绵羊气管循环中H1和H2受体的特性

H1- and H2-receptor characterization in the tracheal circulation of sheep.

作者信息

Webber S E, Salonen R O, Widdicombe J G

机构信息

Department of Physiology, St George's Hospital Medical School, London.

出版信息

Br J Pharmacol. 1988 Oct;95(2):551-61. doi: 10.1111/j.1476-5381.1988.tb11676.x.

DOI:10.1111/j.1476-5381.1988.tb11676.x

PMID:2906559

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1854193/

Abstract

The effects of histamine, the specific H1-agonist SKF 71481-A2 and the H2-agonist dimaprit were examined on tracheal vascular resistance in sheep anaesthetized with pentobarbitone. Tracheal vascular resistance was determined by perfusing the cranial tracheal arteries at constant flows and measuring inflow pressures. Changes in tracheal smooth muscle tone were also measured. 2. Histamine and SKF 71481-A2 contracted the tracheal smooth muscle and this effect was blocked by the H1-antagonist mepyramine. Stimulation of H2-receptors with dimaprit had no effect on tracheal smooth muscle tone. 3. Histamine had a complex action on the tracheal vasculature producing either a triphasic change (early dilatation then constriction followed by late dilatation) or just a constriction. SKF 71481-A2 always produced a biphasic change in vascular resistance (dilatation followed by constriction). Dimaprit dilated the tracheal vasculature. 4. The late dilatation produced by histamine in some sheep was blocked by bilateral cervical vagotomy but the mechanism for this effect is not known. No other responses to histamine, SKF 71481-A2 or dimaprit were affected by vagotomy. 5. The vasoconstriction produced by histamine and SKF 71481-A2 was antagonized by mepyramine indicating a H1-receptor-mediated effect. Cimetidine had no effect on the vasoconstriction to histamine suggesting a lack of involvement of H2-receptors. 6. The vasodilatation produced by histamine and SKF 71481-A2 was also antagonized by mepyramine, again suggesting a H1-receptor-mediated action. Cimetidine had no effect on the vasodilator response to histamine indicating no involvement of H2-receptors in this response. 7. The dilator effect of dimaprit was antagonized by cimetidine suggesting this effect was mediated by H2-receptors. 8. We conclude that H1-receptors in the various parts of the sheep tracheal vasculature can cause increases and decreases in total tracheal vascular resistance; that H2-receptors decrease resistance; and that the tracheal smooth muscle contracts on activation of H1-receptors but has no response to H2-agonists.

摘要

研究了组胺、特异性H1激动剂SKF 71481 - A2和H2激动剂二甲双胍对戊巴比妥麻醉绵羊气管血管阻力的影响。通过以恒定流量灌注气管头端动脉并测量流入压力来测定气管血管阻力。还测量了气管平滑肌张力的变化。2. 组胺和SKF 71481 - A2使气管平滑肌收缩，这种作用被H1拮抗剂美吡拉敏阻断。用二甲双胍刺激H2受体对气管平滑肌张力无影响。3. 组胺对气管血管系统有复杂作用，可产生三相变化（早期扩张然后收缩，随后晚期扩张）或仅产生收缩。SKF 71481 - A2总是使血管阻力产生双相变化（扩张随后收缩）。二甲双胍使气管血管扩张。4. 组胺在一些绵羊中产生的晚期扩张被双侧颈迷走神经切断术阻断，但这种作用的机制尚不清楚。迷走神经切断术对组胺、SKF 71481 - A2或二甲双胍的其他反应无影响。5. 组胺和SKF 71481 - A2产生的血管收缩被美吡拉敏拮抗，表明是H1受体介导的作用。西咪替丁对组胺引起的血管收缩无影响，提示H2受体未参与其中。6. 组胺和SKF 71481 - A2产生的血管扩张也被美吡拉敏拮抗，再次提示是H1受体介导的作用。西咪替丁对组胺的血管扩张反应无影响，表明H2受体未参与此反应。7. 二甲双胍的扩张作用被西咪替丁拮抗，提示这种作用是由H2受体介导的。8. 我们得出结论，绵羊气管血管系统各部位的H1受体可导致气管总血管阻力增加和降低；H2受体降低阻力；气管平滑肌在H1受体激活时收缩，但对H2激动剂无反应。