Manganese boosts natural killer cell function via cGAS–STING mediated UTX expression
Qianyi Ming,
Jiejie Liu,
Zijian Lv,
Tiance Wang,
Runjia Fan,
Yan Zhang,
Meixia Chen,
Yingli Sun,
Weidong Han,
Qian Mei
Affiliations
Qianyi Ming
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Jiejie Liu
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Zijian Lv
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Tiance Wang
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Runjia Fan
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Yan Zhang
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Meixia Chen
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Yingli Sun
Central Laboratory National Cancer Center/National Clinical Research Center for Cancer/Cancer Hospital & Shenzhen Hospital Chinese Academic of Medical Sciences and Peking Union Medical College Shenzhen China
Weidong Han
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Qian Mei
Department of Bio‐Therapeutic the First Medical Center Chinese PLA General Hospital Beijing China
Abstract Natural killer (NK) cells play a crucial role in both innate immunity and the activation of adaptive immunity. The activating effect of Mn2+ on cyclic GMP‐AMP(cGAS)–stimulator of interferon genes (STING signaling has been well known, but its effect on NK cells remains elusive. In this study, we identified the vital role of manganese (Mn2+) in NK cell activation. Mn2+ directly boosts cytotoxicity of NK cells and promotes the cytokine secretion by NK cells, thereby activating CD8+ T cells and enhancing their antitumor activity. Furthermore, Mn2+ can simultaneously activate NK‐cell intrinsic cGAS and STING and consequently augment the expression of ubiquitously transcribed tetratricopeptide repeat on chromosome X (UTX to promote the responsiveness of NK cells. Our results contribute to a broader comprehension of how cGAS–STING regulates NK cells. As a potent agonist of cGAS–STING, Mn2+ provides a promising option for NK cell‐based immunotherapy of cancers.
