钠通道激活剂：孔内结合模型及可能的作用机制。

Sodium channel activators: model of binding inside the pore and a possible mechanism of action.

作者信息

Tikhonov Denis B, Zhorov Boris S

机构信息

Department of Biochemistry and Biomedical Sciences, McMaster University, 1200 Main Street West, Hamilton, Ontario, Canada.

出版信息

FEBS Lett. 2005 Aug 15;579(20):4207-12. doi: 10.1016/j.febslet.2005.07.017.

DOI:10.1016/j.febslet.2005.07.017

PMID:16083886

Abstract

Sodium channel activators, batrachotoxin and veratridine, cause sodium channels to activate easier and stay open longer than normal channels. Traditionally, this was explained by an allosteric mechanism. However, increasing evidence suggests that activators can bind inside the pore. Here, we model the open sodium channel with activators and propose a novel mechanism of their action. The activator-bound channel retains a hydrophilic pathway for ions between the ligand and conserved asparagine in segment S6 of repeat II. One end of the activator approaches the selectivity filter, decreasing the channel conductance and selectivity. The opposite end reaches the gate stabilizing it in the open state.

摘要

钠通道激活剂，如箭毒蛙毒素和藜芦碱，会使钠通道比正常通道更容易激活且开放时间更长。传统上，这是通过变构机制来解释的。然而，越来越多的证据表明激活剂可以结合在通道孔内部。在此，我们对含有激活剂的开放钠通道进行建模，并提出了一种新的作用机制。与激活剂结合的通道在配体和重复序列II的S6段中保守的天冬酰胺之间保留了一条离子亲水性通道。激活剂的一端靠近选择性过滤器，降低了通道的电导率和选择性。另一端到达门控结构，使其稳定在开放状态。

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钠通道激活剂：孔内结合模型及可能的作用机制。

Sodium channel activators: model of binding inside the pore and a possible mechanism of action.

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