平滑肌中钙激活钾通道的铯离子阻断机制

Mechanisms of Cs+ blockade in a Ca2+-activated K+ channel from smooth muscle.

作者信息

Cecchi X, Wolff D, Alvarez O, Latorre R

机构信息

Departmento de Biologia, Universidad de Chile, Santiago.

出版信息

Biophys J. 1987 Nov;52(5):707-16. doi: 10.1016/S0006-3495(87)83265-4.

DOI:10.1016/S0006-3495(87)83265-4

PMID:2447963

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1330175/

Abstract

Large unitary conductance Ca2+-activated K+ channels from smooth muscle membrane were incorporated into phospholipid planar bilayers, and the blockade induced by internally and externally applied Cs+ was characterized. Internal Cs+ blockade is voltage dependent and can be explained on the basis of a Cs+ binding to a site that senses 54% of the applied voltage, with an apparent dissociation constant, Kd(0), of 70 mM. On the other hand, external Cs+ blocks the channel in micromolar amounts, and the voltage dependence of blockade is a function of Cs+ concentration. The fractional electrical distance can be as large as 1.4 at 10 mM Cs+. This last result suggests that the channel behaves as a multi-ion pore. At large negative voltages the I-V relationships in the presence of external Cs+ show an upturn, indicating relief of Cs+ block. External Cs+ blockade is relieved by increasing the internal K+ concentration, but can be enhanced by increasing the external K+. All the characteristics of external Cs+ block can be explained by a model that incorporates a "knock-on" of Cs+ by K+.

摘要

将平滑肌细胞膜上的大单位电导钙激活钾通道整合到磷脂平面双分子层中，并对内外施加铯离子（Cs⁺）所引起的阻断作用进行了表征。内部Cs⁺阻断具有电压依赖性，并且可以基于Cs⁺与一个能感知54%施加电压的位点结合来解释，其表观解离常数Kd(0)为70 mM。另一方面，外部Cs⁺以微摩尔量阻断通道，并且阻断的电压依赖性是Cs⁺浓度的函数。在10 mM Cs⁺时，分数电距离可高达1.4。最后这一结果表明该通道表现为多离子孔道。在大的负电压下，存在外部Cs⁺时的电流-电压关系出现上翘，表明Cs⁺阻断得到缓解。通过增加内部钾离子（K⁺）浓度可缓解外部Cs⁺阻断，但通过增加外部K⁺可增强阻断作用。外部Cs⁺阻断的所有特征都可以用一个包含K⁺对Cs⁺“撞击”的模型来解释。

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