Airway epithelial cGAS inhibits LPS-induced acute lung injury through CREB signaling.
Zhangchu JinZhehua ShaoShiyi YangAnyi GuoYinling HanYinfang WuYun ZhaoYanping WuJiaxin ShenMin ZhangXueqin ZhanWenqi DiaoSongmin YingChao ZhangWen LiHuahao ShenZhihua ChenFugui YanPublished in: Cell death & disease (2023)
Increased levels of cytosolic DNA in lung tissues play an important role in acute lung injury. However, the detailed mechanisms involved remain elusive. Here, we found that cyclic GMP-AMP synthase (cGAS, a cytosolic DNA sensor) expression was increased in airway epithelium in response to increased cytosolic DNA. Conditional deletion of airway epithelial cGAS exacerbated acute lung injury in mice, cGAS knockdown augmented LPS-induced production of interleukin (IL)-6 and IL-8. Mechanically, deletion of cGAS augmented expression of phosphorylated CREB (cAMP response element-binding protein), and cGAS directly interacted with CREB via its C-terminal domain. Furthermore, CREB knockdown rescued the LPS-induced excessive inflammatory response caused by cGAS deletion. Our study demonstrates that airway epithelial cGAS plays a protective role in acute lung injury and confirms a non-canonical cGAS-CREB pathway that regulates the inflammatory responses in airway epithelium to mediate LPS-induced acute lung injury.
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