IL-9/STAT3/fatty acid oxidation–mediated lipid peroxidation contributes to Tc9 cell longevity and enhanced antitumor activity
Liuling Xiao, … , Jianfei Qian, Qing Yi
Liuling Xiao, … , Jianfei Qian, Qing Yi
Published February 22, 2022
Citation Information: J Clin Invest. 2022;132(7):e153247. https://doi.org/10.1172/JCI153247.
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Research Article Immunology Metabolism

IL-9/STAT3/fatty acid oxidation–mediated lipid peroxidation contributes to Tc9 cell longevity and enhanced antitumor activity

Abstract

CD8+ T cell longevity regulated by metabolic activity plays important roles in cancer immunotherapy. Although in vitro–polarized, transferred IL-9–secreting CD8+ Tc9 (cytotoxic T lymphocyte subset 9) cells exert greater persistence and antitumor efficacy than Tc1 cells, the underlying mechanism remains unclear. Here, we show that tumor-infiltrating Tc9 cells display significantly lower lipid peroxidation than Tc1 cells in several mouse models, which is strongly correlated with their persistence. Using RNA-sequence and functional validation, we found that Tc9 cells exhibited unique lipid metabolic programs. Tc9 cell–derived IL-9 activated STAT3, upregulated fatty acid oxidation and mitochondrial activity, and rendered Tc9 cells with reduced lipid peroxidation and resistance to tumor- or ROS-induced ferroptosis in the tumor microenvironment. IL-9 signaling deficiency, inhibiting STAT3, or fatty acid oxidation increased lipid peroxidation and ferroptosis of Tc9 cells, resulting in impaired longevity and antitumor ability. Similarly, human Tc9 cells also exhibited lower lipid peroxidation than Tc1 cells and tumor-infiltrating CD8+ T cells expressed lower IL9 and higher lipid peroxidation– and ferroptosis-related genes than circulating CD8+ T cells in patients with melanoma. This study indicates that lipid peroxidation regulates Tc9 cell longevity and antitumor effects via the IL-9/STAT3/fatty acid oxidation pathway and regulating T cell lipid peroxidation can be used to enhance T cell–based immunotherapy in human cancer.

Authors

Liuling Xiao, Xingzhe Ma, Lingqun Ye, Pan Su, Wei Xiong, Enguang Bi, Qiang Wang, Miao Xian, Maojie Yang, Jianfei Qian, Qing Yi

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Figure 4

Increased fatty acid oxidation is required for reduced lipid peroxidation and ferroptosis in Tc9 cells.

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Increased fatty acid oxidation is required for reduced lipid peroxidatio...
(A) Free fatty acid (FFA) contents (n = 6) and (B) polyunsaturated fatty acid (PUFA) levels (n = 2) in tumor-infiltrating Tc1 or Tc9 cells from s.c. B16 tumor–bearing mice. (C) Heatmap of fatty acid oxidation–related gene expression in tumor-infiltrating Tc1 and Tc9 cells and Cpt1a expression in in vitro–polarized Tc1 and Tc9 cells. (D and E) GSEA of indicated gene sets in tumor-infiltrating Tc9 cells compared with Tc1 cells. GO, Gene Ontology; NES, normalized enrichment score. (F) Cpt1a expression in Tc1 and Tc9 cells from s.c. B16 tumors (n = 6). (G) Statistical analysis of oxygen consumption rates (OCRs) in Tc1 and Tc9 cells with indicated treatments (n = 6–8). (H and I) TMRM intensity of in vitro–polarized (n = 3) or tumor-infiltrated (n = 10) Tc1 and Tc9 cells. (J) OCR of Tc9 cells treated with etomoxir (Eto) at indicated concentrations (n = 12). (KN) TMRM intensity, relative lipid ROS and iron levels, and relative cell viability in Tc9 cells treated with ROS inducer TBH in combination with or without etomoxir at indicated concentrations for 16 hours. Before TBH treatment, Tc9 cells were treated with etomoxir for 12 hours (n = 3). (O) TMRM intensity, relative lipid ROS levels, and cell viability in scramble shRNA– or Cpt1a shRNA lentivirus–transduced Tc9 cells cocultured with B16 cells for 48 hours (n = 3). (P) TMRM intensity, relative lipid ROS levels, and cell viability in vector- or Cpt1a-overexpressing (Cpt1a-OE) transduced Tc9 cells cocultured with B16 cells for 48 hours (n = 3–5). Data are presented as mean ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001 by 1-way ANOVA followed by Dunnett’s test in JN and unpaired, 2-tailed Student’s t test in the other panels.