速激肽参与雪貂副交感神经诱发的唾液分泌。
Tachykinin involvement in parasympathetic nerve-evoked salivation of the ferret.
作者信息
Ekström J, Håkanson R, Månsson B, Tobin G
机构信息
Department of Physiology, Faculty of Medicine, Lund University, Sweden.
出版信息
Br J Pharmacol. 1988 Jul;94(3):707-12. doi: 10.1111/j.1476-5381.1988.tb11579.x.
Abstract
- The tachykinin antagonist (D-Arg1, D-Cl2Phe5, Asn6, D-Trp7.9, Nle11)-substance P, injected intravenously, blocked salivary secretion from the ferret parotid and submandibular glands in response to subsequent i.v. injections of the tachykinins, substance P and neurokinin A. 2. The tachykinin antagonist reduced the parasympathetic nerve-evoked secretion of parotid and submandibular saliva by 15-20% and 35-40%, respectively. Atropine abolished the remaining secretory response. 3. The 'atropine-resistant' parasympathetic nerve-evoked secretion of saliva from the parotid and submandibular glands (about 5 and 30%, respectively, of that before administration of atropine) was abolished by the tachykinin antagonist. 4. The tachykinin antagonist was without effect on the protein concentration of parotid and submandibular saliva secreted in response to parasympathetic nerve stimulation. Parotid and submandibular saliva lacked amylase. 5. Atropine reduced the protein concentration of the submandibular saliva secreted in response to parasympathetic nerve stimulation by 50%; this was the protein concentration of substance P-evoked saliva. 6. The secretory response to methacholine and to stimulation of preganglionic sympathetic nerve fibres, tested in rats, was unaffected by the tachykinin antagonist, contra-indicating an unspecific action of the antagonist. 7. The results suggest that the neuronal release of tachykinins is probably important in the nerve-evoked secretory response of the parotid and submandibular glands.
摘要
- 静脉注射速激肽拮抗剂(D-精氨酸1、D-氯苯丙氨酸5、天冬酰胺6、D-色氨酸7,9、亮氨酸11)-P物质,可阻断雪貂腮腺和下颌下腺对随后静脉注射速激肽、P物质和神经激肽A的唾液分泌反应。2. 速激肽拮抗剂使腮腺和下颌下腺副交感神经诱发的唾液分泌分别减少15%-20%和35%-40%。阿托品消除了剩余的分泌反应。3. 速激肽拮抗剂消除了腮腺和下颌下腺“抗阿托品”的副交感神经诱发的唾液分泌(分别约为阿托品给药前分泌量的5%和30%)。4. 速激肽拮抗剂对副交感神经刺激分泌的腮腺和下颌下腺唾液的蛋白质浓度没有影响。腮腺和下颌下腺唾液缺乏淀粉酶。5. 阿托品使副交感神经刺激分泌的下颌下腺唾液的蛋白质浓度降低50%;这是P物质诱发唾液的蛋白质浓度。6. 在大鼠中测试的对乙酰甲胆碱和节前交感神经纤维刺激的分泌反应不受速激肽拮抗剂的影响,这排除了拮抗剂的非特异性作用。7. 结果表明,速激肽的神经元释放可能在腮腺和下颌下腺神经诱发的分泌反应中起重要作用。
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