加洛帕米对蛙骨骼肌纤维钙释放及膜内电荷移动的影响。
Effects of gallopamil on calcium release and intramembrane charge movements in frog skeletal muscle fibres.
作者信息
Feldmeyer D, Melzer W, Pohl B
机构信息
Department of Cell Physiology, Ruhr-University Bochum, FRG.
出版信息
J Physiol. 1990 Feb;421:343-62. doi: 10.1113/jphysiol.1990.sp017948.
Abstract
- Intramembrane charge movements and changes in intracellular Ca2+ concentration were studied in voltage clamp experiments on cut twitch muscle fibres of the frog. The restoration from inactivation caused by steady depolarization and its modification by the phenylalkylamine Ca2+ channel antagonist gallopamil (D600, 10-30 microM) were investigated. 2. D600 prevented the restoration from inactivation of Ca2+ release which normally occurred at -80 mV. In D600 Ca2+ release recovered from inactivation at -120 mV. 3. D600 did not alter the characteristics of intramembrane charge movements in the depolarized fibre (charge 2) but the increase in the amount of mobile charge in the test voltage range above -60 mV, which normally occurs after changing the holding potential to -80 mV, was suppressed. The charge movement characteristics of D600-paralysed fibres, which were held at -80 mV, equalled those of normal depolarized and inactivated fibres. 4. Control records for the charge movement analysis were always obtained by voltage steps above 0 mV. Using the 'conventional' control in the potential range between -80 and -160 mV led to an underestimation and a kinetic deformation of charge movements in D600-treated fibres, which was due to various amounts of nonlinear charge in the control. 5. Like the restoration of Ca2+ release at -80 mV in normal fibres the recovery from paralysis at -120 mV in D600-treated fibres was accompanied by a significant increase in mobile charge in the potential range positive of -60 mV. Both Ca2+ release and charge movement at test potentials above -60 mV recovered with almost identical time course. 6. Restoration of Ca2+ release at a holding potential of -80 mV in normal fibres or at -120 mV in D600-treated fibres could not be clearly correlated to charge movement changes in the voltage range negative of -60 mV (charge 2). 7. Our results are consistent with a voltage-dependent inhibitory effect of D600 on the charge displacement that controls Ca2+ release from the sarcoplasmic reticulum but provide little evidence for a conversion of charge 2 into the charge that is involved in the control of Ca2+ release.
摘要
- 在对青蛙的离体单收缩肌纤维进行的电压钳实验中,研究了膜内电荷移动和细胞内Ca2+浓度的变化。研究了由持续去极化引起的失活恢复情况以及苯烷基胺类Ca2+通道拮抗剂加洛帕米(D600,10 - 30 microM)对其的影响。2. D600阻止了通常在 - 80 mV时发生的Ca2+释放失活的恢复。在D600存在的情况下,Ca2+释放在 - 120 mV时从失活状态恢复。3. D600没有改变去极化纤维中膜内电荷移动的特性(电荷2),但在 - 60 mV以上的测试电压范围内,通常在将钳制电位变为 - 80 mV后出现的可移动电荷量的增加受到了抑制。保持在 - 80 mV的D600麻痹纤维的电荷移动特性与正常去极化和失活纤维的电荷移动特性相同。4. 电荷移动分析的对照记录总是通过高于0 mV的电压阶跃获得。在 - 80至 - 160 mV的电位范围内使用“传统”对照会导致D600处理纤维中电荷移动的低估和动力学变形,这是由于对照中存在各种非线性电荷。5. 与正常纤维在 - 80 mV时Ca2+释放的恢复一样,D600处理纤维在 - 120 mV时从麻痹状态恢复伴随着在 - 60 mV正电位范围内可移动电荷的显著增加。在高于 - 60 mV的测试电位下,Ca2+释放和电荷移动的恢复具有几乎相同的时间进程。6. 正常纤维在 - 80 mV的钳制电位下或D600处理纤维在 - 120 mV的钳制电位下Ca2+释放的恢复与 - 60 mV负电位范围内的电荷移动变化(电荷2)没有明显的相关性。7. 我们的结果与D600对控制肌浆网Ca2+释放的电荷位移的电压依赖性抑制作用一致,但几乎没有证据表明电荷2转化为参与Ca2+释放控制的电荷。
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