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人类冠状动脉心肌细胞中的电压门控钙通道电流。环磷酸鸟苷和一氧化氮的调节作用。

Voltage-gated calcium channel currents in human coronary myocytes. Regulation by cyclic GMP and nitric oxide.

作者信息

Quignard J F, Frapier J M, Harricane M C, Albat B, Nargeot J, Richard S

机构信息

Centre de Recherches de Biochimie Macromoléculaire, CNRS, UPR 9008, INSERM U 249, Université de Montpellier I, France.

出版信息

J Clin Invest. 1997 Jan 15;99(2):185-93. doi: 10.1172/JCI119146.

DOI:10.1172/JCI119146
PMID:9005986
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC507785/
Abstract

Voltage-gated Ca2+ channels contribute to the maintenance of contractile tone in vascular myocytes and are potential targets for vasodilating agents. There is no information available about their nature and regulation in human coronary arteries. We used the whole-cell voltage-clamp technique to characterize Ca2+-channel currents immediately after enzymatic dissociation and after primary culture of coronary myocytes taken from heart transplant patients. We recorded a dihydropyridine-sensitive L-type current in both freshly isolated and primary cultured cells. A T-type current was recorded only in culture. The L- (but not the T-) type current was inhibited by permeable analogues of cGMP in a dose-dependent manner. This effect was mimicked by the nitric oxide-generating agents S-nitroso-N-acetylpenicillamine (SNAP) and 3-morpholinosydnonimine which increased intracellular cGMP. Methylene blue, known to inhibit guanylate cyclase, antagonized the effect of SNAP. Inhibitions by SNAP and cGMP were not additive and seemed to occur through a common pathway. We conclude that (a) L-type Ca2+ channels are the major pathway for voltage-gated Ca2+ entry in human coronary myocytes; (b) their inhibition by agents stimulating nitric oxide and/or intracellular cGMP production is expected to contribute to vasorelaxation and may be involved in the therapeutic effect of nitrovasodilators; and (c) the expression of T-type Ca2+ channels in culture may be triggered by cell proliferation.

摘要

电压门控性Ca2+通道有助于维持血管平滑肌细胞的收缩张力,是血管舒张剂的潜在作用靶点。目前尚无关于其在人类冠状动脉中的性质和调节的相关信息。我们采用全细胞膜片钳技术,对取自心脏移植患者的冠状动脉心肌细胞酶解后及原代培养后立即进行Ca2+通道电流特性分析。我们在新鲜分离的细胞和原代培养细胞中均记录到二氢吡啶敏感的L型电流。仅在培养细胞中记录到T型电流。L型(而非T型)电流被可渗透的cGMP类似物以剂量依赖方式抑制。一氧化氮供体药物S-亚硝基-N-乙酰青霉胺(SNAP)和3-吗啉代西多非明可增加细胞内cGMP,模拟了这一效应。已知可抑制鸟苷酸环化酶的亚甲蓝可拮抗SNAP的作用。SNAP和cGMP的抑制作用并非相加,似乎通过共同途径发生。我们得出结论:(a)L型Ca2+通道是人类冠状动脉心肌细胞电压门控性Ca2+内流的主要途径;(b)刺激一氧化氮和/或细胞内cGMP生成的药物对其抑制作用有望促进血管舒张,可能参与了硝基血管舒张剂的治疗作用;(c)培养细胞中T型Ca2+通道的表达可能由细胞增殖触发。

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