酸敏感离子通道（ASIC）的质子激活和非质子激活

Proton and non-proton activation of ASIC channels.

作者信息

Gautschi Ivan, van Bemmelen Miguel Xavier, Schild Laurent

机构信息

Department of Pharmacology and Toxicology, Faculty of Biology and Medicine, University of Lausanne, Lausanne, Switzerland.

出版信息

PLoS One. 2017 Apr 6;12(4):e0175293. doi: 10.1371/journal.pone.0175293. eCollection 2017.

DOI:10.1371/journal.pone.0175293

PMID:28384246

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5383329/

Abstract

The Acid-Sensing Ion Channels (ASIC) exhibit a fast desensitizing current when activated by pH values below 7.0. By contrast, non-proton ligands are able to trigger sustained ASIC currents at physiological pHs. To analyze the functional basis of the ASIC desensitizing and sustained currents, we have used ASIC1a and ASIC2a mutants with a cysteine in the pore vestibule for covalent binding of different sulfhydryl reagents. We found that ASIC1a and ASIC2a exhibit two distinct currents, a proton-induced desensitizing current and a sustained current triggered by sulfhydryl reagents. These currents differ in their pH dependency, their sensitivity to the sulfhydryl reagents, their ionic selectivity and their relative magnitude. We propose a model for ASIC1 and ASIC2 activity where the channels can function in two distinct modes, a desensitizing mode and a sustained mode depending on the activating ligands. The pore vestibule of the channel represents a functional site for binding non-proton ligands to activate ASIC1 and ASIC2 at neutral pH and to prevent channel desensitization.

摘要

酸敏感离子通道（ASIC）在被低于7.0的pH值激活时会表现出快速脱敏电流。相比之下，非质子配体能够在生理pH值下触发持续的ASIC电流。为了分析ASIC脱敏电流和持续电流的功能基础，我们使用了在孔前庭带有一个半胱氨酸的ASIC1a和ASIC2a突变体，用于不同巯基试剂的共价结合。我们发现ASIC1a和ASIC2a表现出两种不同的电流，一种是质子诱导的脱敏电流，另一种是由巯基试剂触发的持续电流。这些电流在pH依赖性、对巯基试剂的敏感性、离子选择性及其相对大小方面存在差异。我们提出了一个关于ASIC1和ASIC2活性的模型，其中通道可以根据激活配体以两种不同模式发挥作用，即脱敏模式和持续模式。通道的孔前庭代表了一个功能性位点，用于结合非质子配体以在中性pH值下激活ASIC1和ASIC2并防止通道脱敏。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c446/5383329/c7a652854ff4/pone.0175293.g001.jpg

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酸敏感离子通道（ASIC）的质子激活和非质子激活

Proton and non-proton activation of ASIC channels.

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