Structural insights into µ-opioid receptor activation

被引:0
|
作者
Weijiao Huang
Aashish Manglik
A. J. Venkatakrishnan
Toon Laeremans
Evan N. Feinberg
Adrian L. Sanborn
Hideaki E. Kato
Kathryn E. Livingston
Thor S. Thorsen
Ralf C. Kling
Sébastien Granier
Peter Gmeiner
Stephen M. Husbands
John R. Traynor
William I. Weis
Jan Steyaert
Ron O. Dror
Brian K. Kobilka
机构
[1] Stanford University School of Medicine,Department of Molecular and Cellular Physiology
[2] Stanford University,Department of Computer Science
[3] Institute for Computational and Mathematical Engineering,Department of Pharmacology
[4] Stanford University,Department of Chemistry and Pharmacy
[5] Structural Biology Brussels,Department of Pharmacy and Pharmacology
[6] Vrije Universiteit Brussel,Department of Structural Biology
[7] Structural Biology Research Center,undefined
[8] VIB,undefined
[9] University of Michigan,undefined
[10] Friedrich Alexander University,undefined
[11] Institut de Génomique Fonctionnelle,undefined
[12] CNRS UMR-5203 INSERM U1191,undefined
[13] University of Montpellier,undefined
[14] University of Bath,undefined
[15] Stanford University School of Medicine,undefined
来源
Nature | 2015年 / 524卷
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摘要
Activation of the μ-opioid receptor (μOR) is responsible for the efficacy of the most effective analgesics. To shed light on the structural basis for μOR activation, here we report a 2.1 Å X-ray crystal structure of the murine μOR bound to the morphinan agonist BU72 and a G protein mimetic camelid antibody fragment. The BU72-stabilized changes in the μOR binding pocket are subtle and differ from those observed for agonist-bound structures of the β2-adrenergic receptor (β2AR) and the M2 muscarinic receptor. Comparison with active β2AR reveals a common rearrangement in the packing of three conserved amino acids in the core of the μOR, and molecular dynamics simulations illustrate how the ligand-binding pocket is conformationally linked to this conserved triad. Additionally, an extensive polar network between the ligand-binding pocket and the cytoplasmic domains appears to play a similar role in signal propagation for all three G-protein-coupled receptors.
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页码:315 / 321
页数:6
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