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调节 KCNQ1 可变剪接调节心脏 IKs 和动作电位复极化。

Modulation of KCNQ1 alternative splicing regulates cardiac IKs and action potential repolarization.

机构信息

Department of Biomedical Engineering, Cardiac Bioelectricity and Arrhythmia Center, Washington University in St. Louis, St Louis, Missouri 63130-4899, USA.

出版信息

Heart Rhythm. 2013 Aug;10(8):1220-8. doi: 10.1016/j.hrthm.2013.04.014. Epub 2013 Apr 19.

DOI:10.1016/j.hrthm.2013.04.014
PMID:23608591
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3771516/
Abstract

BACKGROUND

Slow delayed-rectifier potassium current (IKs) channels, made of the pore-forming KCNQ1 and auxiliary KCNE1 subunits, play a key role in determining action potential duration (APD) in cardiac myocytes. The consequences of drug-induced KCNQ1 splice alteration remain unknown.

OBJECTIVE

To study the modulation of KCNQ1 alternative splicing by amiloride and the consequent changes in IKs and action potentials (APs) in ventricular myocytes.

METHODS

Canine endocardial, midmyocardial, and epicardial ventricular myocytes were isolated. Levels of KCNQ1a and KCNQ1b as well as a series of splicing factors were quantified by using the reverse transcriptase-polymerase chain reaction and Western blot. The effect of amiloride-induced changes in the KCNQ1b/total KCNQ1 ratio on AP was measured by using whole-cell patch clamp with and without isoproterenol.

RESULTS

With 50 μmol/L of amiloride for 6 hours, KCNQ1a at transcriptional and translational levels increased in midmyocardial myocytes but decreased in endo- and epicardial myocytes. Likewise, changes in splicing factors in midmyocardial were opposite to that in endo- and epicardial myocytes. In midmyocardial myocytes amiloride shortened APD and decreased isoproterenol-induced early afterdepolarizations significantly. The same amiloride-induced effects were demonstrated by using human ventricular myocyte model for AP simulations under beta-adrenergic stimulation. Moreover, amiloride reduced the transmural dispersion of repolarization in pseudo-electrocardiogram.

CONCLUSIONS

Amiloride regulates IKs and APs with transmural differences and reduces arrhythmogenicity through the modulation of KCNQ1 splicing. We suggested that the modulation of KCNQ1 splicing may help prevent arrhythmia.

摘要

背景

慢延迟整流钾电流(IKs)通道由孔形成亚基 KCNQ1 和辅助亚基 KCNE1 组成,在心肌细胞动作电位时程(APD)的决定中起着关键作用。药物诱导的 KCNQ1 剪接改变的后果尚不清楚。

目的

研究阿米洛利对 KCNQ1 选择性剪接的调节作用,以及心室肌细胞 IKs 和动作电位(AP)的变化。

方法

分离犬心内膜、心肌中层和心外膜心室肌细胞。通过逆转录-聚合酶链反应和 Western blot 定量 KCNQ1a 和 KCNQ1b 以及一系列剪接因子的水平。使用全细胞膜片钳技术,在有无异丙肾上腺素的情况下,测量阿米洛利诱导的 KCNQ1b/总 KCNQ1 比值变化对 AP 的影响。

结果

用 50 μmol/L 阿米洛利处理 6 小时后,在心肌中层细胞中,KCNQ1a 在转录和翻译水平上增加,但在心内膜和心外膜细胞中减少。同样,心肌中层的剪接因子变化与心内膜和心外膜细胞相反。阿米洛利缩短了 APD,显著减少了异丙肾上腺素诱导的早期后除极。在β肾上腺素刺激下的人类心室肌细胞模型进行 AP 模拟中,也观察到了相同的阿米洛利诱导作用。此外,阿米洛利降低了假性心电图中的复极跨壁离散度。

结论

阿米洛利通过调节 KCNQ1 剪接来调节具有穿壁差异的 IKs 和 APs,并减少心律失常性。我们认为,KCNQ1 剪接的调节可能有助于预防心律失常。

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