Altura B M, Turlapaty P D
Br J Pharmacol. 1982 Dec;77(4):649-59. doi: 10.1111/j.1476-5381.1982.tb09343.x.
1 The influence of external magnesium ions ([Mg2+]o) on the sensitivity (i.e. EC50) and contractility (maximum response) of isolated large and small coronary arteries of the dog, obtained from different regions of the myocardium, to vasoactive agents was studied. 2 Removal of [Mg2+]o from the physiological salt solution enhanced, while elevation in [Mg2+]o to 4.8 mM, lowered the contractile sensitivity to three different agents, 5-hydroxytryptamine (5-HT), angiotensin II and KCl. 3 Contractility, of both large and small coronary arteries, to 5-HT and angiotensin II was potentiated and depressed, respectively, by withdrawal and elevation of [Mg2+]o; maximum responses to KCl were not altered by 0 or 4.8 mM [Mg2+]o. 4 Cumulative concentration-contractile effect curves to CaCl2 were shifted leftward on removal of [Mg2+]o; elevation of [Mg2+]o to 4.8 mM shifted the CaCl2 concentration-effect curves to the right. Maximal contractile responses to CaCl2 were enhanced by removal of, and reduced by elevation of, [Mg2+]o. 5 The calcium channel blocking agent, verapamil (10(-6)M), inhibited completely contractile responses to KCl; contractile responses elicited by angiotensin II and 5-HT were attenuated by verapamil. 6 A variety of pharmacological antagonists (phentolamine, propranolol, methysergide, atropine, diphenhydramine), as well as use of a prostaglandin cyclo-oxygenase inhibitor, did not modify the altered contractile responses evoked by angiotensin II or KCl in different concentrations of Mg2+. 7 These results suggest: (1) [Mg2+]o may exert considerably greater influence on receptor-operated rather than membrane-potential sensitive channels involved in Ca2+ transport in coronary arterial smooth muscle; (2) Mg2+ interferes with the affinity (binding) of certain agonists (5-HT and angiotensin II) for their respective receptors in coronary vascular muscle; and (3) a functional pool of Ca2+ which is resistant to Ca2+-depletion, but accessible to activation by 5-HT and angiotensin II is present in canine coronary arterial smooth muscle.
1 研究了细胞外镁离子([Mg2+]o)对从犬心肌不同区域分离得到的大、小冠状动脉对血管活性药物的敏感性(即半数有效浓度[EC50])和收缩性(最大反应)的影响。2 从生理盐溶液中去除[Mg2+]o可增强敏感性,而将[Mg2+]o升高至4.8 mM则会降低对三种不同药物5-羟色胺(5-HT)、血管紧张素II和氯化钾的收缩敏感性。3 去除和升高[Mg2+]o分别增强和降低了大、小冠状动脉对5-HT和血管紧张素II的收缩性;0或4.8 mM的[Mg2+]o对氯化钾的最大反应没有改变。4 去除[Mg2+]o时,氯化钙的累积浓度-收缩效应曲线向左移动;将[Mg2+]o升高至4.8 mM时,氯化钙浓度-效应曲线向右移动。去除[Mg2+]o可增强对氯化钙的最大收缩反应,而升高[Mg2+]o则会降低该反应。5 钙通道阻滞剂维拉帕米(10(-6)M)完全抑制了对氯化钾的收缩反应;维拉帕米减弱了血管紧张素II和5-HT引起的收缩反应。6 多种药理拮抗剂(酚妥拉明、普萘洛尔、麦角新碱、阿托品、苯海拉明)以及使用前列腺素环氧化酶抑制剂,均未改变在不同镁离子浓度下血管紧张素II或氯化钾引起的收缩反应变化。7 这些结果表明:(1)[Mg2+]o对冠状动脉平滑肌中参与钙转运的受体操纵通道而非膜电位敏感通道可能具有更大的影响;(2)镁离子干扰了某些激动剂(5-HT和血管紧张素II)与冠状动脉血管平滑肌中各自受体的亲和力(结合);(3)犬冠状动脉平滑肌中存在一个对钙耗竭有抗性但可被5-HT和血管紧张素II激活的功能性钙池。