骨骼肌钠通道快速失活后恢复的延迟即为失活。

The delay in recovery from fast inactivation in skeletal muscle sodium channels is deactivation.

作者信息

Groome J R, Fujimoto E, Ruben P C

机构信息

Department of Biology, Harvey Mudd College, Claremont, California 91711, USA.

出版信息

Cell Mol Neurobiol. 2000 Aug;20(4):521-7. doi: 10.1023/a:1007040731407.

DOI:10.1023/a:1007040731407

PMID:10901271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11537507/

Abstract

Using macropatch techniques, we tested the assumption that deactivation underlies the observed delay in the onset to recovery from fast inactivation by comparing open-state deactivation to recovery delay for rat skeletal muscle mutations R1441C and R1441P. 2. Deactivation kinetics from the open state were determined from the exponential decay of tail currents. R1441C and R1441P prolonged open-state deactivation, with the greatest effect produced by R1441P. 3. Delays in the onset to recovery from fast inactivation for R1441P and for R1441C were abbreviated compared to those for rSkM1. Recovery delay was longer in R1441P than R1441C at voltages more negative than -110 mV. Recovery from inactivation exhibited a voltage dependence which, unlike delay, saturated at depolarized voltages. Recovery rate constants were increased to a similar extent for R1441C and R1441P at -150 to -120 mV compared to rSkM1. 4. These results indicate that the delay in the onset to recovery from fast inactivation in skeletal muscle sodium channels is due to deactivation. Lessening of charge immobilization for R1441C and R1441P may contribute to observed biophysical defects underlying the hyperexcitability of muscle fibers containing paramyotonia congenita mutations. The second stage of recovery from fast inactivation may be affected differentially by these mutations.

摘要

我们运用巨片膜片钳技术，通过比较大鼠骨骼肌突变体R1441C和R1441P的开放态失活与恢复延迟，来检验失活是快速失活恢复起始延迟的基础这一假设。2. 从尾电流的指数衰减确定开放态的失活动力学。R1441C和R1441P延长了开放态失活，其中R1441P的影响最大。3. 与野生型rSkM1相比，R1441P和R1441C从快速失活恢复起始的延迟缩短。在电压比 -110 mV更负时，R1441P的恢复延迟比R1441C更长。失活恢复表现出电压依赖性，与延迟不同，在去极化电压下达到饱和。与rSkM1相比，在 -150至 -120 mV时，R1441C和R1441P的恢复速率常数增加到相似程度。4. 这些结果表明，骨骼肌钠通道从快速失活恢复起始的延迟是由于失活。R1441C和R1441P电荷固定的减少可能导致了含有先天性副肌强直突变的肌纤维兴奋性过高所观察到的生物物理缺陷。快速失活恢复的第二阶段可能受这些突变的不同影响。

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Voltage sensors in domains III and IV, but not I and II, are immobilized by Na+ channel fast inactivation.结构域III和IV中的电压传感器会因钠离子通道快速失活而固定，但结构域I和II中的电压传感器不会。

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