成年大鼠颈动脉体I型化学感受细胞中的L型和N型钙离子通道。
L- and N-type Ca2+ channels in adult rat carotid body chemoreceptor type I cells.
作者信息
e Silva M J, Lewis D L
机构信息
Department of Pharmacology and Toxicology, Medical College of Georgia, Augusta 30912-2300, USA.
出版信息
J Physiol. 1995 Dec 15;489 ( Pt 3)(Pt 3):689-99. doi: 10.1113/jphysiol.1995.sp021083.
Abstract
- Whole-cell voltage-dependent Ca2+ currents recorded from chemoreceptor type I cells of the adult rat carotid body had maximum amplitudes of -94 pA in 10 mM Ca2+ and were half-inactivated at a holding potential of -38 mV. Somatostatin and dopamine inhibited whole-cell Ca2+ current in type I cells. 2. The dihydropyridine agonist (+)202-791 increased the Ca2+ current amplitude by 106% at a step potential of -18 mV. The dihydropyridine antagonist nimodipine decreased the Ca2+ current amplitude by 40% from a holding potential of -80 mV, and by 74% from a holding potential of -60 mV. The nimodipine-sensitive current had a maximum amplitude at a membrane potential of -12 mV. omega-Conotoxin GVIA (omega-CgTX GVIA) blocked the whole-cell Ca2+ current by 40%. The omega-CgTX GVIA-sensitive current had a maximum amplitude at a membrane potential of +2 mV. 3. In summary, type I cells of the adult rat carotid body have dihydropyridine-sensitive L-type and omega-conotoxin GVIA-sensitive N-type voltage-dependent Ca2+ channels. These channels may play a role in the voltage-gated entry of Ca2+ necessary for stimulus-secretion coupling in response to changes in arterial PO2, PCO2 and pH. Inhibition of the Ca2+ currents by somatostatin and dopamine may alter the chemotransduction signal in type I cells.
摘要
- 从成年大鼠颈动脉体I型化学感受器细胞记录的全细胞电压依赖性Ca2+电流,在10 mM Ca2+中最大幅度为-94 pA,在-38 mV的钳制电位下半数失活。生长抑素和多巴胺抑制I型细胞中的全细胞Ca2+电流。2. 二氢吡啶激动剂(+)202-791在-18 mV的阶跃电位下使Ca2+电流幅度增加106%。二氢吡啶拮抗剂尼莫地平在-80 mV的钳制电位下使Ca2+电流幅度降低40%,在-60 mV的钳制电位下降低74%。尼莫地平敏感电流在-12 mV的膜电位处具有最大幅度。ω-芋螺毒素GVIA(ω-CgTX GVIA)使全细胞Ca2+电流阻断40%。ω-CgTX GVIA敏感电流在+2 mV的膜电位处具有最大幅度。3. 总之,成年大鼠颈动脉体的I型细胞具有二氢吡啶敏感的L型和ω-芋螺毒素GVIA敏感的N型电压依赖性Ca2+通道。这些通道可能在响应动脉血PO2、PCO2和pH变化的刺激-分泌偶联所需的Ca2+电压门控内流中起作用。生长抑素和多巴胺对Ca2+电流的抑制可能改变I型细胞中的化学转导信号。
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