雪貂心室肌细胞中,在尾电流期间且高于电流反转电位时,通过L型钙通道的钙离子内流。
Ca2+ influx via the L-type Ca2+ channel during tail current and above current reversal potential in ferret ventricular myocytes.
作者信息
Zhou Z, Bers D M
机构信息
Department of Physiology, Loyola University Chicago, Maywood, IL 60153, USA.
出版信息
J Physiol. 2000 Feb 15;523 Pt 1(Pt 1):57-66. doi: 10.1111/j.1469-7793.2000.t01-2-00057.x.
Abstract
- Current through L-type Ca2+ channels (ICa) was measured electrophysiologically at the same time as Ca2+ influx was measured by trapping entering Ca2+ with a high concentration of indo-1 (> 1 mM) in ferret ventricular myocytes. 2. Na+-free conditions prevented Na+-Ca2+ exchange and K+ currents were blocked by Cs+ and TEA. Thapsigargin (5 microM) prevented Ca2+ uptake and release by the sarcoplasmic reticulum. ICa was pre-activated by brief pulses to +120 mV (the equilibrium potential for Ca2+, ECa), followed by steps to different membrane potentials (Em, -80 to +100 mV), in some cases in the presence of the Ca2+ channel agonist FPL-64176. 3. Integrated ICa ( 82 ICa) was linearly related to the change in the concentration of Ca2+ bound to indo-1, which was assessed by the fluorescence difference signal DeltaFd (Fd = F500 - F400). This created an internal calibration of DeltaFd as a measure of Ca2+ influx. 4. The DeltaFd/ 82 ICadt relationship was virtually unchanged at all measurable inward ICa (at Em from -80 to +50 mV). This indicates that the fractional current carried by Ca2+ and channel selectivity are unchanged over this Em range, and also that the selectivity for Ca2+ is very high. 5. Ca2+ influx was readily detected by DeltaFd beyond the ICa reversal potential (+65 to +100 mV) and was not abolished until Em was +120 mV (i.e. ECa). This is explained by the fact that inward Ca2+ flux at the ICa reversal potential is exactly balanced by outward Cs+ current through the Ca2+ channels and can be described by classic Goldman flux analysis with a Ca2+/Cs+ selectivity of the order of 5000. 6. This result also emphasizes that net Ca2+ influx via Ca2+ channels occurs over a voltage range where the net channel current is outward.
摘要
- 在雪貂心室肌细胞中,通过用高浓度的indo-1(>1 mM)捕获进入的Ca2+来测量Ca2+内流的同时,用电生理学方法测量通过L型Ca2+通道(ICa)的电流。2. 无钠条件可防止钠钙交换,钾电流被铯离子(Cs+)和四乙铵(TEA)阻断。毒胡萝卜素(5 microM)可防止肌浆网摄取和释放Ca2+。ICa通过短暂脉冲预激活至+120 mV(Ca2+的平衡电位,ECa),然后逐步改变至不同的膜电位(Em,-80至+100 mV),在某些情况下存在Ca2+通道激动剂FPL-64176。3. 积分ICa(82 ICa)与结合到indo-1上的Ca2+浓度变化呈线性相关,通过荧光差异信号DeltaFd(Fd = F500 - F400)进行评估。这建立了DeltaFd作为Ca2+内流测量指标的内部校准。4. 在所有可测量的内向ICa(Em为-80至+50 mV)时,DeltaFd/82 ICadt关系几乎不变。这表明在此Em范围内,由Ca2+携带的分数电流和通道选择性不变,并且对Ca2+的选择性非常高。5. 在ICa反转电位(+65至+100 mV)以上,通过DeltaFd很容易检测到Ca2+内流,直到Em为+12 mV(即ECa)时才消失。这可以通过以下事实来解释:在ICa反转电位时,内向Ca2+通量正好被通过Ca2+通道的外向Cs+电流平衡,并且可以用经典的戈德曼通量分析来描述,Ca2+/Cs+选择性约为5000。6. 该结果还强调,通过Ca2+通道的净Ca2+内流发生在通道净电流为外向的电压范围内。
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