非诺维林对大鼠门静脉和子宫肌层单个平滑肌细胞钙通道电流的抑制作用。

Fenoverine inhibition of calcium channel currents in single smooth muscle cells from rat portal vein and myometrium.

作者信息

Mironneau J, Arnaudeau S, Mironneau C

机构信息

Laboratoire de Physiologie Cellulaire et Pharmacologie Moléculaire, Université de Bordeaux II, France.

出版信息

Br J Pharmacol. 1991 Sep;104(1):65-70. doi: 10.1111/j.1476-5381.1991.tb12386.x.

DOI:10.1111/j.1476-5381.1991.tb12386.x

PMID:1786520

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1908293/

Abstract

The effects of fenoverine, an antispasmodic drug, have been studied on the Ca2+ channel currents of isolated cells from rat portal vein and pregnant myometrium by the patch-clamp technique (whole-cell configuration). 2. Fenoverine inhibited both fast and slow Ca2+ channel currents in a concentration-dependent manner. Half-inhibition of fast Ca2+ channel current (holding potential of -70 mV) and slow Ca2+ channel current (holding potential of -40 mV) in portal vein smooth muscle were obtained at concentrations of 7.5 and 1.9 microM, respectively. In myometrium, the fenoverine concentration which blocked 50% of the slow Ca2+ channel current (holding potential of -70 mV) was 2.3 microM. 3. Administration of fenoverine at rest reduced both Ca2+ channel currents. Currents activated repetitively, at a rate between 0.05 and 0.1 Hz, were inhibited equally which indicates an absence of use-dependent inhibition. 4. When cells held at depolarized membrane potentials at which fast or slow Ca2+ channel currents were strongly inactivated, the inhibitory effects of fenoverine were enhanced on both Ca2+ channel currents which indicates that the fenoverine-induced inhibition was voltage-dependent. The fenoverine concentrations which blocked the inactivated Ca2+ channels were 5-7 times lower than those which blocked the resting Ca2+ channels. 5. Our results show that fenoverine depresses inward currents through fast and slow Ca2+ channels. This effect may be explained by the preferential binding of fenoverine to resting Ca2+ channels. In addition, fenoverine has a higher affinity for inactivated Ca2+ channels than for resting channels.

摘要

采用膜片钳技术（全细胞模式），研究了解痉药非诺维林对大鼠门静脉和妊娠子宫肌层分离细胞钙通道电流的影响。2. 非诺维林以浓度依赖方式抑制快速和慢速钙通道电流。在门静脉平滑肌中，快速钙通道电流（钳制电位为 -70 mV）和慢速钙通道电流（钳制电位为 -40 mV）的半数抑制浓度分别为7.5 μM和1.9 μM。在子宫肌层中，阻断50%慢速钙通道电流（钳制电位为 -70 mV）的非诺维林浓度为2.3 μM。3. 静息时给予非诺维林可降低两种钙通道电流。以0.05至0.1 Hz频率重复激活的电流受到同等程度抑制，这表明不存在使用依赖性抑制。4. 当细胞保持在快速或慢速钙通道电流强烈失活的去极化膜电位时，非诺维林对两种钙通道电流的抑制作用增强，这表明非诺维林诱导的抑制是电压依赖性的。阻断失活钙通道的非诺维林浓度比阻断静息钙通道的浓度低5至7倍。5. 我们的结果表明，非诺维林可抑制通过快速和慢速钙通道的内向电流。这种效应可能是由于非诺维林优先与静息钙通道结合所致。此外，非诺维林对失活钙通道的亲和力高于对静息通道的亲和力。