去极化诱发大鼠门静脉分离平滑肌细胞胞质钙浓度升高。
Depolarization-evoked increases in cytosolic calcium concentration in isolated smooth muscle cells of rat portal vein.
作者信息
Kamishima T, McCarron J G
机构信息
Institute of Biomedical and Life Sciences, University of Glasgow, UK.
出版信息
J Physiol. 1996 Apr 1;492 ( Pt 1)(Pt 1):61-74. doi: 10.1113/jphysiol.1996.sp021289.
Abstract
- Ca2+ current through voltage-dependent Ca2+ channels (ICa) and intracellular free Ca2+ concentration ([Ca2+]i) were measured simultaneously in rat portal vein smooth muscle cells using conventional whole-cell voltage clamp technique and high temporal resolution microfluorimetry. 2. The relationship between depolarization-evoked ICa and rise in [Ca2+]i was examined. The extracellular Ca2+ concentration dependence and the voltage dependence of the depolarization-evoked increases in ICa and [Ca2+]i were similar. Both ICa and increased [Ca2+]i were blocked to a similar extent by nimodipine and cadmium and augmented by Bay K 8644. Furthermore, the time course of the measured increase in [Ca2+]i, closely followed the increase in [Ca2+]i expected from the time-integrated ICa. These observations suggest that the depolarization-evoked rise in [Ca2+]i was tightly coupled to ICa. 3. The cytosolic Ca2+ buffering capacity, determined as the ratio of the expected increase in [Ca2+]i (from ICa) divided by the measured increase in [Ca2+]i, was over 100. Therefore, less than 1 out of 100 Ca2+ ions entering the cell appears as a free Ca2+. 4. Ryanodine (30 microM), a blocker of the Ca(2+)-induced Ca2+ release mechanism, had little effect on buffering capacity measured over the first 200 ms of the depolarizing voltage clamp pulse. Ryanodine also had little effect on the buffering capacity during 800-1000 ms of the depolarizing voltage clamp pulse. Therefore, it was concluded that there is little Ca(2+)-induced Ca2+ release from the stores in rat portal vein smooth muscle cells during depolarization-evoked Ca2+ entry. 5. During brief depolarizations, the largest [Ca2+]i increase and ICa occurred at 0 mV. However, during steady-state depolarization, the largest increase in [Ca2+]i occurred around -30 mV, and we estimate the peak steady-state ICa to be about 0.6 pA.
摘要
- 采用传统的全细胞膜片钳技术和高时间分辨率显微荧光测定法,同时测量大鼠门静脉平滑肌细胞中通过电压依赖性Ca2+通道的Ca2+电流(ICa)和细胞内游离Ca2+浓度([Ca2+]i)。2. 研究了去极化诱发的ICa与[Ca2+]i升高之间的关系。去极化诱发的ICa和[Ca2+]i升高的细胞外Ca2+浓度依赖性和电压依赖性相似。尼莫地平和镉对ICa和升高的[Ca2+]i的阻断程度相似,而Bay K 8644则使其增强。此外,测量到的[Ca2+]i升高的时间进程与根据ICa的时间积分预期的[Ca2+]i升高密切相关。这些观察结果表明,去极化诱发的[Ca2+]i升高与ICa紧密耦合。3. 细胞溶质Ca2+缓冲能力定义为预期的[Ca2+]i升高(来自ICa)与测量到的[Ca2+]i升高之比,超过100。因此,进入细胞的Ca2+离子中不到1/100以游离Ca2+的形式出现。4. 钙诱导钙释放机制的阻滞剂Ryanodine(30 microM),在去极化电压钳脉冲的前200毫秒内对测量的缓冲能力几乎没有影响。Ryanodine在去极化电压钳脉冲的800 - 1000毫秒期间对缓冲能力也几乎没有影响。因此,得出结论,在去极化诱发的Ca2+内流期间,大鼠门静脉平滑肌细胞的储存库中几乎没有钙诱导钙释放。5. 在短暂去极化期间,最大的[Ca2+]i升高和ICa出现在0 mV。然而,在稳态去极化期间,最大的[Ca2+]i升高出现在约 - 30 mV,并且我们估计稳态ICa峰值约为0.6 pA。
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