跨壁异质性哺乳动物左心室中钠离子通道突变的致心律失常后果：I1768V SCN5A 突变分析

Arrhythmogenic consequences of Na+ channel mutations in the transmurally heterogeneous mammalian left ventricle: analysis of the I1768V SCN5A mutation.

作者信息

Flaim Sarah N, Giles Wayne R, McCulloch Andrew D

机构信息

Department of Bioengineering, University of California, San Diego, La Jolla, California 92093-0412, USA.

出版信息

Heart Rhythm. 2007 Jun;4(6):768-78. doi: 10.1016/j.hrthm.2007.02.009. Epub 2007 Feb 20.

DOI:10.1016/j.hrthm.2007.02.009

PMID:17556201

Abstract

BACKGROUND

Congenital mutations in the cardiac Na+ channel (encoded by SCN5A) underlie long QT syndrome type 3. The sea anemone peptide toxin ATX-II mimics the slowed inactivation kinetics characteristic of many long QT type 3 (LQT3) mutations. However, the I1768V SCN5A mutation is associated with faster recovery kinetics, for which there exists no known pharmacologic equivalent.

OBJECTIVE

The purpose of this study was to investigate the proarrhythmic consequences of the I1768V SCN5A mutation in a transmurally heterogeneous canine left ventricular wedge. We hypothesized that amplification of intrinsic electrical heterogeneities may contribute to abnormal repolarization patterns.

METHODS

We developed a multiscale computational model of the canine ventricular wedge preparation that accounts for a comprehensive set of ionic currents (including transmural heterogeneities of the voltage-dependent transient outward current I(Kv43), the late sodium current I(NaL), the slowly activating delayed rectifier current I(Ks), and the sarco[endo]plasmic reticulum Ca2+-ATPase pump SERCA) and includes mechanistic descriptions of intracellular Ca2+ cycling, the effects of ATX-II, and the I1768V mutation.

RESULTS

Experimentally observed QT intervals and rate-dependent transmural gradients in action potential duration were recapitulated in our simulations, both with and without ATX-II. With the I1768V SCN5A mutation, the model predicted endocardial early afterdepolarizations that triggered epicardial beats and R-on-T extrasystoles. Brief episodes of polymorphic, followed by sustained monomorphic, ventricular tachycardia were observed at slow pacing rates. Importantly, these arrhythmias are driven by recurring reactivation of Na+ channels localized to the endocardium.

CONCLUSION

Our findings suggest that an increase in sustained inward Na+ current arising from the I1768V SCN5A mutation leads to clinically relevant arrhythmias in the transmurally heterogeneous canine left ventricular myocardium. This novel approach for simulating transmural heterogeneity provides new insight into the development of rhythm disturbances in the mammalian left ventricle.

摘要

背景

心脏钠通道（由SCN5A编码）的先天性突变是3型长QT综合征的基础。海葵肽毒素ATX-II模拟了许多3型长QT（LQT3）突变所特有的缓慢失活动力学特征。然而，I1768V SCN5A突变与更快的恢复动力学相关，目前尚无已知的药理学等效物。

目的

本研究旨在探讨I1768V SCN5A突变在跨壁异质性犬左心室楔形组织中的促心律失常后果。我们假设固有电不均一性的放大可能导致异常复极模式。

方法

我们建立了犬心室楔形组织的多尺度计算模型，该模型考虑了一组全面的离子电流（包括电压依赖性瞬时外向电流I(Kv43)、晚钠电流I(NaL)、缓慢激活延迟整流电流I(Ks)和肌浆网Ca2+ -ATP酶泵SERCA的跨壁异质性），并包括细胞内Ca2+循环的机制描述、ATX-II的作用以及I1768V突变。

结果

在我们的模拟中，无论有无ATX-II，均再现了实验观察到的QT间期和动作电位时程的频率依赖性跨壁梯度。有I1768V SCN5A突变时，模型预测心内膜早期后除极会触发心外膜搏动和R-on-T期前收缩。在缓慢起搏频率下，观察到短暂的多形性室性心动过速，随后是持续性单形性室性心动过速。重要的是，这些心律失常是由定位于心内膜的钠通道反复重新激活驱动的。

结论

我们的研究结果表明，I1768V SCN5A突变导致的持续内向钠电流增加会在跨壁异质性犬左心室心肌中引发临床相关的心律失常。这种模拟跨壁异质性的新方法为哺乳动物左心室节律紊乱的发生发展提供了新的见解。

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跨壁异质性哺乳动物左心室中钠离子通道突变的致心律失常后果：I1768V SCN5A 突变分析

Arrhythmogenic consequences of Na+ channel mutations in the transmurally heterogeneous mammalian left ventricle: analysis of the I1768V SCN5A mutation.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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