Huibing Zhang scite author profile

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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Structures of the glucocorticoid-bound adhesion receptor GPR97–Go complex

Ping

Mao

Peng

et al. 2021

Nature

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

et al. 2020

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Growth hormone-releasing hormone (GHRH) regulates the secretion of growth hormone that virtually controls metabolism and growth of every tissue through its binding to the cognate receptor (GHRHR). Malfunction in GHRHR signaling is associated with abnormal growth, making GHRHR an attractive therapeutic target against dwarfism (e.g., isolated growth hormone deficiency, IGHD), gigantism, lipodystrophy and certain cancers. Here, we report the cryo-electron microscopy (cryo-EM) structure of the human GHRHR bound to its endogenous ligand and the stimulatory G protein at 2.6 Å. This high-resolution structure reveals a characteristic hormone recognition pattern of GHRH by GHRHR, where the α-helical GHRH forms an extensive and continuous network of interactions involving all the extracellular loops (ECLs), all the transmembrane (TM) helices except TM4, and the extracellular domain (ECD) of GHRHR, especially the N-terminus of GHRH that engages a broad set of specific interactions with the receptor. Mutagenesis and molecular dynamics (MD) simulations uncover detailed mechanisms by which IGHD-causing mutations lead to the impairment of GHRHR function. Our findings provide insights into the molecular basis of peptide recognition and receptor activation, thereby facilitating the development of structure-based drug discovery and precision medicine.

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Ligand recognition, unconventional activation, and G protein coupling of the prostaglandin E ₂ receptor EP2 subtype

Mao

Peng

et al. 2021

Sci. Adv.

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Selective modulation of the heterotrimeric G protein α S subunit–coupled prostaglandin E2 (PGE2) receptor EP2 subtype is a promising therapeutic strategy for osteoporosis, ocular hypertension, neurodegenerative diseases, and cardiovascular disorders. Here, we report the cryo–electron microscopy structure of the EP2-Gs complex with its endogenous agonist PGE2 and two synthesized agonists, taprenepag and evatanepag (CP-533536). These structures revealed distinct features of EP2 within the EP receptor family in terms of its unconventional receptor activation and G protein coupling mechanisms, including activation in the absence of a typical W6.48 “toggle switch” and coupling to Gs via helix 8. Moreover, inspection of the agonist-bound EP2 structures uncovered key motifs governing ligand selectivity. Our study provides important knowledge for agonist recognition and activation mechanisms of EP2 and will facilitate the rational design of drugs targeting the PGE2 signaling system.

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Mechanism of dopamine binding and allosteric modulation of the human D1 dopamine receptor

et al. 2021

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Identification and mechanism of G protein-biased ligands for chemokine receptor CCR1

et al. 2021

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Biased signaling of G protein-coupled receptors describes an ability of different ligands that preferentially activate an alternative downstream signaling pathway. In this work, we identified and characterized different N-terminal truncations of endogenous chemokine CCL15 as balanced or biased agonists targeting CCR1, and presented three cryogenic-electron microscopy structures of the CCR1–Gi complex in the ligand-free form or bound to different CCL15 truncations with a resolution of 2.6–2.9 Å, illustrating the structural basis of natural biased signaling that initiates an inflammation response. Complemented with pharmacological and computational studies, these structures revealed it was the conformational change of Tyr291 (Y2917.43) in CCR1 that triggered its polar network rearrangement in the orthosteric binding pocket and allosterically regulated the activation of β-arrestin signaling. Our structure of CCL15-bound CCR1 also exhibited a critical site for ligand binding distinct from many other chemokine–receptor complexes, providing new insights into the mode of chemokine recognition.

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Molecular mechanism of agonism and inverse agonism in ghrelin receptor

Qin

Cai

et al. 2022

Nat Commun

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Much effort has been invested in the investigation of the structural basis of G protein-coupled receptors (GPCRs) activation. Inverse agonists, which can inhibit GPCRs with constitutive activity, are considered useful therapeutic agents, but the molecular mechanism of such ligands remains insufficiently understood. Here, we report a crystal structure of the ghrelin receptor bound to the inverse agonist PF-05190457 and a cryo-electron microscopy structure of the active ghrelin receptor-Go complex bound to the endogenous agonist ghrelin. Our structures reveal a distinct binding mode of the inverse agonist PF-05190457 in the ghrelin receptor, different from the binding mode of agonists and neutral antagonists. Combining the structural comparisons and cellular function assays, we find that a polar network and a notable hydrophobic cluster are required for receptor activation and constitutive activity. Together, our study provides insights into the detailed mechanism of ghrelin receptor binding to agonists and inverse agonists, and paves the way to design specific ligands targeting ghrelin receptors.

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Huibing Zhang

Structural insights into the lipid and ligand regulation of serotonin receptors

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

Structures of the glucocorticoid-bound adhesion receptor GPR97–Go complex

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

Ligand recognition, unconventional activation, and G protein coupling of the prostaglandin E ₂ receptor EP2 subtype

Mechanism of dopamine binding and allosteric modulation of the human D1 dopamine receptor

Identification and mechanism of G protein-biased ligands for chemokine receptor CCR1

Molecular mechanism of agonism and inverse agonism in ghrelin receptor

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Huibing Zhang

Structural insights into the lipid and ligand regulation of serotonin receptors

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

Structures of the glucocorticoid-bound adhesion receptor GPR97–Go complex

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

Ligand recognition, unconventional activation, and G protein coupling of the prostaglandin E 2 receptor EP2 subtype

Mechanism of dopamine binding and allosteric modulation of the human D1 dopamine receptor

Identification and mechanism of G protein-biased ligands for chemokine receptor CCR1

Molecular mechanism of agonism and inverse agonism in ghrelin receptor

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Resources

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Ligand recognition, unconventional activation, and G protein coupling of the prostaglandin E ₂ receptor EP2 subtype