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Slowing of the inactivation of cardiac voltage-dependent sodium channels by the amiodarone derivative 2-methyl-3-(3,5-diiodo-4-carboxymethoxybenzyl)benzofuran (KB130015).胺碘酮衍生物2-甲基-3-(3,5-二碘-4-羧基甲氧基苄基)苯并呋喃(KB130015)对心脏电压依赖性钠通道失活的延缓作用
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Synthesis and preliminary characterization of a novel antiarrhythmic compound (KB130015) with an improved toxicity profile compared with amiodarone.一种新型抗心律失常化合物(KB130015)的合成及其初步表征,与胺碘酮相比,其毒性特征有所改善。
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Suppression of transient outward potassium currents in mouse ventricular myocytes by imidazole antimycotics and by glybenclamide.
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Slowing Na+ channel inactivation prolongs QT interval and aggravates adrenaline-induced arrhythmias.
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The cardiac sodium channel: gating function and molecular pharmacology.心脏钠通道:门控功能与分子药理学。
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Molecular biology of sodium channels and their role in cardiac arrhythmias.
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Resurgence of sodium channel research.钠通道研究的复兴
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KB130015导致心脏电压门控钠通道失活减慢相关的动作电位变化

Action potential changes associated with a slowed inactivation of cardiac voltage-gated sodium channels by KB130015.

作者信息

Macianskiene R, Bito V, Raeymaekers L, Brandts B, Sipido K R, Mubagwa K

机构信息

Centre for Experimental Surgery and Anaesthesiology, University of Leuven, Leuven B-3000, Belgium.

出版信息

Br J Pharmacol. 2003 Aug;139(8):1469-79. doi: 10.1038/sj.bjp.0705379.

DOI:10.1038/sj.bjp.0705379
PMID:12922934
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1573977/
Abstract
  1. We have studied the acute cardiac electrophysiological effects of KB130015 (KB), a drug structurally related to amiodarone. Membrane currents and action potentials were measured at room temperature or at 37 degrees C during whole-cell patch-clamp recording in ventricular myocytes. Action potentials were also measured at 37 degrees C in multicellular ventricular preparations. 2. The effects of KB were compared with those of anemone toxin II (ATX-II). Both KB and ATX-II slowed the inactivation of the voltage-gated Na(+) current (I(Na)). While KB shifted the steady-state voltage-dependent inactivation to more negative potentials, ATX-II shifted it to more positive potentials. In addition, while inactivation proceeded to completion with KB, a noninactivating current was induced by ATX-II. 3. KB had no effect on I(K1) but decreased I(Ca-L) The drug also did not change I(to) in mouse myocytes. 4. The action potential duration (APD) in pig myocytes or multicellular preparations was not prolonged but often shortened by KB, while marked APD prolongation was obtained with ATX-II. Short APDs in mouse were markedly prolonged by KB, which frequently induced early afterdepolarizations. 5. A computer simulation confirmed that long action potentials with high plateau are relatively less sensitive to a mere slowing of I(Na) inactivation, not associated with a persisting, noninactivating current. In contrast, simulated short action potentials with marked phase-1 repolarization were markedly modified by slowing I(Na) inactivation. 6 It is suggested that a prolongation of short action potentials by drugs or mutations that only slow I(Na) inactivation does not necessarily imply identical changes in other species or in different myocardial regions.
摘要
  1. 我们研究了与胺碘酮结构相关的药物KB130015(KB)的急性心脏电生理效应。在室温或37℃下,于心室肌细胞全细胞膜片钳记录过程中测量膜电流和动作电位。也在37℃下测量多细胞心室标本中的动作电位。2. 将KB的效应与海葵毒素II(ATX-II)的效应进行了比较。KB和ATX-II均减慢电压门控钠电流(I(Na))的失活。虽然KB使稳态电压依赖性失活向更负的电位移动,但ATX-II使其向更正的电位移动。此外,虽然KB作用下失活过程会完成,但ATX-II会诱导出一种非失活电流。3. KB对I(K1)无影响,但会降低I(Ca-L)。该药物对小鼠心肌细胞中的I(to)也无改变。4. KB未延长猪心肌细胞或多细胞标本中的动作电位时程(APD),反而常常使其缩短,而ATX-II则使APD显著延长。KB使小鼠的短APD显著延长,并常常诱发早期后去极化。5. 计算机模拟证实具有高平台期延长的动作电位对单纯I(Na)失活减慢相对不敏感,且不伴有持续的非失活电流。相反,具有明显1期复极化的模拟短动作电位会因I(Na)失活减慢而显著改变。6. 提示仅减慢I(Na)失活的药物或突变导致的短动作电位延长不一定意味着在其他物种或不同心肌区域有相同变化。