房性心动过速可诱导犬左心房和肺静脉心肌细胞中M胆碱能受体及其偶联的钾电流发生重塑。

Atrial tachycardia induces remodelling of muscarinic receptors and their coupled potassium currents in canine left atrial and pulmonary vein cardiomyocytes.

作者信息

Yeh Y-H, Qi X, Shiroshita-Takeshita A, Liu J, Maguy A, Chartier D, Hebert T, Wang Z, Nattel S

机构信息

Department of Medicine, Université de Montréal and Research Center, Montreal Heart Institute, Quebec, Canada.

出版信息

Br J Pharmacol. 2007 Dec;152(7):1021-32. doi: 10.1038/sj.bjp.0707376. Epub 2007 Jul 9.

DOI:10.1038/sj.bjp.0707376

PMID:17618308

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2095106/

Abstract

BACKGROUND AND PURPOSE

Both parasympathetic tone and atrial tachycardia (AT) remodelling of ion channels play important roles in atrial fibrillation (AF) pathophysiology. Different muscarinic cholinergic receptor (mAChR) subtypes (M2, M3, M4) in atrial cardiomyocytes are coupled to distinct K+-currents (called IKM2, IKM3, IKM4, respectively). Pulmonary veins (PVs) are important in AF and differential cholinergic current responses are a potential underlying mechanism. This study investigated AT-induced remodelling of mAChR subtypes and K+-currents in left-atrial (LA) and PV cardiomyocytes.

EXPERIMENTAL APPROACH

Receptor expression was assayed by western blot. IKM2, IKM3 and IKM4 were recorded with whole-cell patch-clamp in LA and PV cardiomyocytes of nonpaced control dogs and dogs after 7 days of AT-pacing (400 bpm).

KEY RESULTS

Current densities of IKM2, IKM3 and IKM4 were significantly reduced by AT-pacing in LA and PV cardiomyocytes. PV cardiomyocyte current-voltage relations were similar to LA for all three cholinergic currents, both in control and AT remodelling. Membrane-protein expression levels corresponding to M2, M3 and M4 subtypes were decreased significantly (by about 50%) after AT pacing. Agonist concentration-response relations for all three currents were unaffected by AT pacing.

CONCLUSIONS AND IMPLICATIONS

AT downregulated all three mAChR-coupled K+-current subtypes, along with corresponding mAChR protein expression. These changes in cholinergic receptor-coupled function may play a role in AF pathophysiology. Cholinergic receptor-coupled K+-currents in PV cardiomyocytes were similar to those in LA under control and AT-pacing conditions, suggesting that differential cholinergic current properties do not explain the role of PVs in AF.

摘要

背景与目的

迷走神经张力和离子通道的房性心动过速（AT）重塑在心房颤动（AF）病理生理学中均起重要作用。心房心肌细胞中的不同毒蕈碱胆碱能受体（mAChR）亚型（M2、M3、M4）分别与不同的钾电流（分别称为IKM2、IKM3、IKM4）耦联。肺静脉（PVs）在房颤中起重要作用，胆碱能电流反应差异是一种潜在的潜在机制。本研究调查了AT诱导的左心房（LA）和PV心肌细胞中mAChR亚型和钾电流的重塑。

实验方法

通过蛋白质印迹法检测受体表达。在未起搏的对照犬和AT起搏7天（400次/分钟）后的犬的LA和PV心肌细胞中，用全细胞膜片钳记录IKM2、IKM3和IKM4。

主要结果

在LA和PV心肌细胞中，AT起搏显著降低了IKM2、IKM3和IKM4的电流密度。在对照和AT重塑中，所有三种胆碱能电流的PV心肌细胞电流-电压关系与LA相似。AT起搏后，与M2、M3和M4亚型相对应的膜蛋白表达水平显著降低（约50%）。所有三种电流的激动剂浓度-反应关系不受AT起搏的影响。

结论与意义

AT下调了所有三种与mAChR耦联的钾电流亚型以及相应的mAChR蛋白表达。胆碱能受体耦联功能的这些变化可能在AF病理生理学中起作用。在对照和AT起搏条件下，PV心肌细胞中胆碱能受体耦联的钾电流与LA中的相似，这表明胆碱能电流特性差异不能解释PVs在AF中的作用。

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