the GMGS and the CTL gene signature: GMGSLOW/CTLHIGH (green, n = 64), GMGSLOW/CTLLOW (blue, n = 14), GMGSHIGH/CTLHIGH (orange, n = 121), and GMGSHIGH/CTLLOW (red, n = 42). Log-rank (Mantel-Cox) test: P values are shown. Red box indicates statistical significance after Bonferroni’s correction for multiple comparisons. Hazard ratio (HR) (log-rank) and 95% confidence intervals are shown.