豚鼠肠系膜静脉神经肌肉传递的电生理学
Electrophysiology of neuromuscular transmission in guinea-pig mesenteric veins.
作者信息
Van Helden D F
机构信息
Department of Pharmacology, John Curtin School of Medical Research, Australian National University, Canberra, A.C.T.
出版信息
J Physiol. 1988 Jul;401:469-88. doi: 10.1113/jphysiol.1988.sp017173.
Abstract
- Neuromuscular transmission in the smooth muscle of mesenteric veins has been investigated by recording intracellular potential changes resulting from stimulation of the sympathetic nerves and comparing these potential changes with responses obtained by ionophoresis of noradrenaline. 2. Neural stimulation or exogenous noradrenaline acted similarly to cause two excitatory depolarizations, a slow response reported previously (Suzuki, 1981) and a separate fast depolarization. 3. The fast depolarization was distinct from the slow depolarizing response in that it had a different dependence on the level of stimulation, was readily desensitized and was more suppressed in low-chloride solution. 4. The fast but not the slow depolarization shared certain characteristics with constriction. The fast depolarization and constriction both increased with the intensity of stimulation; inactivation in both was dependent on the recovery interval between trains of stimuli and both were suppressed to a similar degree by antagonists to alpha-adrenoceptors. The fast depolarization was, however, not a prerequisite for constriction to occur. 5. The fast and slow depolarizations were activated after a long latency which had a high temperature coefficient consistent with the postulate that these responses are rate limited by intracellular biochemical reactions. 6. The fast depolarization was preferentially suppressed by prazosin, an antagonist to the alpha 1-adrenoceptor subtype. Suppression of the slow depolarization required relatively higher concentrations of antagonist, indicating that these responses were mediated by receptor interactions involving a different alpha-adrenoceptor subtype. 7. It is concluded that neuromuscular transmission in mesenteric veins occurs through activation of alpha-adrenoceptors. A number of responses result, including voltage-independent constriction and two distinct excitatory depolarizations which can lead to voltage-dependent constriction.
摘要
- 通过记录交感神经刺激引起的细胞内电位变化,并将这些电位变化与去甲肾上腺素离子导入所获得的反应进行比较,对肠系膜静脉平滑肌中的神经肌肉传递进行了研究。2. 神经刺激或外源性去甲肾上腺素的作用相似,可引起两种兴奋性去极化,一种是先前报道的慢反应(铃木,1981年),另一种是单独的快去极化。3. 快去极化与慢去极化反应不同,因为它对刺激水平的依赖性不同,容易脱敏,并且在低氯溶液中更受抑制。4. 快去极化而非慢去极化与收缩具有某些共同特征。快去极化和收缩均随刺激强度增加;两者的失活均取决于刺激序列之间的恢复间隔,并且两者均被α-肾上腺素能受体拮抗剂抑制到相似程度。然而,快去极化并非收缩发生的先决条件。5. 快去极化和慢去极化在较长潜伏期后被激活,该潜伏期具有较高的温度系数,这与这些反应受细胞内生化反应速率限制的假设一致。6. 快去极化优先被α1-肾上腺素能受体亚型拮抗剂哌唑嗪抑制。抑制慢去极化需要相对较高浓度的拮抗剂,这表明这些反应是由涉及不同α-肾上腺素能受体亚型的受体相互作用介导的。7. 得出的结论是,肠系膜静脉中的神经肌肉传递通过α-肾上腺素能受体的激活而发生。产生了许多反应,包括电压依赖性收缩和两种不同的兴奋性去极化,后者可导致电压依赖性收缩。
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