钙离子(Ca2+)和电压通过独立机制使豚鼠心室肌细胞中的Ca2+通道失活。
Ca2+ and voltage inactivate Ca2+ channels in guinea-pig ventricular myocytes through independent mechanisms.
作者信息
Hadley R W, Lederer W J
机构信息
Department of Physiology, University of Maryland School of Medicine, Baltimore 21201.
出版信息
J Physiol. 1991 Dec;444:257-68. doi: 10.1113/jphysiol.1991.sp018876.
Abstract
- L-type Ca2+ currents and Ca2+ channel gating currents were studied in isolated guinea-pig ventricular heart cells using the whole-cell patch-clamp technique, in order to investigate the mechanism of Ca(2+)-dependent inactivation. The effect of altering the intracellular Ca2+ concentration ([Ca2+]i) on these currents was studied through photorelease of intracellular Ca2+ ions using the photolabile Ca2+ chelators DM-nitrophen and nitr-5. 2. We found that step increases in [Ca2+]i produced by photorelease could either increase or decrease the L-type Ca2+ current. Specifically, Ca2+ photorelease from DM-nitrophen almost exclusively caused inactivation of the Ca2+ current. In contrast, Ca2+ photorelease from nitr-5 had a biphasic effect: a small, rapid inactivation of the Ca2+ current was followed by a slow potentiation. These two Ca(2+)-dependent processes seemed to differ in their Ca2+ dependence, as small Ca2+ photoreleases elicited potentiation without a preceding inactivation, whereas larger photoreleases elicited both inactivation and potentiation. 3. The mechanism of the Ca(2+)-dependent inactivation of Ca2+ channels was explored by comparing the effects of voltage and photoreleased Ca2+ on the Ca2+ current and the Ca2+ channel gating current. Voltage was found to reduce both the Ca2+ current and the gating current proportionally. However, Ca2+ photorelease from intracellular DM-nitrophen inactivated the Ca2+ current without having any effect on the gating current. 4. The dephosphorylation hypothesis for Ca(2+)-dependent inactivation was tested by applying isoprenaline to the cells before eliciting a maximal rise of [Ca2+]i (maximal flash intensity, zero external [Na+]i). Isoprenaline could completely prevent Ca(2+)-dependent inactivation under these conditions, even when [Ca2+]i rose so high as to cause an irreversible contracture of the cell. 5. We concluded from these experiments that voltage and Ca2+ ions inactivate the L-type Ca2+ channel through separate, independent mechanisms. In addition, we found that Ca(2+)-dependent inactivation does not result in the immobilization of gating charge, and apparently closes the Ca2+ permeation pathway through a mechanism that does not involve the voltage-sensing region of the channel. Furthermore, we found that Ca(2+)-dependent inactivation is entirely sensitive to beta-adrenergic stimulation. These facts suggest that either Ca(2+)-dependent inactivation results from Ca(2+)-dependent dephosphorylation of the Ca2+ channel, or that Ca(2+)-dependent inactivation is modulated by protein kinase A.
摘要
- 采用全细胞膜片钳技术,在分离的豚鼠心室肌细胞中研究L型Ca2+电流和Ca2+通道门控电流,以探讨Ca(2+)依赖性失活的机制。通过使用光不稳定Ca2+螯合剂DM-硝基苯酚和Nitr-5光释放细胞内Ca2+离子,研究改变细胞内Ca2+浓度([Ca2+]i)对这些电流的影响。2. 我们发现,光释放引起的[Ca2+]i阶跃增加可增加或降低L型Ca2+电流。具体而言,DM-硝基苯酚光释放Ca2+几乎完全导致Ca2+电流失活。相反,Nitr-5光释放Ca2+具有双相作用:Ca2+电流先出现小而快速的失活,随后是缓慢的增强。这两个Ca(2+)依赖性过程在Ca2+依赖性方面似乎有所不同,因为小的Ca2+光释放引发增强而无先前的失活,而较大的光释放则引发失活和增强。3. 通过比较电压和光释放的Ca2+对Ca2+电流和Ca2+通道门控电流的影响,探讨了Ca2+通道Ca(2+)依赖性失活的机制。发现电压按比例降低Ca2+电流和门控电流。然而,细胞内DM-硝基苯酚光释放Ca2+使Ca2+电流失活,而对门控电流无任何影响。4. 通过在引发[Ca2+]i最大升高(最大闪光强度,零细胞外[Na+]i)之前向细胞施加异丙肾上腺素,检验了Ca(2+)依赖性失活的去磷酸化假说。在这些条件下,异丙肾上腺素可完全防止Ca(2+)依赖性失活,即使[Ca2+]i升高至导致细胞不可逆挛缩。5. 我们从这些实验得出结论,电压和Ca2+离子通过单独、独立的机制使L型Ca2+通道失活。此外,我们发现Ca(2+)依赖性失活不会导致门控电荷固定,并且显然通过一种不涉及通道电压感应区域的机制关闭Ca2+渗透途径。此外,我们发现Ca(2+)依赖性失活对β-肾上腺素能刺激完全敏感。这些事实表明,要么Ca(2+)依赖性失活是由Ca2+通道的Ca(2+)依赖性去磷酸化引起的,要么Ca(2+)依赖性失活受蛋白激酶A调节。
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