Cryo-EM Structure of the Open Human Ether-à-go-go-Related K+ Channel hERG

Weiwei Wang; Roderick MacKinnon

doi:10.1016/j.cell.2017.03.048

Cryo-EM Structure of the Open Human Ether-à-go-go-Related K⁺ Channel hERG

Weiwei Wang, Roderick MacKinnon

Research output: Contribution to journal › Article › peer-review

337 Scopus citations

Abstract

The human ether-à-go-go-related potassium channel (hERG, Kv11.1) is a voltage-dependent channel known for its role in repolarizing the cardiac action potential. hERG alteration by mutation or pharmacological inhibition produces Long QT syndrome and the lethal cardiac arrhythmia torsade de pointes. We have determined the molecular structure of hERG to 3.8 Å using cryo-electron microscopy. In this structure, the voltage sensors adopt a depolarized conformation, and the pore is open. The central cavity has an atypically small central volume surrounded by four deep hydrophobic pockets, which may explain hERG's unusual sensitivity to many drugs. A subtle structural feature of the hERG selectivity filter might correlate with its fast inactivation rate, which is key to hERG's role in cardiac action potential repolarization.

Original language	English (US)
Pages (from-to)	422-430.e10
Journal	Cell
Volume	169
Issue number	3
DOIs	https://doi.org/10.1016/j.cell.2017.03.048
State	Published - Apr 20 2017
Externally published	Yes

Keywords

K channel
cryo-EM
drug-induced Long QT
hERG
hERG block
inactivation
structure
voltage-dependent gating

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

Access to Document

10.1016/j.cell.2017.03.048

Cite this

@article{d38cc78277af4c29bba58203c76abaf3,

title = "Cryo-EM Structure of the Open Human Ether-{\`a}-go-go-Related K+ Channel hERG",

abstract = "The human ether-{\`a}-go-go-related potassium channel (hERG, Kv11.1) is a voltage-dependent channel known for its role in repolarizing the cardiac action potential. hERG alteration by mutation or pharmacological inhibition produces Long QT syndrome and the lethal cardiac arrhythmia torsade de pointes. We have determined the molecular structure of hERG to 3.8 {\AA} using cryo-electron microscopy. In this structure, the voltage sensors adopt a depolarized conformation, and the pore is open. The central cavity has an atypically small central volume surrounded by four deep hydrophobic pockets, which may explain hERG's unusual sensitivity to many drugs. A subtle structural feature of the hERG selectivity filter might correlate with its fast inactivation rate, which is key to hERG's role in cardiac action potential repolarization.",

keywords = "K channel, cryo-EM, drug-induced Long QT, hERG, hERG block, inactivation, structure, voltage-dependent gating",

author = "Weiwei Wang and Roderick MacKinnon",

note = "Publisher Copyright: {\textcopyright} 2017 Elsevier Inc.",

year = "2017",

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doi = "10.1016/j.cell.2017.03.048",

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AU - MacKinnon, Roderick

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N2 - The human ether-à-go-go-related potassium channel (hERG, Kv11.1) is a voltage-dependent channel known for its role in repolarizing the cardiac action potential. hERG alteration by mutation or pharmacological inhibition produces Long QT syndrome and the lethal cardiac arrhythmia torsade de pointes. We have determined the molecular structure of hERG to 3.8 Å using cryo-electron microscopy. In this structure, the voltage sensors adopt a depolarized conformation, and the pore is open. The central cavity has an atypically small central volume surrounded by four deep hydrophobic pockets, which may explain hERG's unusual sensitivity to many drugs. A subtle structural feature of the hERG selectivity filter might correlate with its fast inactivation rate, which is key to hERG's role in cardiac action potential repolarization.

AB - The human ether-à-go-go-related potassium channel (hERG, Kv11.1) is a voltage-dependent channel known for its role in repolarizing the cardiac action potential. hERG alteration by mutation or pharmacological inhibition produces Long QT syndrome and the lethal cardiac arrhythmia torsade de pointes. We have determined the molecular structure of hERG to 3.8 Å using cryo-electron microscopy. In this structure, the voltage sensors adopt a depolarized conformation, and the pore is open. The central cavity has an atypically small central volume surrounded by four deep hydrophobic pockets, which may explain hERG's unusual sensitivity to many drugs. A subtle structural feature of the hERG selectivity filter might correlate with its fast inactivation rate, which is key to hERG's role in cardiac action potential repolarization.

KW - K channel

KW - cryo-EM

KW - drug-induced Long QT

KW - hERG

KW - hERG block

KW - inactivation

KW - structure

KW - voltage-dependent gating

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