乙酰胆碱介导的大鼠小肠系膜动脉超极化并不涉及由克罗卡林开启的钾离子通道的证据。
Evidence that acetylcholine-mediated hyperpolarization of the rat small mesenteric artery does not involve the K+ channel opened by cromakalim.
作者信息
McPherson G A, Angus J A
机构信息
Baker Medical Research Institute, Prahran, Victoria, Australia.
出版信息
Br J Pharmacol. 1991 May;103(1):1184-90. doi: 10.1111/j.1476-5381.1991.tb12321.x.
Abstract
- Acetylcholine causes a concentration-dependent hyperpolarization of the rat small mesenteric artery (diameter at 100 mmHg, 200-400 microns). In the absence of tone the average potential change was from approximately -60 to -75 mV. In the presence of tone induced by endothelin-1 (20 nM), acetylcholine caused vasorelaxation in association with a marked hyperpolarization; from approximately -32 to -71 mV. 2. A number of compounds known to antagonize the actions of cromakalim were tested for their ability to block responses to acetylcholine. Glibenclamide (0.1-3 microM), phentolamine (10-100 microM) and alinidine (1-30 microM) caused a concentration-dependent depolarization of the rat small mesenteric artery which was not dependent on an intact endothelium. Glibenclamide was approximately 10 times more potent than either phentolamine or alinidine, a similar ratio to their potency as antagonists of cromakalim. 3. In the presence of concentrations of the cromakalim antagonists which functionally inhibited responses to cromakalim, only phentolamine and alinidine had a significant effect on the hyperpolarization and functional responses to acetylcholine. Glibenclamide was without effect at the concentrations used. 4. Experiments on pig coronary artery, where acetylcholine causes vasoconstrictor responses, showed that phentolamine and alinidine have some anti-muscarinic activity which could account for their ability to affect vasorelaxant/hyperpolarization responses to acetylcholine in the rat small mesenteric artery. 5. The results suggest that the acetylcholine-mediated hyperpolarization observed in the rat small mesenteric artery does not involve K+ channels opened by cromakalim. This finding differs from other studies performed on the rabbit middle cerebral artery which show hyperpolarizing responses to acetycholine to be glibenclamide-sensitive. It is likely therefore that the hyperpolarization response observed to acetylcholine can be initiated through a number of mechanisms, only one of which utilizes K+ channels opened by cromakalim.
摘要
- 乙酰胆碱可引起大鼠小肠系膜动脉(在100 mmHg时直径为200 - 400微米)出现浓度依赖性超极化。在无张力状态下,平均电位变化约为 -60至 -75 mV。在内皮素 -1(20 nM)诱导产生张力的情况下,乙酰胆碱引起血管舒张并伴有明显的超极化;从约 -32 mV至 -71 mV。2. 测试了多种已知可拮抗克罗卡林作用的化合物阻断对乙酰胆碱反应的能力。格列本脲(0.1 - 3 microM)、酚妥拉明(10 - 100 microM)和阿利尼定(1 - 30 microM)可引起大鼠小肠系膜动脉浓度依赖性去极化,且不依赖于完整的内皮。格列本脲的效力比酚妥拉明或阿利尼定约强10倍,这与其作为克罗卡林拮抗剂的效力比例相似。3. 在存在能功能性抑制对克罗卡林反应的克罗卡林拮抗剂浓度时,只有酚妥拉明和阿利尼定对乙酰胆碱引起的超极化和功能反应有显著影响。所用浓度的格列本脲无作用。4. 在猪冠状动脉上进行的实验中,乙酰胆碱引起血管收缩反应,结果表明酚妥拉明和阿利尼定具有一定的抗毒蕈碱活性,这可以解释它们影响大鼠小肠系膜动脉对乙酰胆碱的血管舒张/超极化反应的能力。5. 结果表明,在大鼠小肠系膜动脉中观察到的乙酰胆碱介导的超极化不涉及由克罗卡林开启的钾通道。这一发现与在兔大脑中动脉上进行的其他研究不同,那些研究表明对乙酰胆碱的超极化反应对格列本脲敏感。因此,很可能观察到的对乙酰胆碱的超极化反应可通过多种机制引发,其中只有一种机制利用由克罗卡林开启的钾通道。
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