喷他脒影响离子通道转运及多非利特介导的挽救作用的构效关系

Structure-activity relationships of pentamidine-affected ion channel trafficking and dofetilide mediated rescue.

作者信息

Varkevisser R, Houtman M J C, Linder T, de Git K C G, Beekman H D M, Tidwell R R, Ijzerman A P, Stary-Weinzinger A, Vos M A, van der Heyden M A G

机构信息

Department of Medical Physiology, University Medical Center Utrecht, Utrecht, The Netherlands.

出版信息

Br J Pharmacol. 2013 Jul;169(6):1322-34. doi: 10.1111/bph.12208.

DOI:10.1111/bph.12208

PMID:23586323

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3831711/

Abstract

BACKGROUND AND PURPOSE

Drug interference with normal hERG protein trafficking substantially reduces the channel density in the plasma membrane and thereby poses an arrhythmic threat. The chemical substructures important for hERG trafficking inhibition were investigated using pentamidine as a model drug. Furthermore, the relationship between acute ion channel block and correction of trafficking by dofetilide was studied.

EXPERIMENTAL APPROACH

hERG and K(IR)2.1 trafficking in HEK293 cells was evaluated by Western blot and immunofluorescence microscopy after treatment with pentamidine and six pentamidine analogues, and correction with dofetilide and four dofetilide analogues that displayed different abilities to inhibit IKr . Molecular dynamics simulations were used to address mode, number and type of interactions between hERG and dofetilide analogues.

KEY RESULTS

Structural modifications of pentamidine differentially affected plasma membrane levels of hERG and K(IR)2.1. Modification of the phenyl ring or substituents directly attached to it had the largest effect, affirming the importance of these chemical residues in ion channel binding. PA-4 had the mildest effects on both ion channels. Dofetilide corrected pentamidine-induced hERG, but not K(IR)2.1 trafficking defects. Dofetilide analogues that displayed high channel affinity, mediated by pi-pi stacks and hydrophobic interactions, also restored hERG protein levels, whereas analogues with low affinity were ineffective.

CONCLUSIONS AND IMPLICATIONS

Drug-induced trafficking defects can be minimized if certain chemical features are avoided or 'synthesized out'; this could influence the design and development of future drugs. Further analysis of such features in hERG trafficking correctors may facilitate the design of a non-blocking corrector for trafficking defective hERG proteins in both congenital and acquired LQTS.

摘要

背景与目的

药物干扰正常的人乙醚 - 去极化相关基因（hERG）蛋白转运可显著降低质膜中的通道密度，从而构成心律失常威胁。以喷他脒作为模型药物，研究了对hERG转运抑制重要的化学亚结构。此外，还研究了多非利特对急性离子通道阻滞与转运纠正之间的关系。

实验方法

在用喷他脒和六种喷他脒类似物处理后，通过蛋白质免疫印迹法和免疫荧光显微镜评估人胚肾293（HEK293）细胞中hERG和内向整流钾通道2.1（K(IR)2.1）的转运情况，并用多非利特和四种对延迟整流钾电流（IKr）具有不同抑制能力的多非利特类似物进行纠正。使用分子动力学模拟来研究hERG与多非利特类似物之间相互作用的模式、数量和类型。

关键结果

喷他脒的结构修饰对hERG和K(IR)2.1的质膜水平有不同影响。苯环或直接连接在其上的取代基的修饰影响最大，证实了这些化学残基在离子通道结合中的重要性。PA - 4对两种离子通道的影响最轻微。多非利特纠正了喷他脒诱导的hERG转运缺陷，但未纠正K(IR)2.1的转运缺陷。由π - π堆积和疏水相互作用介导的具有高通道亲和力的多非利特类似物也恢复了hERG蛋白水平，而低亲和力的类似物则无效。

结论与启示

如果避免或“去除”某些化学特征，药物诱导的转运缺陷可以最小化；这可能会影响未来药物的设计和开发。对hERG转运校正剂中此类特征的进一步分析可能有助于设计一种用于纠正先天性和获得性长QT综合征（LQTS）中转运缺陷的hERG蛋白的非阻滞校正剂。

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喷他脒影响离子通道转运及多非利特介导的挽救作用的构效关系

Structure-activity relationships of pentamidine-affected ion channel trafficking and dofetilide mediated rescue.

作者信息

Varkevisser R, Houtman M J C, Linder T, de Git K C G, Beekman H D M, Tidwell R R, Ijzerman A P, Stary-Weinzinger A, Vos M A, van der Heyden M A G

机构信息

Department of Medical Physiology, University Medical Center Utrecht, Utrecht, The Netherlands.

喷他脒影响离子通道转运及多非利特介导的挽救作用的构效关系

Structure-activity relationships of pentamidine-affected ion channel trafficking and dofetilide mediated rescue.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

EXPERIMENTAL APPROACH

KEY RESULTS

CONCLUSIONS AND IMPLICATIONS

背景与目的

实验方法

关键结果

结论与启示

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喷他脒影响离子通道转运及多非利特介导的挽救作用的构效关系

Structure-activity relationships of pentamidine-affected ion channel trafficking and dofetilide mediated rescue.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

EXPERIMENTAL APPROACH

KEY RESULTS

CONCLUSIONS AND IMPLICATIONS

背景与目的

实验方法

关键结果

结论与启示