Nikitina Elena, Zhang Zhen-Du, Kawashima Ayako, Jahromi Babak S, Bouryi Vitali A, Takahashi Masataka, Xie An, Macdonald R Loch
Department of Surgery, University of Chicago Medical Center, IL, USA.
J Physiol. 2007 Apr 15;580(Pt. 2):523-41. doi: 10.1113/jphysiol.2006.126128. Epub 2006 Dec 21.
Electrophysiological and molecular characteristics of voltage-dependent calcium (Ca(2+)) channels were studied using whole-cell patch clamp, polymerase chain reaction and Western blotting in smooth muscle cells freshly isolated from dog basilar artery. Inward currents evoked by depolarizing steps from a holding potential of -50 or -90 mV in 10 mm barium consisted of low- (LVA) and high-voltage activated (HVA) components. LVA current comprised more than half of total current in 24 (12%) of 203 cells and less than 10% of total current in 52 (26%) cells. The remaining cells (127 cells, 62%) had LVA currents between one tenth and one half of total current. LVA current was rapidly inactivating, slowly deactivating, inhibited by high doses of nimodipine and mibefradil (> 0.3 microM), not affected by omega-agatoxin GVIA (gamma100 nM), omega-conotoxin IVA (1 microM) or SNX-482 (200 nM) and probably carried by T-type Ca(2+) channels based on the presence of messenger ribonucleic acid (mRNA) and protein for Ca(v3.1) and Ca(v3.3) alpha(1) subunits of these channels. LVA currents exhibited window current with a maximum of 13% of the LVA current at -37.4 mV. HVA current was slowly inactivating and rapidly deactivating. It was inhibited by nimodipine (IC(50) = 0.018 microM), mibefradil (IC(50) = 0.39 microM) and omega-conotoxin IV (1 microM). Smooth muscle cells also contained mRNA and protein for L- (Ca(v1.2) and Ca(v1.3)), N- (Ca(v2.2)) and T-type (Ca(v3.1) and Ca(v3.3)) alpha(1) Ca(2+) channel subunits. Confocal microscopy showed Ca(v1.2) and Ca(v1.3) (L-type), Ca(v2.2) (N-type) and Ca(v3.1) and Ca(v3.3) (T-type) protein in smooth muscle cells. Relaxation of intact arteries under isometric tension in vitro to nimodipine (1 microM) and mibefradil (1 microM) but not to omega-agatoxin GVIA (100 nM), omega-conotoxin IVA (1 microM) or SNX-482 (1 microM) confirmed the functional significance of L- and T-type voltage-dependent Ca(2+) channel subtypes but not N-type. These results show that dog basilar artery smooth muscle cells express functional voltage-dependent Ca(2+) channels of multiple types.
利用全细胞膜片钳、聚合酶链反应和蛋白质免疫印迹技术,对从犬基底动脉新鲜分离的平滑肌细胞中电压依赖性钙(Ca(2+))通道的电生理和分子特性进行了研究。在含有10 mM钡离子的溶液中,从-50或-90 mV的钳制电位进行去极化脉冲刺激所诱发的内向电流,由低电压激活(LVA)和高电压激活(HVA)成分组成。在203个细胞中,24个(12%)细胞的LVA电流占总电流的一半以上,52个(26%)细胞的LVA电流占总电流的不到10%。其余细胞(127个,62%)的LVA电流在总电流的十分之一到二分之一之间。LVA电流快速失活、缓慢去激活,高剂量的尼莫地平(> 0.3 microM)和米贝地尔(> 0.3 microM)可抑制该电流,不受ω-芋螺毒素GVIA(γ100 nM)、ω-芋螺毒素IVA(1 microM)或SNX-482(200 nM)影响,基于这些通道Ca(v3.1)和Ca(v3.3) α(1)亚基信使核糖核酸(mRNA)和蛋白质的存在,推测该电流可能由T型Ca(2+)通道携带。LVA电流表现出窗电流,在-37.4 mV时最大为LVA电流的13%。HVA电流缓慢失活、快速去激活。它被尼莫地平(IC(50) = 0.018 microM)、米贝地尔(IC(50) = 0.39 microM)和ω-芋螺毒素IV(1 microM)抑制。平滑肌细胞还含有L型(Ca(v1.2)和Ca(v1.3))、N型(Ca(v2.2))和T型(Ca(v3.1)和Ca(v3.3))α(1) Ca(2+)通道亚基的mRNA和蛋白质。共聚焦显微镜显示平滑肌细胞中有Ca(v1.2)和Ca(v1.3)(L型)、Ca(v2.2)(N型)以及Ca(v3.1)和Ca(v3.3)(T型)蛋白。体外等长张力下完整动脉对尼莫地平(1 microM)和米贝地尔(1 microM)舒张,但对ω-芋螺毒素GVIA(100 nM)、ω-芋螺毒素IVA(1 microM)或SNX-482(1 microM)无反应,证实了L型和T型电压依赖性Ca(2+)通道亚型而非N型通道亚型的功能意义。这些结果表明,犬基底动脉平滑肌细胞表达多种类型的功能性电压依赖性Ca(2+)通道。