新型抗心律失常化合物AZD7009给药后对人乙醚相关基因（hERG）、人心脏钠通道1.5（hNav1.5）以及人钾离子延迟整流通道亚基LQT1/人内向整流钾通道亚基minK（hKvLQT1/hminK）的阻滞特性

Blocking characteristics of hERG, hNav1.5, and hKvLQT1/hminK after administration of the novel anti-arrhythmic compound AZD7009.

作者信息

Persson Frida, Carlsson Leif, Duker Göran, Jacobson Ingemar

机构信息

AstraZeneca R&D Mölndal, Mölndal, Sweden.

出版信息

J Cardiovasc Electrophysiol. 2005 Mar;16(3):329-41. doi: 10.1046/j.1540-8167.2005.40427.x.

DOI:10.1046/j.1540-8167.2005.40427.x

PMID:15817095

Abstract

INTRODUCTION

AZD7009 is a novel anti-arrhythmic compound under development for short- and long-term management of atrial fibrillation and flutter. Electrophysiological studies in animals have shown high anti-arrhythmic efficacy, predominant action on atrial electrophysiology, and low proarrhythmic activity. The main aim of this study was to characterize the blocking effects of AZD7009 on the human ether-a-go-go-related gene (hERG), the hNav1.5, and the hKvLQT1/hminK currents.

METHODS AND RESULTS

hERG, hKvLQT1/hminK, and hNav1.5 were expressed in CHO K1 cells. Currents were measured using the whole-cell configuration of the voltage-clamp technique. AZD7009 inhibited the hERG current with an IC50 of 0.6 +/- 0.07 microM (n = 6). AZD7009 1 microM hyperpolarized the potential for half-maximal activation from -8.2 +/- 0.1 mV to -18.0 +/- 0.6 mV (P < 0.001, n = 14) and induced pre-pulse potentiation at potentials near the activation threshold. The hNav1.5 current was blocked with an IC50 of 4.3 +/- 1.20 microM at 10 Hz (n = 6) and block developed use-dependently. Recovery from use-dependent block was slow, tau= 131 seconds. AZD7009 inhibited the hKvLQT1/hminK current only at high concentrations (IC50= 193 +/- 20 microM, n = 6).

CONCLUSION

AZD7009 inhibits both the hERG and the hNav1.5 current, and it is most likely this combined current block that underlies the prolongation of the refractoriness and the low proarrhythmic activity demonstrated in animals in vivo.

摘要

引言

AZD7009是一种正在研发的新型抗心律失常化合物，用于房颤和房扑的短期及长期治疗。动物电生理研究表明其具有高抗心律失常疗效、对心房电生理的主要作用以及低促心律失常活性。本研究的主要目的是表征AZD7009对人醚 - 去极化相关基因（hERG）、hNav1.5以及hKvLQT1/hminK电流的阻断作用。

方法与结果

hERG、hKvLQT1/hminK和hNav1.5在CHO K1细胞中表达。使用电压钳技术的全细胞模式测量电流。AZD7009抑制hERG电流，IC50为0.6±0.07微摩尔（n = 6）。1微摩尔的AZD7009使半数最大激活电位从 - 8.2±0.1毫伏超极化至 - 18.0±0.6毫伏（P < 0.001，n = 14），并在接近激活阈值的电位处诱导预脉冲增强。hNav1.5电流在10赫兹时被阻断，IC50为4.3±1.20微摩尔（n = 6），且阻断呈使用依赖性发展。从使用依赖性阻断中恢复缓慢，时间常数τ = 131秒。AZD7009仅在高浓度时（IC50 = 193±20微摩尔，n = 6）抑制hKvLQT1/hminK电流。

结论

AZD7009抑制hERG和hNav1.5电流，很可能正是这种联合电流阻断构成了体内动物实验中所显示的不应期延长和低促心律失常活性的基础。

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Blocking characteristics of hERG, hNav1.5, and hKvLQT1/hminK after administration of the novel anti-arrhythmic compound AZD7009.新型抗心律失常化合物AZD7009给药后对人乙醚相关基因（hERG）、人心脏钠通道1.5（hNav1.5）以及人钾离子延迟整流通道亚基LQT1/人内向整流钾通道亚基minK（hKvLQT1/hminK）的阻滞特性

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新型抗心律失常化合物AZD7009给药后对人乙醚相关基因（hERG）、人心脏钠通道1.5（hNav1.5）以及人钾离子延迟整流通道亚基LQT1/人内向整流钾通道亚基minK（hKvLQT1/hminK）的阻滞特性

Blocking characteristics of hERG, hNav1.5, and hKvLQT1/hminK after administration of the novel anti-arrhythmic compound AZD7009.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS AND RESULTS

CONCLUSION

引言

方法与结果

结论

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