Structural basis of TRPV5 channel inhibition by econazole revealed by cryo-EM

被引:0
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作者
Taylor E. T. Hughes
David T. Lodowski
Kevin W. Huynh
Aysenur Yazici
John Del Rosario
Abhijeet Kapoor
Sandip Basak
Amrita Samanta
Xu Han
Sudha Chakrapani
Z. Hong Zhou
Marta Filizola
Tibor Rohacs
Seungil Han
Vera Y. Moiseenkova-Bell
机构
[1] School of Medicine,Department of Pharmacology
[2] Case Western Reserve University,Department of Nutrition
[3] School of Medicine,California NanoSystems Institute
[4] Case Western Reserve University,Department of Pharmacology
[5] University of California,Department of Pharmacological Sciences
[6] Los Angeles,Department of Physiology and Biophysics School of Medicine
[7] Physiology and Neuroscience,Department of Systems Pharmacology and Translational Therapeutics
[8] New Jersey Medical School,undefined
[9] Rutgers University,undefined
[10] Icahn School of Medicine at Mount Sinai,undefined
[11] Case Western Reserve University,undefined
[12] Pfizer Research and Development,undefined
[13] Perelman School of Medicine,undefined
[14] University of Pennsylvania,undefined
来源
Nature Structural & Molecular Biology | 2018年 / 25卷
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摘要
The transient receptor potential vanilloid 5 (TRPV5) channel is a member of the transient receptor potential (TRP) channel family, which is highly selective for Ca2+, that is present primarily at the apical membrane of distal tubule epithelial cells in the kidney and plays a key role in Ca2+ reabsorption. Here we present the structure of the full-length rabbit TRPV5 channel as determined using cryo-EM in complex with its inhibitor econazole. This structure reveals that econazole resides in a hydrophobic pocket analogous to that occupied by phosphatidylinositides and vanilloids in TRPV1, thus suggesting conserved mechanisms for ligand recognition and lipid binding among TRPV channels. The econazole-bound TRPV5 structure adopts a closed conformation with a distinct lower gate that occludes Ca2+ permeation through the channel. Structural comparisons between TRPV5 and other TRPV channels, complemented with molecular dynamics (MD) simulations of the econazole-bound TRPV5 structure, allowed us to gain mechanistic insight into TRPV5 channel inhibition by small molecules.
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页码:53 / 60
页数:7
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