Structural basis for activation of the growth hormone-releasing hormone receptor

Zhou, Fulai; Zhang, Huibing; Cong, Zhaotong; Zhao, Lihua; Zhou, Qingtong; Mao, Chunyou; Cheng, Xi; Shen, Dan‐Dan; Cai, Xiaoqing; Ma, Cheng; Wang, Yuzhe; Dai, Antao; Zhou, Yan; Sun, Wen; Zhao, Fuqiang; Zhao, Suwen; Jiang, Hualiang; Jiang, Yi; Yang, Dehua; Xu, Hao; Zhang, Yan; Wang, Mingwei

doi:10.1038/s41467-020-18945-0

Cited by 59 publications

(54 citation statements)

References 56 publications

(75 reference statements)

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“…Our application of 3D variance analysis to recently solved structures of class B GPCRs, including adenomedullin-1 (AM1) and AM2 receptors 19 , the secretin receptor 20 and GLP-1R bound to peptide and small molecule agonists 14 has revealed common rocking and rotational motions of the G protein relative to the receptors. This is consistent with transient formation and breakage of interactions that are likely to be important in receptor-mediated G protein recruitment and activation, and low resolution for parts of ICL3 and the extension of H8 for class B GPCRs 3,8,9,15,[19][20][21][22][23][24][25][26][27][28] are consistent with transient interactions between these domains and the G protein. ICL2 exhibited densities consistent with 2 metastable conformations that exhibited differences in the consensus maps solved in the presence and absence of Nb35, and where higher resolution was apparent for the complex without Nb35.…”

Section: Discussionsupporting

confidence: 76%

“…A key conformational change required nucleotide exchange is outward movement of the AHD of Gs, relative to the ras-like domain. The AHD of Gαs in the nucleotide-free state is highly mobile, thereby occupying different positions around the ras-like domain 30 , and it is poorly resolved in most consensus cryo-EM maps of solved class B GPCR-G protein complexes 3,8,9,15,[19][20][21][22][23][24][25][26][27][28] . When bound with Nb35, 3D multivariate analysis of PF 06882961-GLP-1R-DNGs complex revealed translational motion between open ("up" position) and more closed ("down" position) conformations of the AHD.…”

Section: Discussionmentioning

confidence: 99%

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Evolving cryo-EM structural approaches for GPCR drug discovery

Zhang

Johnson

Drulyte

et al. 2021

Preprint

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G protein-coupled receptors (GPCRs) are the largest class of cell surface drug targets. Advances in biochemical approaches for the stabilisation of GPCR:transducer complexes together with improvements in the technology and application of cryo-EM has recently opened up new possibilities for structure-assisted drug design of GPCR agonists. Nonetheless, limitations in the commercial application of some of these approaches, including the use of nanobody 35 (Nb35) for stabilisation of GPCR:Gs complexes, and the high cost of 300kV imaging have restricted broad application of cryo-EM in drug discovery. Here, using the PF 06882961-bound GLP-1R as exemplar, we validated formation of stable complexes with a modified Gs protein in the absence of Nb35 that had equivalent resolution in the drug binding pocket to complexes solved in the presence of Nb35, while the G protein displayed increased conformational dynamics. In parallel, we assessed the performance of 200kV versus 300kV image acquisition using a Falcon 4 or K3 direct electron detector. We show that with 300kV Krios, both bottom mounted Falcon 4 and energy filtered (25eV slit) Bio-Quantum K3 produced similar resolution. Moreover, the 200kV Glacios with bottom mounted Falcon 4 yielded a 3.2 Å map with clear density for bound drug and multiple structurally ordered waters. Our work paves the way for broader commercial application of cryo-EM for GPCR drug discovery.

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Section: Discussionsupporting

confidence: 76%

Section: Discussionmentioning

confidence: 99%

Evolving cryo-EM structural approaches for GPCR drug discovery

Zhang

Johnson

Drulyte

et al. 2021

Preprint

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“…The overall structure of active GLP-2R–G s complex is similar to other class B GPCR–G s complexes such as GLP-1–GLP-1R–G s , 13 ExP5–GLP-1R–G s , 17 glucagon–GCGR–G s , 18 LA-PTH–PTH1R–G s 19 and GHRH–GHRHR–G s , 26 with root mean square deviation (RMSD) values of 1.76, 1.05, 1.55, 1.09 and 0.95 Å for the whole complex, respectively. When pointing toward the glucagon receptor subfamily, notable conformational differences were observed in the extracellular half of GLP-2R where the peptide hormone binds, especially in TM1, ECL1 and TM7, indicating that GLP-2R utilizes a distinct peptide-recognition mode specific for GLP-2, but not for GLP-1, glucagon or GHRH.…”

Section: Resultsmentioning

confidence: 64%

A unique hormonal recognition feature of the human glucagon-like peptide-2 receptor

et al. 2020

Self Cite

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Glucagon-like peptides (GLP-1 and GLP-2) are two proglucagon-derived intestinal hormones that mediate distinct physiological functions through two related receptors (GLP-1R and GLP-2R) which are important drug targets for metabolic disorders and Crohn’s disease, respectively. Despite great progress in GLP-1R structure determination, our understanding on the differences of peptide binding and signal transduction between these two receptors remains elusive. Here we report the electron microscopy structure of the human GLP-2R in complex with GLP-2 and a Gs heterotrimer. To accommodate GLP-2 rather than GLP-1, GLP-2R fine-tunes the conformations of the extracellular parts of transmembrane helices (TMs) 1, 5, 7 and extracellular loop 1 (ECL1). In contrast to GLP-1, the N-terminal histidine of GLP-2 penetrates into the receptor core with a unique orientation. The middle region of GLP-2 engages with TM1 and TM7 more extensively than with ECL2, and the GLP-2 C-terminus closely attaches to ECL1, which is the most protruded among 9 class B G protein-coupled receptors (GPCRs). Functional studies revealed that the above three segments of GLP-2 are essential for GLP-2 recognition and receptor activation, especially the middle region. These results provide new insights into the molecular basis of ligand specificity in class B GPCRs and may facilitate the development of more specific therapeutics.

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“…2 ). This strategy has been successfully used in solving several GPCR/G-protein complexes structures, including the vasoactive intestinal polypeptide receptor 21 (VIP1R)/G s and growth hormone-releasing hormone receptor/G s complexes 22 . Indeed, the NanoBiT tethering strategy greatly improves the composition of the complex (Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

Cryo-EM structure of the human histamine H1 receptor/Gq complex

Xia

Wang

et al. 2021

Nat Commun

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Histamine receptors play important roles in various pathophysiological conditions and are effective targets for anti-allergy treatment, however the mechanism of receptor activation remain elusive. Here, we present the cryo-electron microscopy (cryo-EM) structure of the human H1R in complex with a Gq protein in an active conformation via a NanoBiT tethering strategy. The structure reveals that histamine activates receptor via interacting with the key residues of both transmembrane domain 3 (TM3) and TM6 to squash the binding pocket on the extracellular side and to open the cavity on the intracellular side for Gq engagement in a model of “squash to activate and expand to deactivate”. The structure also reveals features for Gq coupling, including the interaction between intracellular loop 2 (ICL2) and the αN-β junction of Gq/11 protein. The detailed analysis of our structure will provide a framework for understanding G-protein coupling selectivity and clues for designing novel antihistamines.

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Structural basis for activation of the growth hormone-releasing hormone receptor

Cited by 59 publications

References 56 publications

Evolving cryo-EM structural approaches for GPCR drug discovery

Evolving cryo-EM structural approaches for GPCR drug discovery

A unique hormonal recognition feature of the human glucagon-like peptide-2 receptor

Cryo-EM structure of the human histamine H1 receptor/Gq complex

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