KcsA钾通道中pH感知的分子机制。

Molecular mechanism of pH sensing in KcsA potassium channels.

作者信息

Thompson Ameer N, Posson David J, Parsa Pirooz V, Nimigean Crina M

机构信息

Department of Anesthesiology, Weill Cornell Medical College, New York City, NY 10065, USA.

出版信息

Proc Natl Acad Sci U S A. 2008 May 13;105(19):6900-5. doi: 10.1073/pnas.0800873105. Epub 2008 Apr 28.

DOI:10.1073/pnas.0800873105

PMID:18443286

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2383984/

Abstract

The bacterial potassium channel KcsA is gated by high concentrations of intracellular protons, allowing the channel to open at pH < 5.5. Despite prior attempts to determine the mechanism responsible for pH gating, the proton sensor has remained elusive. We have constructed a KcsA channel mutant that remains open up to pH 9.0 by replacing key ionizable residues from the N and C termini of KcsA with residues mimicking their protonated counterparts with respect to charge. A series of individual and combined mutations were investigated by using single-channel recordings in lipid bilayers. We propose that these residues are the proton-binding sites and at neutral pH they form a complex network of inter- and intrasubunit salt bridges and hydrogen bonds near the bundle crossing that greatly stabilize the closed state. In our model, these residues change their ionization state at acidic pH, thereby disrupting this network, modifying the electrostatic landscape near the channel gate, and favoring channel opening.

摘要

细菌钾通道KcsA由高浓度的细胞内质子控制门控，使得该通道在pH < 5.5时打开。尽管之前曾尝试确定负责pH门控的机制，但质子传感器仍然难以捉摸。我们构建了一个KcsA通道突变体，通过将KcsA的N端和C端的关键可电离残基替换为在电荷方面模拟其质子化对应物的残基，该突变体在pH高达9.0时仍保持开放。通过在脂质双层中进行单通道记录，研究了一系列单个和组合突变。我们提出这些残基是质子结合位点，在中性pH下，它们在束交叉附近形成亚基间和亚基内盐桥以及氢键的复杂网络，极大地稳定了关闭状态。在我们的模型中，这些残基在酸性pH下改变其电离状态，从而破坏该网络，改变通道门附近的静电环境，并有利于通道开放。

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Structure. 2007 Dec;15(12):1654-62. doi: 10.1016/j.str.2007.09.022.

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