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kcne2的靶向缺失通过破坏I(K,slow1)和I(to,f)损害心室复极。

Targeted deletion of kcne2 impairs ventricular repolarization via disruption of I(K,slow1) and I(to,f).

作者信息

Roepke Torsten K, Kontogeorgis Andrianos, Ovanez Christopher, Xu Xianghua, Young Jeffrey B, Purtell Kerry, Goldstein Peter A, Christini David J, Peters Nicholas S, Akar Fadi G, Gutstein David E, Lerner Daniel J, Abbott Geoffrey W

机构信息

Greenberg Division of Cardiology, Department of Medicine, Weill Medical College of Cornell University, 1300 York Ave., New York, NY 10065, USA.

出版信息

FASEB J. 2008 Oct;22(10):3648-60. doi: 10.1096/fj.08-110171. Epub 2008 Jul 4.

DOI:10.1096/fj.08-110171

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2537427/

Abstract

Mutations in human KCNE2, which encodes the MiRP1 potassium channel ancillary subunit, associate with long QT syndrome (LQTS), a defect in ventricular repolarization. The precise cardiac role of MiRP1 remains controversial, in part, because it has marked functional promiscuity in vitro. Here, we disrupted the murine kcne2 gene to define the role of MiRP1 in murine ventricles. kcne2 disruption prolonged ventricular action potential duration (APD), suggestive of reduced repolarization capacity. Accordingly, kcne2 (-/-) ventricles exhibited a 50% reduction in I(K,slow1), generated by Kv1.5--a previously unknown partner for MiRP1. I(to,f), generated by Kv4 alpha subunits, was also diminished, by approximately 25%. Ventricular MiRP1 protein coimmunoprecipitated with native Kv1.5 and Kv4.2 but not Kv1.4 or Kv4.3. Unexpectedly, kcne2 (-/-) ventricular membrane fractions exhibited 50% less mature Kv1.5 protein than wild type, and disruption of Kv1.5 trafficking to the intercalated discs. Consistent with the reduction in ventricular K(+) currents and prolonged ventricular APD, kcne2 deletion lengthened the QT(c) under sevoflurane anesthesia. Thus, targeted disruption of kcne2 has revealed a novel cardiac partner for MiRP1, a novel role for MiRPs in alpha subunit targeting in vivo, and a role for MiRP1 in murine ventricular repolarization with parallels to that proposed for the human heart.

摘要

人类KCNE2发生突变会导致长QT综合征（LQTS），这是一种心室复极化缺陷，KCNE2编码MiRP1钾通道辅助亚基。MiRP1在心脏中的具体作用仍存在争议，部分原因是它在体外具有明显的功能多配性。在这里，我们破坏了小鼠kcne2基因，以确定MiRP1在小鼠心室中的作用。kcne2基因破坏延长了心室动作电位时程（APD），提示复极化能力降低。相应地，kcne2（-/-）心室中由Kv1.5产生的I(K,slow1)减少了50%，Kv1.5是MiRP1之前未知的伙伴。由Kv4α亚基产生的I(to,f)也减少了约25%。心室MiRP1蛋白与天然Kv1.5和Kv4.2共免疫沉淀，但不与Kv1.4或Kv4.3共免疫沉淀。出乎意料的是，kcne2（-/-）心室膜组分中成熟Kv1.5蛋白比野生型少50%，并且Kv1.5向闰盘的转运受到破坏。与心室K(+)电流减少和心室APD延长一致，kcne2基因缺失在七氟醚麻醉下延长了QT(c)。因此，靶向破坏kcne2揭示了MiRP1在心脏中的一个新伙伴、MiRPs在体内α亚基靶向中的新作用，以及MiRP1在小鼠心室复极化中的作用，这与人类心脏中提出的作用相似。