鱿鱼轴突中钠通道的9-氨基吖啶阻断动力学

Dynamics of 9-aminoacridine block of sodium channels in squid axons.

作者信息

Yeh J Z

出版信息

J Gen Physiol. 1979 Jan;73(1):1-21. doi: 10.1085/jgp.73.1.1.

DOI:10.1085/jgp.73.1.1

PMID:438763

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2215235/

Abstract

The interactions of 9-aminoacridine with ionic channels were studied in internally perfused squid axons. The kinetics of block of Na channels with 9-aminoacridine varies depending on the voltage-clamp pulses and the state of gating machinery of Na channels. In an axon with intact h gate, the block exhibits frequency- and voltage-dependent characteristics. However, in the pronase-perfused axon, the frequency-dependent block disappears, whereas the voltage-dependent block remains unchanged. A time-dependent decrease in Na currents indicative of direct block of Na channel by drug molecule follows a single exponential function with a time constant of 2.0 +/- 0.18 and 1.0 +/- 0.19 ms (at 10 degrees C and 80 m V) for 30 and 100 microM 9-aminoacridine, respectively. A steady-state block can be achieved during a single 8-ms depolarizing pulse when the h gate has been removed. The block in the h-gate intact axon can be achieved only with multiple conditioning pulses. The voltage-dependent block suggests that 9-aminoacridine binds to a site located halfway across the membrane with a dissociation constant of 62 microM at 0 m V. 9-Aminoacridine also blocks K channels, and the block is time- and voltage-dependent.

摘要

在内部灌流的枪乌贼轴突中研究了9-氨基吖啶与离子通道的相互作用。9-氨基吖啶对钠通道的阻断动力学因电压钳制脉冲和钠通道门控机制的状态而异。在h门完整的轴突中，阻断表现出频率和电压依赖性特征。然而，在链霉蛋白酶灌流的轴突中，频率依赖性阻断消失，而电压依赖性阻断保持不变。药物分子对钠通道的直接阻断导致钠电流随时间下降，对于30 microM和100 microM的9-氨基吖啶，分别遵循单指数函数，时间常数为2.0±0.18和1.0±0.19毫秒（在10℃和80 mV下）。当h门被去除时，在单个8毫秒的去极化脉冲期间可以实现稳态阻断。在h门完整的轴突中，只有通过多个条件脉冲才能实现阻断。电压依赖性阻断表明，9-氨基吖啶与位于膜中部的一个位点结合，在0 mV时解离常数为62 microM。9-氨基吖啶也阻断钾通道，且该阻断具有时间和电压依赖性。

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