钙对绵羊心脏浦肯野纤维舒张去极化影响的分析。

Journal de physiologie Pub Date : 1991-01-01
M Vassalle, J Tamargo
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引用次数: 0

摘要

本文分析了[Ca]O对体外灌注的绵羊心脏浦肯野纤维舒张去极化(DD)的影响。Cs (2 mM)降低了不同[Ca]O和10.8 mM [Ca]O的舒张去极化(DD),显示出振荡电位(VOS)和延长去极化(Vex)的衰减。在Cs存在的情况下,降低Cai(较慢的驱动速率、较低的[Ca]O或河豚毒素)可以消除VOS和Vex,并部分恢复DD。在10.8 mM [Ca]O和所有驱动速率下,Cs降低了DD斜率、DD振幅和VOS振幅,但对VOS达到峰值的时间影响不大。在10.8 mM [Ca]O环境中,通过不同方式(2.6 μ m TTX, 0.2 μ m Cd)减少钙超载可消除VOS,降低DD斜率和振幅。用Li取代Na可引起明显的后收缩,但VOS较小。在10.8 mM [Ca]O中,Li增加了后收缩幅度,降低了VOS的后收缩幅度。Li还使静息膜轻度去极化,并消除了动作电位末端的电压欠冲(Emax)。在低[K]O条件下,Li会使静息膜重极化,但只有在Ca存在的情况下才会保持重极化。由此得出结论,Ca过载会导致VOS和Vex,而VOS和Vex可以被DD和Ca过载的大小掩盖或掩盖。VOS显然是由电致Na-Ca交换引起的,因为li诱导的Ca过载增加了后收缩,但降低了VOS。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An analysis of calcium effects on diastolic depolarization in sheep cardiac Purkinje fibers.

The events by which [Ca]O modifies diastolic depolarization (DD) were analyzed in sheep cardiac Purkinje fibers perfused in vitro. Cs (2 mM) reduced diastolic depolarization (DD) at different [Ca]O and in 10.8 mM [Ca]O revealed an oscillatory potential (VOS) and the decay of a prolonged depolarization (Vex). In the presence of Cs, procedures that reduce Cai (a slower driving rate, lower [Ca]O or tetrodotoxin) abolished VOS and Vex and partially restored DD. In 10.8 mM [Ca]O and at all driving rates, Cs reduced DD slope, DD amplitude and VOS amplitude but had little effect on the VOS time to peak. In 10.8 mM [Ca]O, decreasing calcium overload by different means (2.6 microM TTX, 0.2 mM Cd) abolished VOS and decreased DD slope and amplitude. Substituting Na with Li induced marked aftercontractions but small VOS. In 10.8 mM [Ca]O, Li increased the amplitude of the aftercontractions and decreased that of VOS. Li also depolarized slightly the resting membrane and abolished the voltage undershoot (Emax) at the end of the action potential. In low [K]O, Li repolarized the resting membrane but the repolarization was maintained only in the presence of Ca. It is concluded that Ca overload causes both VOS and Vex which can either be masked by or can mask DD depending on the magnitude of DD and of Ca overload. VOS is apparently caused by an electrogenic Na-Ca exchange since Li-induced Ca overload increases the aftercontraction but decreases VOS.

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