Triclosan is a KCNQ3 potassium channel activator

Pflügers Archiv - European Journal of Physiology Pub Date : 2021-10-01 DOI:10.1101/2021.09.30.462664

Victor De la Rosa, M. Guzmán-Hernández, Elisa Carrillo

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引用次数: 1

Abstract

KCNQ channels participate in the physiology of several cell types. In neurons of the central nervous system, the primary subunits are KCNQ2, 3, and 5. Activation of these channels silence the neurons, limiting action potential duration and preventing high-frequency action potential burst. Loss-of-function mutations of the KCNQ channels are associated with a wide spectrum of phenotypes characterized by hyperexcitability. Hence, pharmacological activation of these channels is an attractive strategy to treat epilepsy and other hyperexcitability conditions as are the evolution of stroke and traumatic brain injury. In this work we show that triclosan, a bactericide widely used in personal care products, activates the KCNQ3 channels but not the KCNQ2. Triclosan induces a voltage shift in the activation, increases the conductance, and slows the closing of the channel. The response is independent of PIP2. Molecular docking simulations together with site-directed mutagenesis suggest that the putative binding site is in the voltage sensor domain. Our results indicate that triclosan is a new activator for KCNQ channels.

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三氯生是KCNQ3钾通道活化剂

KCNQ通道参与多种细胞类型的生理活动。在中枢神经系统的神经元中，主要的亚基是KCNQ2、3和5。这些通道的激活使神经元沉默，限制动作电位持续时间，防止高频动作电位爆发。KCNQ通道的功能丧失突变与以高兴奋性为特征的广泛表型相关。因此，这些通道的药理激活是治疗癫痫和其他高兴奋性疾病的一种有吸引力的策略，也是中风和创伤性脑损伤的演变。在这项工作中，我们表明，三氯生，一种广泛用于个人护理产品的杀菌剂，激活KCNQ3通道，而不是KCNQ2。三氯生在激活过程中引起电压移位，增加电导，减缓通道的关闭。响应与PIP2无关。分子对接模拟和定点诱变表明，假定的结合位点位于电压传感器域。结果表明，三氯生是一种新的KCNQ通道活化剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pflügers Archiv - European Journal of Physiology

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