Interaction of the antiarrhythmic drug Amiodarone with the sodium channel Nav1.5 depends on the extracellular pH

IF 4.7 3区医学 Q1 PHARMACOLOGY & PHARMACY

European journal of pharmacology Pub Date : 2023-10-17 DOI:10.1016/j.ejphar.2023.176127

Michael Ramon de Lima Conceição , Jorge Lucas Teixeira-Fonseca , Leisiane Pereira Marques , Diego Santos Souza , Danilo Roman-Campos

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引用次数: 0

Abstract

Introduction

Amiodarone (AMD) is a clinically used drug to treat arrhythmias with significant effect upon the cardiac sodium channel Na_v1.5. AMD has a pKa of 6.56, and changes in extracellular pH (pHe) may alter its pharmacological properties. Here we explored how changes in pHe impacts the pharmacological properties of AMD upon human-Na_v1.5-sodium-current (I_Na) and in ex vivo rat hearts.

Methods

Embryonic-human-kidney-cells (HEK293) were used to transiently express the human alpha-subunit of Na_V1.5 channels and the isolated heart of Wistar rats were used. Patch-Clamp technique was deployed to study I_Na and for electrocardiogram (ECG) evaluation the ex vivo heart preparation in the Langendorff system was applied.

Results

The potency of AMD upon peak I_Na was ∼25x higher in pHe 7.0 when compared to pHe 7.4. Voltage dependence for activation did not differ among all groups. AMD shifted the steady-state inactivation curve to more hyperpolarized potentials, with similar magnitudes for both pHes. The recovery from I_Na inactivation was delayed in the presence of AMD with similar profile in both pHes. Interestingly, the use-dependent properties of AMD was distinct at pHe 7.0 and 7.4. Finally, AMD was able to change the ex vivo ECG profile, however at pHe 7.0+AMD a larger increase in the RR and QRS duration and in the QT interval when compared to pHe 7.4 was found.

Conclusions

The pharmacological properties of AMD upon Na_V1.5 and isolated heart preparation depends on the pHe and its use in vivo during extracellular acidosis may cause a distinct biological response in the heart tissue.

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抗心律失常药物胺碘酮与钠通道Nav1.5的相互作用取决于细胞外pH值

胺碘酮(amiodarone, AMD)是临床上用于治疗心律失常的药物，对心脏钠通道Nav1.5有显著影响。AMD的pKa为6.56，细胞外pH值(pHe)的变化可能会改变其药理学性质。在这里，我们探讨了pHe的变化如何影响AMD对人nav1.5 -钠电流(INa)和离体大鼠心脏的药理学特性。方法利用胚胎-人肾细胞(HEK293)瞬时表达人NaV1.5通道α亚基，并以Wistar大鼠离体心脏为实验材料。膜片钳技术用于研究INa，心电图(ECG)评估采用Langendorff系统的离体心脏准备。结果与pHe 7.4相比，pHe 7.0在峰值INa时AMD的效力高~ 25倍。激活的电压依赖性在所有组之间没有差异。AMD将稳态失活曲线移动到更多的超极化电位，两个pHes的幅度相似。在两种pHes中，由于AMD的存在，INa失活的恢复延迟。有趣的是，在pHe 7.0和7.4时，AMD的使用依赖特性是不同的。最后，AMD能够改变离体心电图谱，但与pHe 7.4相比，pHe 7.0+AMD的RR、QRS持续时间和QT间期增加更大。结论AMD在NaV1.5和离体心脏制剂上的药理作用取决于pHe，其在细胞外酸中毒过程中的体内应用可能引起心脏组织中明显的生物学反应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European journal of pharmacology 医学-药学

CiteScore

9.00

自引率

0.00%

发文量

572

审稿时长

34 days

期刊介绍： The European Journal of Pharmacology publishes research papers covering all aspects of experimental pharmacology with focus on the mechanism of action of structurally identified compounds affecting biological systems. The scope includes: Behavioural pharmacology Neuropharmacology and analgesia Cardiovascular pharmacology Pulmonary, gastrointestinal and urogenital pharmacology Endocrine pharmacology Immunopharmacology and inflammation Molecular and cellular pharmacology Regenerative pharmacology Biologicals and biotherapeutics Translational pharmacology Nutriceutical pharmacology.