Tethered peptide activation mechanism of the adhesion GPCRs ADGRG2 and ADGRG4

Peng Xiao; Shengchao Guo; Xin Wen; Qing Tao He; Hui Lin; Shen Ming Huang; Lu Gou; Chao Zhang; Zhao Yang; Ya Ni Zhong; Chuan Cheng Yang; Yu Li; Zheng Gong; Xiao Na Tao; Zhi Shuai Yang; Yan Lu; Shao Long Li; Jun Yan He; Chuanxin Wang; Lei Zhang; Liangliang Kong; Jin Peng Sun; Xiao Yu

doi:10.1038/s41586-022-04590-8

Tethered peptide activation mechanism of the adhesion GPCRs ADGRG2 and ADGRG4

Peng Xiao
, Shengchao Guo
, Xin Wen
, Qing Tao He
, Hui Lin
, Shen Ming Huang
, Lu Gou
, Chao Zhang
, Zhao Yang
, Ya Ni Zhong
, Chuan Cheng Yang
, Yu Li
, Zheng Gong
, Xiao Na Tao
, Zhi Shuai Yang
, Yan Lu
, Shao Long Li
, Jun Yan He
, Chuanxin Wang
, Lei Zhang

Liangliang Kong, Jin Peng Sun, Xiao Yu

物理学院

Shandong University
CAS - Shanghai Advanced Research Institute
Xi'an Jiaotong University
Peking University

科研成果: 期刊稿件 › 文章 › 同行评审

98 引用（Scopus）

摘要

Adhesion G protein-coupled receptors (aGPCRs) constitute an evolutionarily ancient family of receptors that often undergo autoproteolysis to produce α and β subunits^1–3. A tethered agonism mediated by the ‘Stachel sequence’ of the β subunit has been proposed to have central roles in aGPCR activation^4–6. Here we present three cryo-electron microscopy structures of aGPCRs coupled to the G_s heterotrimer. Two of these aGPCRs are activated by tethered Stachel sequences—the ADGRG2-β–G_s complex and the ADGRG4-β–G_s complex (in which β indicates the β subunit of the aGPCR)—and the other is the full-length ADGRG2 in complex with the exogenous ADGRG2 Stachel-sequence-derived peptide agonist IP15 (ADGRG2(FL)–IP15–G_s). The Stachel sequences of both ADGRG2-β and ADGRG4-β assume a U shape and insert deeply into the seven-transmembrane bundles. Constituting the FXφφφXφ motif (in which φ represents a hydrophobic residue), five residues of ADGRG2-β or ADGRG4-β extend like fingers to mediate binding to the seven-transmembrane domain and activation of the receptor. The structure of the ADGRG2(FL)–IP15–G_s complex reveals the structural basis for the improved binding affinity of IP15 compared with VPM–p15 and indicates that rational design of peptidic agonists could be achieved by exploiting aGPCR-β structures. By converting the ‘finger residues’ to acidic residues, we develop a method to generate peptidic antagonists towards several aGPCRs. Collectively, our study provides structural and biochemical insights into the tethered activation mechanism of aGPCRs.

源语言	英语
页（从-至）	771-778
页数	8
期刊	Nature
卷	604
期	7907
DOI	https://doi.org/10.1038/s41586-022-04590-8
出版状态	已出版 - 28 4月 2022

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Xiao, P., Guo, S., Wen, X., He, Q. T., Lin, H., Huang, S. M., Gou, L., Zhang, C., Yang, Z., Zhong, Y. N., Yang, C. C., Li, Y., Gong, Z., Tao, X. N., Yang, Z. S., Lu, Y., Li, S. L., He, J. Y., Wang, C., ... Yu, X. (2022). Tethered peptide activation mechanism of the adhesion GPCRs ADGRG2 and ADGRG4. Nature, 604(7907), 771-778. https://doi.org/10.1038/s41586-022-04590-8

@article{9f1bd13e7f534feb9ec69d1bea5a70c2,

title = "Tethered peptide activation mechanism of the adhesion GPCRs ADGRG2 and ADGRG4",

abstract = "Adhesion G protein-coupled receptors (aGPCRs) constitute an evolutionarily ancient family of receptors that often undergo autoproteolysis to produce α and β subunits1–3. A tethered agonism mediated by the {\textquoteleft}Stachel sequence{\textquoteright} of the β subunit has been proposed to have central roles in aGPCR activation4–6. Here we present three cryo-electron microscopy structures of aGPCRs coupled to the Gs heterotrimer. Two of these aGPCRs are activated by tethered Stachel sequences—the ADGRG2-β–Gs complex and the ADGRG4-β–Gs complex (in which β indicates the β subunit of the aGPCR)—and the other is the full-length ADGRG2 in complex with the exogenous ADGRG2 Stachel-sequence-derived peptide agonist IP15 (ADGRG2(FL)–IP15–Gs). The Stachel sequences of both ADGRG2-β and ADGRG4-β assume a U shape and insert deeply into the seven-transmembrane bundles. Constituting the FXφφφXφ motif (in which φ represents a hydrophobic residue), five residues of ADGRG2-β or ADGRG4-β extend like fingers to mediate binding to the seven-transmembrane domain and activation of the receptor. The structure of the ADGRG2(FL)–IP15–Gs complex reveals the structural basis for the improved binding affinity of IP15 compared with VPM–p15 and indicates that rational design of peptidic agonists could be achieved by exploiting aGPCR-β structures. By converting the {\textquoteleft}finger residues{\textquoteright} to acidic residues, we develop a method to generate peptidic antagonists towards several aGPCRs. Collectively, our study provides structural and biochemical insights into the tethered activation mechanism of aGPCRs.",

author = "Peng Xiao and Shengchao Guo and Xin Wen and He, \{Qing Tao\} and Hui Lin and Huang, \{Shen Ming\} and Lu Gou and Chao Zhang and Zhao Yang and Zhong, \{Ya Ni\} and Yang, \{Chuan Cheng\} and Yu Li and Zheng Gong and Tao, \{Xiao Na\} and Yang, \{Zhi Shuai\} and Yan Lu and Li, \{Shao Long\} and He, \{Jun Yan\} and Chuanxin Wang and Lei Zhang and Liangliang Kong and Sun, \{Jin Peng\} and Xiao Yu",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2022",

month = apr,

day = "28",

doi = "10.1038/s41586-022-04590-8",

language = "英语",

volume = "604",

pages = "771--778",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "7907",

}

Xiao, P, Guo, S, Wen, X, He, QT, Lin, H, Huang, SM, Gou, L, Zhang, C, Yang, Z, Zhong, YN, Yang, CC, Li, Y, Gong, Z, Tao, XN, Yang, ZS, Lu, Y, Li, SL, He, JY, Wang, C, Zhang, L, Kong, L, Sun, JP & Yu, X 2022, 'Tethered peptide activation mechanism of the adhesion GPCRs ADGRG2 and ADGRG4', Nature, 卷 604, 号码 7907, 页码 771-778. https://doi.org/10.1038/s41586-022-04590-8

TY - JOUR

T1 - Tethered peptide activation mechanism of the adhesion GPCRs ADGRG2 and ADGRG4

AU - Xiao, Peng

AU - Guo, Shengchao

AU - Wen, Xin

AU - He, Qing Tao

AU - Lin, Hui

AU - Huang, Shen Ming

AU - Gou, Lu

AU - Zhang, Chao

AU - Yang, Zhao

AU - Zhong, Ya Ni

AU - Yang, Chuan Cheng

AU - Li, Yu

AU - Gong, Zheng

AU - Tao, Xiao Na

AU - Yang, Zhi Shuai

AU - Lu, Yan

AU - Li, Shao Long

AU - He, Jun Yan

AU - Wang, Chuanxin

AU - Zhang, Lei

AU - Kong, Liangliang

AU - Sun, Jin Peng

AU - Yu, Xiao

PY - 2022/4/28

Y1 - 2022/4/28

N2 - Adhesion G protein-coupled receptors (aGPCRs) constitute an evolutionarily ancient family of receptors that often undergo autoproteolysis to produce α and β subunits1–3. A tethered agonism mediated by the ‘Stachel sequence’ of the β subunit has been proposed to have central roles in aGPCR activation4–6. Here we present three cryo-electron microscopy structures of aGPCRs coupled to the Gs heterotrimer. Two of these aGPCRs are activated by tethered Stachel sequences—the ADGRG2-β–Gs complex and the ADGRG4-β–Gs complex (in which β indicates the β subunit of the aGPCR)—and the other is the full-length ADGRG2 in complex with the exogenous ADGRG2 Stachel-sequence-derived peptide agonist IP15 (ADGRG2(FL)–IP15–Gs). The Stachel sequences of both ADGRG2-β and ADGRG4-β assume a U shape and insert deeply into the seven-transmembrane bundles. Constituting the FXφφφXφ motif (in which φ represents a hydrophobic residue), five residues of ADGRG2-β or ADGRG4-β extend like fingers to mediate binding to the seven-transmembrane domain and activation of the receptor. The structure of the ADGRG2(FL)–IP15–Gs complex reveals the structural basis for the improved binding affinity of IP15 compared with VPM–p15 and indicates that rational design of peptidic agonists could be achieved by exploiting aGPCR-β structures. By converting the ‘finger residues’ to acidic residues, we develop a method to generate peptidic antagonists towards several aGPCRs. Collectively, our study provides structural and biochemical insights into the tethered activation mechanism of aGPCRs.

AB - Adhesion G protein-coupled receptors (aGPCRs) constitute an evolutionarily ancient family of receptors that often undergo autoproteolysis to produce α and β subunits1–3. A tethered agonism mediated by the ‘Stachel sequence’ of the β subunit has been proposed to have central roles in aGPCR activation4–6. Here we present three cryo-electron microscopy structures of aGPCRs coupled to the Gs heterotrimer. Two of these aGPCRs are activated by tethered Stachel sequences—the ADGRG2-β–Gs complex and the ADGRG4-β–Gs complex (in which β indicates the β subunit of the aGPCR)—and the other is the full-length ADGRG2 in complex with the exogenous ADGRG2 Stachel-sequence-derived peptide agonist IP15 (ADGRG2(FL)–IP15–Gs). The Stachel sequences of both ADGRG2-β and ADGRG4-β assume a U shape and insert deeply into the seven-transmembrane bundles. Constituting the FXφφφXφ motif (in which φ represents a hydrophobic residue), five residues of ADGRG2-β or ADGRG4-β extend like fingers to mediate binding to the seven-transmembrane domain and activation of the receptor. The structure of the ADGRG2(FL)–IP15–Gs complex reveals the structural basis for the improved binding affinity of IP15 compared with VPM–p15 and indicates that rational design of peptidic agonists could be achieved by exploiting aGPCR-β structures. By converting the ‘finger residues’ to acidic residues, we develop a method to generate peptidic antagonists towards several aGPCRs. Collectively, our study provides structural and biochemical insights into the tethered activation mechanism of aGPCRs.

UR - https://www.scopus.com/pages/publications/85128183718

U2 - 10.1038/s41586-022-04590-8

DO - 10.1038/s41586-022-04590-8

M3 - 文章

C2 - 35418677

AN - SCOPUS:85128183718

SN - 0028-0836

VL - 604

SP - 771

EP - 778

JO - Nature

JF - Nature

IS - 7907

ER -

Tethered peptide activation mechanism of the adhesion GPCRs ADGRG2 and ADGRG4

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