Metformin has been studied for its anticancer effects by regulating T cell functions. However, the mechanisms through which metformin stimulates the differentiation of memory T cells remain unclear. We found that the frequencies of memory stem and central memory T cells increased for both in peripheral and tumor-infiltrating CD8+ T cells in metformin-treated lung cancer patients compared with those not taking the medication. An in vitro assay showed that metformin promoted the formation of memory CD8+ T cells and enhanced their antiapoptotic abilities. In addition, AMP-activated protein kinase (AMPK) activation decreased microRNA-107 expression, thus enhancing Eomesodermin expression, which suppressed the transcription of PDCD1 in metformin-treated CD8+ T cells. In the CAR-T cell therapy model, metformin also exhibited cytotoxicity-promoting effects that led to decreased tumor growth. Metformin could reprogram the differentiation of CD8+ T cells, which may benefit the clinical therapy of cancer patients by facilitating long-lasting cytotoxic functions.
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