Skm1钠通道中快速失活与慢速失活之间的相互作用。

Interaction between fast and slow inactivation in Skm1 sodium channels.

作者信息

Featherstone D E, Richmond J E, Ruben P C

机构信息

Department of Biology, Utah State University, Logan 84322-5305, USA.

出版信息

Biophys J. 1996 Dec;71(6):3098-109. doi: 10.1016/S0006-3495(96)79504-8.

DOI:10.1016/S0006-3495(96)79504-8

PMID:8968581

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1233799/

Abstract

Rat skeletal muscle (Skm1) sodium channel alpha and beta 1 subunits were coexpressed in Xenopus oocytes, and resulting sodium currents were recorded from on-cell macropatches. First, the kinetics and steady-state probability of both fast and slow inactivation in Skm1 wild type (WT) sodium channels were characterized. Next, we confirmed that mutation of IFM to QQQ (IFM1303QQQ) in the DIII-IV 'inactivation loop' completely removed fast inactivation at all voltages. This mutation was then used to characterize Skm1 slow inactivation without the presence of fast inactivation. The major findings of this paper are as follows: 1) Even with complete removal of fast inactivation by the IFM1303QQQ mutation, slow inactivation remains intact. 2) In WT channels, approximately 20% of channels fail to slow-inactivate after fast-inactivating, even at very positive potentials. 3) Selective removal of fast inactivation by IFM1303QQQ allows slow inactivation to occur more quickly and completely than in WT. We conclude that fast inactivation reduces the probability of subsequent slow inactivation.

摘要

大鼠骨骼肌（Skm1）钠通道α亚基和β1亚基在非洲爪蟾卵母细胞中共同表达，并从细胞膜上的大膜片钳记录到由此产生的钠电流。首先，对Skm1野生型（WT）钠通道快速和慢速失活的动力学及稳态概率进行了表征。接下来，我们证实，DIII-IV“失活环”中IFM突变为QQQ（IFM1303QQQ）会在所有电压下完全消除快速失活。然后利用该突变来表征不存在快速失活情况下的Skm1慢速失活。本文的主要发现如下：1）即使通过IFM1303QQQ突变完全消除了快速失活，慢速失活仍然完整。2）在WT通道中，即使在非常正的电位下，约20%的通道在快速失活后也不会慢速失活。3）IFM1303QQQ选择性地消除快速失活后，慢速失活比WT发生得更快且更完全。我们得出结论，快速失活降低了随后慢速失活的概率。

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