一种新型局部麻醉药IQB-9302对映体对人心脏钾通道（Kv1.5）的立体选择性作用。

Stereoselective effects of the enantiomers of a new local anaesthetic, IQB-9302, on a human cardiac potassium channel (Kv1.5).

作者信息

González T, Longobardo M, Caballero R, Delpón E, Sinisterra J V, Tamargo J, Valenzuela C

机构信息

Institute of Pharmacology and Toxicology, CSIC/UCM. School of Medicine, Universidad Complutense. 28040 Madrid, Spain.

出版信息

Br J Pharmacol. 2001 Jan;132(2):385-92. doi: 10.1038/sj.bjp.0703844.

DOI:10.1038/sj.bjp.0703844

PMID:11159686

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1572585/

Abstract

The N-substituent of IQB-9302 has the same number of carbons as bupivacaine, but it exhibits a different spatial localization (n-butyl vs cyclopropylmethyl). Thus, the study of the effects of IQB-9302 enantiomers on hKv1.5 channels will lead to a better knowledge of the determinants of stereoselective block. 2. The effects of the IQB-9302 enantiomers were studied on hKv1.5 channels stably expressed in LTK:(-) cells using the whole-cell configuration of the patch-clamp technique. Drug molecular modelling was performed using Hyperchem software. 3. Block induced by IQB-9302 was stereoselective with the R(+) enantiomer being 3.2-fold more potent than the S(-) one (K(D) of 17.8+/-0.5 microM vs 58.6+/-4.0 microM). 4. S(-)- and R(+)IQB-9302 induced-block was time- and voltage-dependent consistent with an electrical distance from the cytoplasmic side of 0.173+/-0.022 (n=12) and 0.181+/-0.018 (n=10), respectively. 5. Potency of block of pipecoloxylidide local anaesthetics was linearly related to the length between the cationic tertiary amine and the end of the substituent. 6. Molecular modelling shows that only when S(-) and R(+) enantiomers are superimposed by their aromatic ring, their N-substituents are in opposite directions, which can explain the stereospecific block induced by bupivacaine and IQB-9302 with hKv1.5 channels. 7. These results suggest that: (a) IQB-9302 enantiomers block the open state of hKv1.5 channels, and (b) the length of the N-substituent in these local anaesthetics and not its volume determines the potency and degree of their stereoselective hKv1.5 channel block.

摘要

IQB - 9302的N - 取代基所含碳原子数与布比卡因相同，但空间定位不同（正丁基与环丙基甲基）。因此，研究IQB - 9302对映体对hKv1.5通道的影响将有助于更好地了解立体选择性阻断的决定因素。2. 使用膜片钳技术的全细胞模式，研究IQB - 9302对映体对稳定表达于LTK:(-)细胞中的hKv1.5通道的影响。使用Hyperchem软件进行药物分子建模。3. IQB - 9302诱导的阻断具有立体选择性，R(+)对映体的效力比S(-)对映体高3.2倍（解离常数K(D)分别为17.8±0.5 microM和58.6±4.0 microM）。4. S(-)-和R(+) - IQB - 9302诱导的阻断具有时间和电压依赖性，分别与距细胞质侧的电距离0.173±0.022（n = 12）和0.181±0.018（n = 10）一致。5. 哌啶基利多卡因局部麻醉药的阻断效力与阳离子叔胺和取代基末端之间的长度呈线性相关。6. 分子建模表明，只有当S(-)和R(+)对映体通过其芳香环重叠时，它们的N - 取代基才处于相反方向，这可以解释布比卡因和IQB - 9302对hKv1.5通道诱导的立体特异性阻断。7. 这些结果表明：(a) IQB - 9302对映体阻断hKv1.5通道的开放状态，(b) 这些局部麻醉药中N - 取代基的长度而非其体积决定了它们对hKv1.5通道立体选择性阻断的效力和程度。