Ng, Chai Ann and Perry, Matthew D and Tan, Peter S and Hill, Adam P and Kuchel, Philip W and Vandenberg, Jamie I (2012) The S4-S5 linker acts as a signal integrator for HERG K+ channel activation and deactivation gating. PloS one, 7 (2). e31640. ISSN 1932-6203 (Gold OA)
Ng, Chai Ann and Perry, Matthew D and Tan, Peter S and Hill, Adam P and Kuchel, Philip W and Vandenberg, Jamie I (2012) The S4-S5 linker acts as a signal integrator for HERG K+ channel activation and deactivation gating. PloS one, 7 (2). e31640. ISSN 1932-6203 (Gold OA)
Ng, Chai Ann and Perry, Matthew D and Tan, Peter S and Hill, Adam P and Kuchel, Philip W and Vandenberg, Jamie I (2012) The S4-S5 linker acts as a signal integrator for HERG K+ channel activation and deactivation gating. PloS one, 7 (2). e31640. ISSN 1932-6203 (Gold OA)
Abstract
Human ether-à-go-go-related gene (hERG) K(+) channels have unusual gating kinetics. Characterised by slow activation/deactivation but rapid inactivation/recovery from inactivation, the unique gating kinetics underlie the central role hERG channels play in cardiac repolarisation. The slow activation and deactivation kinetics are regulated in part by the S4-S5 linker, which couples movement of the voltage sensor domain to opening of the activation gate at the distal end of the inner helix of the pore domain. It has also been suggested that cytosolic domains may interact with the S4-S5 linker to regulate activation and deactivation kinetics. Here, we show that the solution structure of a peptide corresponding to the S4-S5 linker of hERG contains an amphipathic helix. The effects of mutations at the majority of residues in the S4-S5 linker of hERG were consistent with the previously identified role in coupling voltage sensor movement to the activation gate. However, mutations to Ser543, Tyr545, Gly546 and Ala548 had more complex phenotypes indicating that these residues are involved in additional interactions. We propose a model in which the S4-S5 linker, in addition to coupling VSD movement to the activation gate, also contributes to interactions that stabilise the closed state and a separate set of interactions that stabilise the open state. The S4-S5 linker therefore acts as a signal integrator and plays a crucial role in the slow deactivation kinetics of the channel. (ARC DP0986316; NHMRC 459401 and 1010029; National Heart Foundation of Australia G09S grants).
Metadata
Subjects: | R Medicine > R Medicine (General) |
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Depositing User: | Ms Britt Granath |
Date Deposited: | 21 Dec 2015 05:20 |
Last Modified: | 22 Jan 2016 03:10 |
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Filename: 2012 Ng _PLoS One _hERG S4S5 JVAN OA.pdf