A lipid site shapes the agonist response of a pentameric ligand-gated ion channel

被引:0
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作者
Camille M. Hénault
Cedric Govaerts
Radovan Spurny
Marijke Brams
Argel Estrada-Mondragon
Joseph Lynch
Daniel Bertrand
Els Pardon
Genevieve L. Evans
Kristen Woods
Benjamin W. Elberson
Luis G. Cuello
Grace Brannigan
Hugues Nury
Jan Steyaert
John E. Baenziger
Chris Ulens
机构
[1] University of Ottawa,Department of Biochemistry, Microbiology and Immunology
[2] Université libre de Bruxelles,Laboratory for the Structure and Function of Biological Membranes, Center for Structural Biology and Bioinformatics
[3] KU Leuven,Laboratory of Structural Neurobiology, Department of Cellular and Molecular Medicine
[4] University of Queensland,Queensland Brain Institute
[5] HiQscreen,Structural Biology Brussels
[6] Vésenaz,Center for Computational and Integrative Biology
[7] Vrije Universiteit Brussel,Department of Physics
[8] VIB-VUB Center for Structural Biology,Department of Cell Physiology and Molecular Biophysics
[9] VIB,undefined
[10] Rutgers University–Camden,undefined
[11] Rutgers University–Camden,undefined
[12] Center for Membrane Protein Research,undefined
[13] TTUHSC,undefined
[14] University Grenoble Alpes,undefined
[15] CNRS,undefined
[16] IBS,undefined
来源
Nature Chemical Biology | 2019年 / 15卷
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摘要
Phospholipids are key components of cellular membranes and are emerging as important functional regulators of different membrane proteins, including pentameric ligand-gated ion channels (pLGICs). Here, we take advantage of the prokaryote channel ELIC (Erwinia ligand-gated ion channel) as a model to understand the determinants of phospholipid interactions in this family of receptors. A high-resolution structure of ELIC in a lipid-bound state reveals a phospholipid site at the lower half of pore-forming transmembrane helices M1 and M4 and at a nearby site for neurosteroids, cholesterol or general anesthetics. This site is shaped by an M4-helix kink and a Trp–Arg–Pro triad that is highly conserved in eukaryote GABAA/C and glycine receptors. A combined approach reveals that M4 is intrinsically flexible and that M4 deletions or disruptions of the lipid-binding site accelerate desensitization in ELIC, suggesting that lipid interactions shape the agonist response. Our data offer a structural context for understanding lipid modulation in pLGICs.
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页码:1156 / 1164
页数:8
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