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STING is a cell-intrinsic metabolic checkpoint restricting aerobic glycolysis by targeting HK2.

Liting ZhangCongqing JiangYunhong ZhongKongliang SunHuiru JingJiayu SongJun XieYaru ZhouMao TianChuchu ZhangXiaona SunShaowei WangXi ChengYuelan ZhangWei WeiXiang LiBishi FuPinghui FengBing WuHong-Bing ShuJunjie Zhang
Published in: Nature cell biology (2023)
Evasion of antitumour immunity is a hallmark of cancer. STING, a putative innate immune signalling adaptor, has a pivotal role in mounting antitumour immunity by coordinating innate sensing and adaptive immune surveillance in myeloid cells. STING is markedly silenced in various human malignancies and acts as a cell-intrinsic tumour suppressor. How STING exerts intrinsic antitumour activity remains unclear. Here, we report that STING restricts aerobic glycolysis independent of its innate immune function. Mechanistically, STING targets hexokinase II (HK2) to block its hexokinase activity. As such, STING inhibits HK2 to restrict tumour aerobic glycolysis and promote antitumour immunity in vivo. In human colorectal carcinoma samples, lactate, which can be used as a surrogate for aerobic glycolysis, is negatively correlated with STING expression level and antitumour immunity. Taken together, this study reveals that STING functions as a cell-intrinsic metabolic checkpoint that restricts aerobic glycolysis to promote antitumour immunity. These findings have important implications for the development of STING-based therapeutic modalities to improve antitumour immunotherapy.
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