Structures of the ADGRG2-G<sub>s</sub> complex in apo and ligand-bound forms.
Hui LinPeng XiaoRui-Qian BuSheng-Chao GuoZhao YangDaopeng YuanZhong-Liang ZhuChuan-Xin ZhangQing-Tao HeChao ZhangYu-Qi PingRu-Jia ZhaoChuan-Shun MaChang-Hao LiuXiao-Ning ZhangDan JiangShaohui HuangYue-Tong XiDao-Lai ZhangChen-Yang XueBai-Sheng YangJian-Yuan LiHao-Cheng LinXu-Hui ZengHan ZhaoWen-Ming XuFan YiZhongmin LiuJin-Peng SunXiao YuPublished in: Nature chemical biology (2022)
Adhesion G protein-coupled receptors are elusive in terms of their structural information and ligands. Here, we solved the cryogenic-electron microscopy (cryo-EM) structure of apo-ADGRG2, an essential membrane receptor for maintaining male fertility, in complex with a G<sub>s</sub> trimer. Whereas the formations of two kinks were determinants of the active state, identification of a potential ligand-binding pocket in ADGRG2 facilitated the screening and identification of dehydroepiandrosterone (DHEA), dehydroepiandrosterone sulfate and deoxycorticosterone as potential ligands of ADGRG2. The cryo-EM structures of DHEA-ADGRG2-G<sub>s</sub> provided interaction details for DHEA within the seven transmembrane domains of ADGRG2. Collectively, our data provide a structural basis for the activation and signaling of ADGRG2, as well as characterization of steroid hormones as ADGRG2 ligands, which might be used as useful tools for further functional studies of the orphan ADGRG2.