Abnormal epigenetic patterns correlate with effector T cell malfunction in tumors
1
–
4
. However, their causal link is unknown. Here, we show that tumor cells disrupt methionine metabolism in CD8
+
T cells, thereby lowering intracellular methionine levels and the methyl donor S-adenosylmethionine (SAM), resulting in loss of H3K79me2. Consequently, loss of H3K79me2 led to low STAT5 expression and impaired T cell immunity. Mechanistically, tumor cells avidly consumed and outcompeted T cells for methionine via high expression of SLC43A2, a methionine transporter. Genetic and biochemical inhibition of tumor SLC43A2 rescued T cell H3K79me2 levels, boosting spontaneous and checkpoint-induced tumor immunity. Moreover, we found that methionine supplementation improved expression of H3K79me2 and STAT5 in T cells, accompanied by increased T cell immunity in tumor bearing models and colon cancer patients. Clinically, tumor SLC43A2 negatively correlated with T cell histone methylation and functional gene signatures. Our work reveals a novel mechanistic connection between methionine metabolism, histone patterns, and T cell immunity in the tumor microenvironment. Thus, cancer methionine consumption is an unappreciated immune evasion mechanism, and targeting cancer methionine signaling may provide an immunotherapeutic approach.
While IL-2 can potently activate both NK and T cells, its short in vivo half-life, severe toxicity, and propensity to amplify Treg cells are major barriers that prevent IL-2 from being widely used for cancer therapy. In this study, we construct a recombinant IL-2 immunocytokine comprising a tumor-targeting antibody (Ab) and a super mutant IL-2 (sumIL-2) with decreased CD25 binding and increased CD122 binding. The Ab-sumIL2 significantly enhances antitumor activity through tumor targeting and specific binding to cytotoxic T lymphocytes (CTLs). We also observe that pre-existing CTLs within the tumor are sufficient and essential for sumIL-2 therapy. This next-generation IL-2 can also overcome targeted therapy-associated resistance. In addition, preoperative sumIL-2 treatment extends survival much longer than standard adjuvant therapy. Finally, Ab-sumIL2 overcomes resistance to immune checkpoint blockade through concurrent immunotherapies. Therefore, this next-generation IL-2 reduces toxicity while increasing TILs that potentiate combined cancer therapies.
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