Activation of human STING by a molecular glue-like compound.
Jie LiStephen M CanhamHua WuMartin HenaultLihao ChenGuoxun LiuYu ChenGary YuHoward R MillerViktor HornakScott M BrittainGregory A MichaudAntonin TutterWendy BroomMary Ellen DiganSarah M McWhirterKelsey E SivickHelen T PhamChristine H ChenGeorge S TriaJeffery M McKennaMarkus SchirleXiaohong MaoThomas B NicholsonYuan WangJeremy L JenkinsRishi K JainJohn A TallaricoSejal J PatelLianxing ZhengNathan T RossCharles Y ChoXuewu ZhangXiao-Chen BaiYan FengPublished in: Nature chemical biology (2023)
Stimulator of interferon genes (STING) is a dimeric transmembrane adapter protein that plays a key role in the human innate immune response to infection and has been therapeutically exploited for its antitumor activity. The activation of STING requires its high-order oligomerization, which could be induced by binding of the endogenous ligand, cGAMP, to the cytosolic ligand-binding domain. Here we report the discovery through functional screens of a class of compounds, named NVS-STGs, that activate human STING. Our cryo-EM structures show that NVS-STG2 induces the high-order oligomerization of human STING by binding to a pocket between the transmembrane domains of the neighboring STING dimers, effectively acting as a molecular glue. Our functional assays showed that NVS-STG2 could elicit potent STING-mediated immune responses in cells and antitumor activities in animal models.