细胞外钾离子诱导的大鼠冠状动脉和脑动脉超极化及扩张涉及内向整流钾通道。
Extracellular K(+)-induced hyperpolarizations and dilatations of rat coronary and cerebral arteries involve inward rectifier K(+) channels.
作者信息
Knot H J, Zimmermann P A, Nelson M T
机构信息
Department of Pharmacology, University of Vermont, Colchester, VT 05446-2500, USA.
出版信息
J Physiol. 1996 Apr 15;492 ( Pt 2)(Pt 2):419-30. doi: 10.1113/jphysiol.1996.sp021318.
Abstract
- The hypothesis that inward rectifier K(+) channels are involved in the vasodilatation of small coronary and cerebral arteries (100-200 microm diameter) in response to elevated [K+]o was tested. The diameters and membrane potentials of pressurized arteries from rat were measured using a video-imaging system and conventional microelectrodes, respectively. 2. Elevation of [K+]o from 6 to 16 mM caused the membrane potential of pressurized (60 mmHg) arteries to hyperpolarize by 12-14 mV. Extracellular Ba(2+) (Ba2+(o)) blocked K(+)-induced membrane potential hyperpolarizations at concentrations (IC(50), 6 microM) that block inward rectifier K(+) currents in smooth muscle cells isolated from these arteries. 3. Elevation of [K+]o from 6 to 16 mM caused sustained dilatations of pressurized coronary and cerebral arteries with diameters increasing from 125 to 192 microm and 110 to 180 microm in coronary and cerebral arteries, respectively. Ba2+(o) blocked K(+)-induced dilatations of pressurized coronary and cerebral arteries (IC50, 3-8 microM). 4. Elevated [K+]o-induced vasodilatation was not prevented by blockers of other types of K(+) channels (1 mM 4-aminopyridine, 1 mM TEA+, and 10 mu M glibenclamide), and blockers of Na(+)-K(+)-ATPase. Elevated [K+]o-induced vasodilatation was unaffected by removal of the endothelium. 5. These findings suggest that K+(o) dilates small rat coronary and cerebral arteries through activation of inward rectifier K(+) channels. Furthermore, these results support the hypothesis that inward rectifier K(+) channels may be involved in metabolic regulation of coronary and cerebral blood flow in response to changes in [K+]o.
摘要
- 内向整流钾离子通道参与小冠状动脉和脑动脉(直径100 - 200微米)对细胞外高钾([K+]o升高)舒张反应的假说得到验证。分别使用视频成像系统和传统微电极测量大鼠加压动脉的直径和膜电位。2. [K+]o从6 mM升高至16 mM,导致加压(60 mmHg)动脉的膜电位超极化12 - 14 mV。细胞外钡离子(Ba2+(o))在能阻断从这些动脉分离的平滑肌细胞内向整流钾离子电流的浓度(半数抑制浓度,IC(50),6 microM)时,可阻断钾离子诱导的膜电位超极化。3. [K+]o从6 mM升高至16 mM,导致加压冠状动脉和脑动脉持续舒张,冠状动脉和脑动脉直径分别从125微米增加至192微米和从110微米增加至180微米。Ba2+(o)可阻断钾离子诱导的加压冠状动脉和脑动脉舒张(IC50,3 - 8 microM)。4. 其他类型钾离子通道阻滞剂(1 mM 4 - 氨基吡啶、1 mM四乙铵离子和10 microM格列本脲)以及钠钾ATP酶阻滞剂不能阻止[K+]o升高诱导的血管舒张。去除内皮对[K+]o升高诱导的血管舒张无影响。5. 这些发现表明,细胞外钾离子通过激活内向整流钾离子通道使大鼠小冠状动脉和脑动脉舒张。此外,这些结果支持内向整流钾离子通道可能参与冠状动脉和脑血流对[K+]o变化的代谢调节这一假说。
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