关于黑褐扁甲(Nauphoeta cinerea Olivier)唾液分泌神经控制中涉及的受体。
On the receptors involved in the nervous control of salivary secretion by Nauphoeta cinerea Olivier.
作者信息
House C R, Smith R K
出版信息
J Physiol. 1978 Jun;279:457-71. doi: 10.1113/jphysiol.1978.sp012356.
Abstract
- It has been shown that the isolated salivary glands of Nauphoeta cinerea Olivier produce fluid secretion in response to nerve stimulation or bath applications of dopamine, noradrenaline, adrenaline and 5-HT. These catecholamines, of which dopamine is the most potent, evoked maximal responses matching that to nerve stimulation whereas 5-HT was less effective. 2. The receptors combining with 5-HT could be distinguished from those for the catecholamines and the transmitter at this salivary neuroglandular junction. 3. The results of experiments where glands were stimulated by dopamine in the presence of noradrenaline or adrenaline suggested that there are receptors with specific binding sites for dopamine. 4. The effects of several antagonists (Ginsborg, House & Silinsky, 1976) of the hyperpolarizing responses from acinar cells to nerve stimulation and the above agonists have been examined. Phentolamine reversibly suppressed the secretory responses to these stimuli whereas methysergide had no effect and ergometrine elicited fluid secretion in a dose-dependent manner.
摘要
- 已表明,灰色蜚蠊(Nauphoeta cinerea Olivier)的离体唾液腺会因神经刺激或向浴液中加入多巴胺、去甲肾上腺素、肾上腺素和5-羟色胺而产生液体分泌。这些儿茶酚胺中,多巴胺的作用最强,能引发与神经刺激相匹配的最大反应,而5-羟色胺的效果则较差。2. 在这个唾液神经腺连接部位,与5-羟色胺结合的受体可与儿茶酚胺和递质的受体区分开来。3. 在去甲肾上腺素或肾上腺素存在的情况下用多巴胺刺激腺体的实验结果表明,存在具有多巴胺特异性结合位点的受体。4. 研究了几种对腺泡细胞对神经刺激的超极化反应及上述激动剂有拮抗作用的物质(金斯伯格、豪斯和西林斯基,1976年)的作用。酚妥拉明可可逆性抑制对这些刺激的分泌反应,而麦角新碱则无作用,麦角胺能以剂量依赖方式引发液体分泌。
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