钙离子通道阻滞剂对离体结肠肌肉和神经活动抑制作用的选择性
Selectivity of Ca2+ channel blockers in inhibiting muscular and nerve activities in isolated colon.
作者信息
Lecchini S, Marcoli M, De Ponti F, Castelletti C A, Frigo G M
机构信息
University of Pavia, 2nd Faculty of Medicine, Department of Internal Medicine, Italy.
出版信息
Br J Pharmacol. 1991 Mar;102(3):735-41. doi: 10.1111/j.1476-5381.1991.tb12242.x.
Abstract
- Potency and efficacy of nifedipine, verapamil and diltiazem and of Bay K 8644 in modifying propulsion and nerve or smooth muscle activities have been compared in the guinea-pig isolated distal colon. Both the neuronal and muscular effects of Ca2+ channel blockers seem to develop at concentrations that are devoid of any significant effect apart from that on Ca2+ channels. 2. Nifedipine, verapamil and diltiazem were all able to impair propulsion, resting and stimulated acetylcholine (ACh) release and smooth muscle contractility in a concentration-dependent way. However, some degree of selectivity for neuronal and muscular effects could be observed. Nifedipine was more than 500 fold more potent than verapamil in relaxing musculature but less than twice as potent in reducing ACh release. On the other hand, verapamil was the most efficacious Ca2+ channel blocker tested in inhibiting ACh release, its effects being inversely correlated to the external Ca2+ concentration, and completely abolished by Bay K 8644. 3. By comparing the potencies exhibited by each drug against peristaltic reflex, smooth muscle contractility and ACh release, verapamil proved to be almost as potent in slowing the peristaltic reflex as in reducing ACh release, while nifedipine was about 100 fold more potent against the peristaltic reflex than against ACh release, but nearly equal against the peristaltic reflex and smooth muscle tone. Therefore, interference with cholinergic neurotransmission is likely to play a major role in the antipropulsive effect of verapamil, while peristaltic reflex impairment by nifedipine is likely to be dependent on inhibition of smooth muscle. 4. A facilitatory effect of Bay K 8644 on both the efficiency of the peristaltic reflex and the nonadrenergic, non-cholinergic (NANC) nerve-mediated relaxation could be observed at concentrations at least 10 fold lower than those required to affect ACh release or smooth muscle. 5. It is concluded that the effects of Ca2+ channel blockers on neurotransmitter release may be relevant to their effects on the gastrointestinal motor function.
摘要
- 在豚鼠离体远端结肠中,比较了硝苯地平、维拉帕米、地尔硫䓬以及 Bay K 8644 在改变推进运动、神经或平滑肌活动方面的效力和效能。钙通道阻滞剂的神经元和肌肉效应似乎在除对钙通道有显著作用外无任何其他显著效应的浓度下产生。2. 硝苯地平、维拉帕米和地尔硫䓬均能以浓度依赖性方式损害推进运动、静息和刺激状态下的乙酰胆碱(ACh)释放以及平滑肌收缩力。然而,可观察到对神经元和肌肉效应有一定程度的选择性。硝苯地平在松弛肌肉组织方面的效力比维拉帕米强 500 多倍,但在减少 ACh 释放方面的效力不到维拉帕米的两倍。另一方面,维拉帕米是所测试的抑制 ACh 释放最有效的钙通道阻滞剂,其效应与细胞外钙浓度呈负相关,并被 Bay K 8644 完全消除。3. 通过比较每种药物对蠕动反射、平滑肌收缩力和 ACh 释放所表现出的效力,维拉帕米在减缓蠕动反射方面的效力几乎与减少 ACh 释放方面的效力相同,而硝苯地平对蠕动反射的效力比对 ACh 释放的效力强约 100 倍,但对蠕动反射和平滑肌张力的效力几乎相等。因此,干扰胆碱能神经传递可能在维拉帕米的抗推进作用中起主要作用,而硝苯地平对蠕动反射的损害可能取决于对平滑肌的抑制。4. 在至少比影响 ACh 释放或平滑肌所需浓度低 10 倍的浓度下,可观察到 Bay K 8644 对蠕动反射效率和非肾上腺素能、非胆碱能(NANC)神经介导的舒张均有促进作用。5. 结论是,钙通道阻滞剂对神经递质释放的影响可能与其对胃肠运动功能的影响有关。
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