犬心室KCNE2表达主要位于浦肯野纤维中。

Canine ventricular KCNE2 expression resides predominantly in Purkinje fibers.

作者信息

Pourrier Marc, Zicha Stephen, Ehrlich Joachim, Han Wei, Nattel Stanley

机构信息

Department of Medicine, .), University of Montreal, Montreal, Quebec, Canada.

出版信息

Circ Res. 2003 Aug 8;93(3):189-91. doi: 10.1161/01.RES.0000084851.60947.B5. Epub 2003 Jul 3.

DOI:10.1161/01.RES.0000084851.60947.B5

PMID:12842918

Abstract

Mutations in minK-related peptide 1 (MiRP1), the product of the KCNE2 gene, have been associated with malignant ventricular arrhythmia syndromes related to impaired repolarization. MiRP1 interacts with a variety of ion-channel alpha-subunits, dysfunction of which could account for arrhythmia syndromes; however, the observation of very low-level expression of MiRP1 in ventricular tissue has led to doubts about its relevance. The specialized His-Purkinje system plays a key role in cardiac electrophysiology and is an important contributor to ventricular arrhythmias related to abnormal repolarization. We examined the relative abundance of MiRP1 in canine Purkinje versus ventricular tissue and found much greater expression at both mRNA and protein levels in Purkinje tissue. Thus, the cardiac Purkinje system is a strong candidate to play a role in arrhythmic syndromes due to MiRP1 abnormalities.

摘要

KCNE2基因产物小电导钾通道相关肽1（MiRP1）的突变与复极受损相关的恶性室性心律失常综合征有关。MiRP1与多种离子通道α亚基相互作用，其功能障碍可能导致心律失常综合征；然而，在心室组织中观察到MiRP1的低水平表达，这引发了对其相关性的质疑。特殊的希氏-浦肯野系统在心脏电生理中起关键作用，是与复极异常相关的室性心律失常的重要促成因素。我们检测了犬浦肯野组织与心室组织中MiRP1的相对丰度，发现浦肯野组织中MiRP1在mRNA和蛋白质水平上的表达均显著更高。因此，心脏浦肯野系统很可能在MiRP1异常导致的心律失常综合征中发挥作用。

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犬心室KCNE2表达主要位于浦肯野纤维中。

Canine ventricular KCNE2 expression resides predominantly in Purkinje fibers.

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