Mitochondrial arginase-2 is a cell‑autonomous regulator of CD8+ T cell function and antitumor efficacy
Adrià-Arnau Martí i Líndez, Isabelle Dunand-Sauthier, Mark Conti, Florian Gobet, Nicolás Núñez, J. Thomas Hannich, Howard Riezman, Roger Geiger, Alessandra Piersigilli, Kerstin Hahn, Sylvain Lemeille, Burkhard Becher, Thibaut De Smedt, Stéphanie Hugues, Walter Reith
Adrià-Arnau Martí i Líndez, Isabelle Dunand-Sauthier, Mark Conti, Florian Gobet, Nicolás Núñez, J. Thomas Hannich, Howard Riezman, Roger Geiger, Alessandra Piersigilli, Kerstin Hahn, Sylvain Lemeille, Burkhard Becher, Thibaut De Smedt, Stéphanie Hugues, Walter Reith
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Research Article Immunology Oncology

Mitochondrial arginase-2 is a cell‑autonomous regulator of CD8+ T cell function and antitumor efficacy

Abstract

As sufficient extracellular arginine is crucial for T cell function, depletion of extracellular arginine by elevated arginase 1 (Arg1) activity has emerged as a hallmark immunosuppressive mechanism. However, the potential cell-autonomous roles of arginases in T cells have remained unexplored. Here, we show that the arginase isoform expressed by T cells, the mitochondrial Arg2, is a cell-intrinsic regulator of CD8+ T cell activity. Both germline Arg2 deletion and adoptive transfer of Arg2–/– CD8+ T cells significantly reduced tumor growth in preclinical cancer models by enhancing CD8+ T cell activation, effector function, and persistence. Transcriptomic, proteomic, and high-dimensional flow cytometry characterization revealed a CD8+ T cell–intrinsic role of Arg2 in modulating T cell activation, antitumor cytoxicity, and memory formation, independently of extracellular arginine availability. Furthermore, specific deletion of Arg2 in CD8+ T cells strongly synergized with PD-1 blockade for the control of tumor growth and animal survival. These observations, coupled with the finding that pharmacologic arginase inhibition accelerates activation of ex vivo human T cells, unveil Arg2 as a potentially new therapeutic target for T cell–based cancer immunotherapies.

Authors

Adrià-Arnau Martí i Líndez, Isabelle Dunand-Sauthier, Mark Conti, Florian Gobet, Nicolás Núñez, J. Thomas Hannich, Howard Riezman, Roger Geiger, Alessandra Piersigilli, Kerstin Hahn, Sylvain Lemeille, Burkhard Becher, Thibaut De Smedt, Stéphanie Hugues, Walter Reith

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Figure 4

Activated Arg2–/– CD8+ T cells exhibit faster and stronger upregulation of key genes implicated in CD8+ T cell function.

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Activated Arg2–/– CD8+ T cells exhibit faster and stronger upregulation ...
WT or Arg2–/– OT-I CD8+ T cells were activated in vitro with αCD3ε and αCD28 antibodies, and their transcriptomes were characterized by RNA-seq after 0, 2, 6, 12, and 24 hours of activation. (A) The graphs show the results of a GSEA performed for the indicated gene sets in cells activated for 6 hours. The normalized enrichment score (NES) is indicated. (B–E) The volcano plots represent the comparisons between the transcriptomes of WT and Arg2–/– CD8+ T cells at the indicated time points: fold-change (FC) in mRNA expression in Arg2–/– relative to WT cells is plotted as a function of the P value (Wald test, GLM in edgeR). Dots corresponding to mRNAs for key functionally relevant genes are indicated. (F) The heatmap represents the FC in mRNA expression in Arg2–/– relative to WT cells, in all time points analyzed, for selected genes grouped according to the indicated functionally relevant categories. (G) WT or Arg2–/– OT-I CD8+ T cells were activated in vitro with αCD3ε and αCD28 antibodies, and the proteome was analyzed after 72 hours by LC-MS. The volcano plot represents comparisons between the proteomes of WT and Arg2–/– CD8+ T cells: FC in protein expression in Arg2–/– relative to WT cells is plotted as a function of the P value (2- tailed Welch t test). Dots corresponding to key functionally relevant proteins are indicated. P values have been adjusted using the Benjamini-Hochberg procedure.