豚鼠离体平滑肌细胞中电压依赖性钙内向电流的钙依赖性失活
Calcium-dependent inactivation of potential-dependent calcium inward current in an isolated guinea-pig smooth muscle cell.
作者信息
Shuba M F, Smirnov S V
机构信息
Department of Nerve-Muscle Physiology, A.A. Bogomoletz Institute of Physiology, Academy of Sciences of the Ukrainian S.S.R., Kiev.
出版信息
J Physiol. 1987 Nov;392:431-49. doi: 10.1113/jphysiol.1987.sp016789.
Abstract
- Calcium current (ICa) was studied in single isolated smooth muscle cells of a guinea-pig taenia caeci dialysed with Cs+-containing solution to suppress K+ outward current. 2. With increasing step depolarizations up to +10 mV, acceleration of ICa inactivation was observed. With further increase of step depolarization, ICa inactivation was slowed down. The largest ICa (observed at +10 mV) was characterized by the maximal speed of inactivation. 3. Comparison of ICa in different external concentrations of Ca2+ ions ([Ca2+]o) revealed that at the same membrane potential the time course of ICa inactivation was slower, the smaller the amplitude of ICa. Slowing down of ICa inactivation was observed also during its partial block by Co2+ ions. 4. Elevation of temperature increased ICa peak amplitude and accelerated its decay. The amplitude of ICa was increased by a factor of 1.7 +/- 0.14 (n = 6) when the temperature was raised by 10 degrees C. 5. Calculations of Ca2+ entry during ICa as a time integral of Co2+-sensitive current, and comparison with the degree of ICa inactivation, showed that inactivation was tightly related to Ca2+ entry in the membrane potential range -20 to +40 mV. 6. Ba2+ current through Ca2+ channels was larger than ICa and its inactivation was considerably slower. 7. Recovery of ICa from inactivation was found to be potential dependent. When the cell membrane was hyperpolarized, ICa recovery was accelerated. 8. It was concluded that inactivation and recovery of ICa in smooth muscle cells were influenced by both Ca2+ entry and membrane potential. It was also pointed out that the observed events are difficult to explain by the hypothesis that inactivation was produced simply by accumulation of Ca2+ ions near the inner side of the membrane, and that recovery was due to lowering of internal free Ca2+ ion concentration ([Ca2+]i).
摘要
- 在豚鼠盲肠带的单个分离平滑肌细胞中研究钙电流(ICa),用含Cs + 的溶液透析以抑制K + 外向电流。2. 随着逐步去极化增加至 +10 mV,观察到ICa失活加速。随着逐步去极化进一步增加,ICa失活减慢。最大的ICa(在 +10 mV时观察到)的特征是失活速度最大。3. 不同外部Ca2 + 离子浓度([Ca2 + ]o)下ICa的比较表明,在相同膜电位下,ICa失活的时间进程较慢,ICa的幅度越小。在Co2 + 离子对ICa的部分阻断期间也观察到ICa失活减慢。4. 温度升高增加了ICa峰值幅度并加速了其衰减。当温度升高10℃时,ICa幅度增加了1.7±0.14倍(n = 6)。5. 将ICa期间的Ca2 + 内流计算为对Co2 + 敏感电流的时间积分,并与ICa失活程度进行比较,结果表明失活与 -20至 +40 mV膜电位范围内的Ca2 + 内流密切相关。6. 通过Ca2 + 通道的Ba2 + 电流大于ICa,其失活相当慢。7. 发现ICa从失活中的恢复是电位依赖性的。当细胞膜超极化时,ICa恢复加速。8. 得出结论,平滑肌细胞中ICa的失活和恢复受Ca2 + 内流和膜电位的影响。还指出,观察到的事件难以用以下假设来解释:失活仅仅是由膜内侧附近Ca2 + 离子的积累产生的,而恢复是由于内部游离Ca2 + 离子浓度([Ca2 + ]i)降低所致。
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