电压依赖性激活的 K 通道的两阶段机电耦联。

Two-stage electro-mechanical coupling of a K channel in voltage-dependent activation.

机构信息

Department of Biomedical Engineering, Center for the Investigation of Membrane Excitability Disorders, Cardiac Bioelectricity and Arrhythmia Center, Washington University in St. Louis, St. Louis, MO, 63130, USA.

Université de Lorraine, CNRS, LPCT, 53000, Nancy, France.

出版信息

Nat Commun. 2020 Feb 3;11(1):676. doi: 10.1038/s41467-020-14406-w.

DOI:10.1038/s41467-020-14406-w

PMID:32015334

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6997178/

Abstract

In voltage-gated potassium (K) channels, the voltage-sensing domain (VSD) undergoes sequential activation from the resting state to the intermediate state and activated state to trigger pore opening via electro-mechanical (E-M) coupling. However, the spatial and temporal details underlying E-M coupling remain elusive. Here, utilizing K7.1's unique two open states, we report a two-stage E-M coupling mechanism in voltage-dependent gating of K7.1 as triggered by VSD activations to the intermediate and then activated state. When the S4 segment transitions to the intermediate state, the hand-like C-terminus of the VSD-pore linker (S4-S5L) interacts with the pore in the same subunit. When S4 then proceeds to the fully-activated state, the elbow-like hinge between S4 and S4-S5L engages with the pore of the neighboring subunit to activate conductance. This two-stage hand-and-elbow gating mechanism elucidates distinct tissue-specific modulations, pharmacology, and disease pathogenesis of K7.1, and likely applies to numerous domain-swapped K channels.

摘要

在电压门控钾 (K) 通道中，电压传感域 (VSD) 从静息状态到中间状态再到激活状态依次激活，通过机电 (E-M) 偶联触发孔道开放。然而，E-M 偶联背后的空间和时间细节仍然难以捉摸。在这里，我们利用 K7.1 的独特两个开放状态，报告了 K7.1 电压依赖性门控中存在的两阶段 E-M 偶联机制，该机制由 VSD 激活到中间状态然后到激活状态触发。当 S4 片段过渡到中间状态时，VSD-孔道连接体 (S4-S5L) 的手状 C 末端与同一亚基中的孔道相互作用。然后，当 S4 进一步进入完全激活状态时，S4 和 S4-S5L 之间的肘状铰链与相邻亚基的孔道结合以激活电导。这种两阶段的手和肘门控机制阐明了 K7.1 的独特组织特异性调节、药理学和疾病发病机制，并且可能适用于许多结构域交换的 K 通道。

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电压依赖性激活的 K 通道的两阶段机电耦联。

Two-stage electro-mechanical coupling of a K channel in voltage-dependent activation.

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