抗精神病药物对I(to)、I(Na)、I(sus)、I(K1)和hERG的影响：QT间期延长、构效关系及网络分析

Effects of antipsychotic drugs on I(to), I (Na), I (sus), I (K1), and hERG: QT prolongation, structure activity relationship, and network analysis.

作者信息

Crumb William J, Ekins Sean, Sarazan R Dustan, Wikel James H, Wrighton Steven A, Carlson Christopher, Beasley Charles M

机构信息

Department of Pediatrics (Cardiology), Tulane University School of Medicine, New Orleans, Lousiana, USA.

出版信息

Pharm Res. 2006 Jun;23(6):1133-43. doi: 10.1007/s11095-006-0070-7. Epub 2006 May 25.

DOI:10.1007/s11095-006-0070-7

PMID:16715368

Abstract

PURPOSE

To evaluate in vitro and computationally model the effects of selected antipsychotic drugs on several ionic currents that contribute to changes in the action potential in cardiac tissue.

METHODS

Fourteen antipsychotic drugs or metabolites were examined to determine whether QT interval prolongation could be accounted for by an effect on one or more myocardial ion channels [I(to), I(Na), I(sus), I(K1), and human ether-a-go-go related gene (hERG)]. Using the patch clamp technique, drug effects on these human cardiac currents were tested.

RESULTS

All molecules had little inhibitory effect on ion channels (blocking at concentrations >5 microM) other than hERG. A significant correlation was observed between the estimated hERG blockade and the increase in corrected QT for five of the antipsychotics. Molecular modeling identified hydrophobic features related to the interaction with hERG and correctly rank-ordered the test set molecules olanzapine and its metabolites. A network analysis of ligand and protein interactions around hERG using MetaCore (GeneGo Inc., St. Joseph, MI, USA) was used to visualize antipsychotics with affinity for this channel and their interactions with other proteins in this database.

CONCLUSION

The antipsychotics do not inhibit the ion channels I(to), I(Na), I(sus), I(K1) to any appreciable extent; however, blockade of hERG is a likely mechanism for the prolongation of the QT interval.

摘要

目的

在体外和通过计算模型评估所选抗精神病药物对几种离子电流的影响，这些离子电流会导致心脏组织动作电位的变化。

方法

检测了14种抗精神病药物或其代谢产物，以确定QT间期延长是否可归因于对一种或多种心肌离子通道[I(to)、I(Na)、I(sus)、I(K1)和人醚-去极化相关基因（hERG）]的影响。使用膜片钳技术测试药物对这些人心肌电流的作用。

结果

除hERG外，所有分子对离子通道的抑制作用都很小（在浓度>5 microM时阻断）。在5种抗精神病药物中，观察到估计的hERG阻断与校正QT增加之间存在显著相关性。分子建模确定了与hERG相互作用相关的疏水特征，并正确地对测试集分子奥氮平及其代谢产物进行了排序。使用MetaCore（美国密歇根州圣约瑟夫市GeneGo公司）对hERG周围的配体和蛋白质相互作用进行网络分析，以可视化对该通道具有亲和力的抗精神病药物及其与该数据库中其他蛋白质的相互作用。

结论

抗精神病药物在任何明显程度上都不会抑制离子通道I(to)、I(Na)、I(sus)、I(K1)；然而，hERG阻断可能是QT间期延长的机制。

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抗精神病药物对I(to)、I(Na)、I(sus)、I(K1)和hERG的影响：QT间期延长、构效关系及网络分析

Effects of antipsychotic drugs on I(to), I (Na), I (sus), I (K1), and hERG: QT prolongation, structure activity relationship, and network analysis.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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