药物激活 IkR 可损害豚鼠心脏的传导。

Pharmacological activation of IKr impairs conduction in guinea pig hearts.

机构信息

Danish National Research Foundation Centre for Cardiac Arrhythmia, Department of Biomedical Sciences, University of Copenhagen, Copenhagen, Denmark.

出版信息

J Cardiovasc Electrophysiol. 2010 Aug 1;21(8):923-9. doi: 10.1111/j.1540-8167.2010.01733.x. Epub 2010 Feb 16.

DOI:10.1111/j.1540-8167.2010.01733.x

PMID:20163495

Abstract

INTRODUCTION

The hERG (Kv11.1) potassium channel underlies cardiac I(Kr) and is important for cardiac repolarization. Recently, hERG agonists have emerged as potential antiarrhythmic drugs. As modulation of outward potassium currents has been suggested to modulate cardiac conduction, we tested the hypothesis that pharmacological activation of I(Kr) results in impaired cardiac conduction.

METHODS AND RESULTS

Cardiac conduction was assessed in Langendorff-perfused guinea pig hearts. Application of the hERG agonist NS3623 (10 microM) prolonged the QRS rate dependently. A significant prolongation (16 +/- 6%) was observed at short basic cycle length (BCL 90 ms) but not at longer cycle lengths (BCL 250 ms). The effect could be reversed by the I(Kr) blocker E4031 (1 microM). While partial I(Na) inhibition with flecainide (1 microM) alone prolonged the QRS (34 +/- 3%, BCL 250 ms), the QRS was further prolonged by 19 +/- 2% when NS3623 was added in the presence of flecainide. These data suggest that the effect of NS3623 was dependent on sodium channel availability. Surprisingly, in the presence of the voltage sensitive dye di-4-ANEPPS a similar potentiation of the effect of NS3623 was observed. With di-4-ANEPPS, NS3623 prolonged the QRS significantly (26 +/- 4%, BCL 250 ms) compared to control with a corresponding decrease in conduction velocity.

CONCLUSION

Pharmacological activation of I(Kr) by the hERG agonist NS3623 impairs cardiac conduction. The effect is dependent on sodium channel availability. These findings suggest a role for I(Kr) in modulating cardiac conduction and may have implications for the use of hERG agonists as antiarrhythmic drugs.

摘要

简介

hERG（Kv11.1）钾通道是心脏 I(Kr)的基础，对心脏复极很重要。最近，hERG 激动剂已成为潜在的抗心律失常药物。由于外向钾电流的调节被认为可以调节心脏传导，我们测试了这样一个假说，即 I(Kr)的药理学激活导致心脏传导受损。

方法和结果

在 Langendorff 灌流的豚鼠心脏中评估心脏传导。应用 hERG 激动剂 NS3623（10μM）可使 QRS 波群的时程依赖性延长。在短基本周期长度（BCL 90ms）时观察到明显的延长（16±6%），但在较长的周期长度（BCL 250ms）时则没有。这种作用可以被 I(Kr)阻断剂 E4031（1μM）逆转。虽然单独用氟卡尼（1μM）部分抑制 I(Na)仅使 QRS 延长（34±3%，BCL 250ms），但当 NS3623 在氟卡尼存在下加入时，QRS 进一步延长 19±2%。这些数据表明，NS3623 的作用依赖于钠通道的可用性。令人惊讶的是，当存在电压敏感染料二-4-ANEPPS 时，NS3623 的作用也得到了类似的增强。用二-4-ANEPPS，与对照相比，NS3623 显著延长了 QRS 波群（26±4%，BCL 250ms），同时传导速度相应降低。

结论

hERG 激动剂 NS3623 对 I(Kr)的药理学激活会损害心脏传导。该作用依赖于钠通道的可用性。这些发现表明 I(Kr)在调节心脏传导中起作用，并可能对 hERG 激动剂作为抗心律失常药物的应用产生影响。

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药物激活 IkR 可损害豚鼠心脏的传导。

Pharmacological activation of IKr impairs conduction in guinea pig hearts.

机构信息

出版信息

INTRODUCTION

METHODS AND RESULTS

CONCLUSION

简介

方法和结果

结论

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