Author
Listed:
- Yu-Qi Ping
(CAS Key Laboratory of Receptor Research, Center for Structure and Function of Drug Targets, Shanghai Institute of Materia Medica, Chinese Academy of Sciences
Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education
Shandong University)
- Chunyou Mao
(Zhejiang University School of Medicine
Zhejiang University Medical Center)
- Peng Xiao
(Shandong University)
- Ru-Jia Zhao
(Shandong University)
- Yi Jiang
(CAS Key Laboratory of Receptor Research, Center for Structure and Function of Drug Targets, Shanghai Institute of Materia Medica, Chinese Academy of Sciences)
- Zhao Yang
(Shandong University)
- Wen-Tao An
(Shandong University)
- Dan-Dan Shen
(Zhejiang University School of Medicine
Zhejiang University Medical Center)
- Fan Yang
(Shandong University
Shandong University)
- Huibing Zhang
(Zhejiang University School of Medicine
Zhejiang University Medical Center)
- Changxiu Qu
(Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education
Shandong University)
- Qingya Shen
(Zhejiang University School of Medicine
Zhejiang University Medical Center)
- Caiping Tian
(State Key Laboratory of Proteomics, Beijing Proteome Research Center, National Center for Protein Sciences Beijing, Beijing Institute of Lifeomics
Tsinghua University)
- Zi-jian Li
(Peking University)
- Shaolong Li
(Shandong University)
- Guang-Yu Wang
(Shandong University)
- Xiaona Tao
(Shandong University)
- Xin Wen
(Shandong University)
- Ya-Ni Zhong
(Shandong University)
- Jing Yang
(State Key Laboratory of Proteomics, Beijing Proteome Research Center, National Center for Protein Sciences Beijing, Beijing Institute of Lifeomics)
- Fan Yi
(Shandong University)
- Xiao Yu
(Shandong University)
- H. Eric Xu
(CAS Key Laboratory of Receptor Research, Center for Structure and Function of Drug Targets, Shanghai Institute of Materia Medica, Chinese Academy of Sciences)
- Yan Zhang
(Zhejiang University School of Medicine
Zhejiang University Medical Center
Zhejiang Provincial Key Laboratory of Immunity and Inflammatory Diseases
Zhejiang University School of Medicine)
- Jin-Peng Sun
(Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education
Shandong University)
Abstract
Adhesion G-protein-coupled receptors (GPCRs) are a major family of GPCRs, but limited knowledge of their ligand regulation or structure is available1–3. Here we report that glucocorticoid stress hormones activate adhesion G-protein-coupled receptor G3 (ADGRG3; also known as GPR97)4–6, a prototypical adhesion GPCR. The cryo-electron microscopy structures of GPR97–Go complexes bound to the anti-inflammatory drug beclomethasone or the steroid hormone cortisol revealed that glucocorticoids bind to a pocket within the transmembrane domain. The steroidal core of glucocorticoids is packed against the ‘toggle switch’ residue W6.53, which senses the binding of a ligand and induces activation of the receptor. Active GPR97 uses a quaternary core and HLY motif to fasten the seven-transmembrane bundle and to mediate G protein coupling. The cytoplasmic side of GPR97 has an open cavity, where all three intracellular loops interact with the Go protein, contributing to the high basal activity of GRP97. Palmitoylation at the cytosolic tail of the Go protein was found to be essential for efficient engagement with GPR97 but is not observed in other solved GPCR complex structures. Our work provides a structural basis for ligand binding to the seven-transmembrane domain of an adhesion GPCR and subsequent G protein coupling.
Suggested Citation
Yu-Qi Ping & Chunyou Mao & Peng Xiao & Ru-Jia Zhao & Yi Jiang & Zhao Yang & Wen-Tao An & Dan-Dan Shen & Fan Yang & Huibing Zhang & Changxiu Qu & Qingya Shen & Caiping Tian & Zi-jian Li & Shaolong Li &, 2021.
"Structures of the glucocorticoid-bound adhesion receptor GPR97–Go complex,"
Nature, Nature, vol. 589(7843), pages 620-626, January.
Handle:
RePEc:nat:nature:v:589:y:2021:i:7843:d:10.1038_s41586-020-03083-w
DOI: 10.1038/s41586-020-03083-w
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Cited by:
- Souleymane Abdoul-Azize & Rihab Hami & Gaetan Riou & Céline Derambure & Camille Charbonnier & Jean-Pierre Vannier & Monica L. Guzman & Pascale Schneider & Olivier Boyer, 2024.
"Glucocorticoids paradoxically promote steroid resistance in B cell acute lymphoblastic leukemia through CXCR4/PLC signaling,"
Nature Communications, Nature, vol. 15(1), pages 1-21, December.
- Xinyan Zhu & Yu Qian & Xiaowan Li & Zhenmei Xu & Ruixue Xia & Na Wang & Jiale Liang & Han Yin & Anqi Zhang & Changyou Guo & Guangfu Wang & Yuanzheng He, 2022.
"Structural basis of adhesion GPCR GPR110 activation by stalk peptide and G-proteins coupling,"
Nature Communications, Nature, vol. 13(1), pages 1-11, December.
- Tai-Ying Chu & Céline Zheng-Gérard & Kuan-Yeh Huang & Yu-Chi Chang & Ying-Wen Chen & Kuan-Yu I & Yu-Ling Lo & Nien-Yi Chiang & Hsin-Yi Chen & Martin Stacey & Siamon Gordon & Wen-Yi Tseng & Chiao-Yin S, 2022.
"GPR97 triggers inflammatory processes in human neutrophils via a macromolecular complex upstream of PAR2 activation,"
Nature Communications, Nature, vol. 13(1), pages 1-16, December.
- Jun Xu & Qinggong Wang & Harald Hübner & Yunfei Hu & Xiaogang Niu & Haoqing Wang & Shoji Maeda & Asuka Inoue & Yuyong Tao & Peter Gmeiner & Yang Du & Changwen Jin & Brian K. Kobilka, 2023.
"Structural and dynamic insights into supra-physiological activation and allosteric modulation of a muscarinic acetylcholine receptor,"
Nature Communications, Nature, vol. 14(1), pages 1-16, December.
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