神经肽和辣椒素对犬类气管血管系统的体内效应。
Effects of neuropeptides and capsaicin on the canine tracheal vasculature in vivo.
作者信息
Salonen R O, Webber S E, 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 Dec;95(4):1262-70. doi: 10.1111/j.1476-5381.1988.tb11763.x.
Abstract
- The nonadrenergic, noncholinergic nervous system may control the airway vasculature via various neuropeptides. We have perfused the cranial tracheal arteries of the anaesthetized dog and investigated the effects of neuropeptides and capsaicin (which is supposed to release neuropeptides from sensory nerve endings) on the tracheal vasculature by injecting them locally into the perfusion system. 2. Neurokinin A (NKA, 0.02-20 pmol), calcitonin gene-related peptide (CGRP, 2-200 pmol) and peptide histidine isoleucine (PHI, 0.02-2 nmol) dose-dependently decreased tracheal vascular resistance (Rtv). NKA was 10 and 100 times more potent than CGRP and PHI, respectively. The duration of the response to CGRP was greatly prolonged with larger doses. Galanin (0.2-2 nmol) had no appreciable effect on Rtv. 3. Neuropeptide Y (NPY 0.02-2 nmol) and bombesin (0.02-10 nmol) dose-dependently increased Rtv. However, the dose-response curve for bombesin was bell-shaped suggesting the development of tachyphylaxis with larger doses. In smaller doses, bombesin was twice as potent as NPY. The duration of the response to NPY was prolonged with larger doses. 4. With the exception of PHI no neuropeptide altered tracheal smooth muscle tone; PHI (1 and 2 nmol) caused small dilatations of the trachea. 5. The effects of capsaicin (2-100 nmol) were complex. Usually, the vascular response had two dose-dependent phases: a rapid vasoconstriction followed by a small, longer-lasting vasodilatation. The tracheal smooth muscle response was usually biphasic, a contraction followed by a relaxation. 6. According to previous and present data, the order of potency of the neuropeptides on the canine tracheal vasculature is for the vasodilators : NKA > vasoactive intestinal peptide (VIP) > CGRP > substance P > PHI, and for the vasoconstrictors: bombesin > NPY. The longer-acting neuropeptides (VIP, CGRP and NPY) may be more important than the shorter-acting neuropeptides (substance P, NKA, PHI and bombesin) as regulators of the airway wall blood flow.
摘要
- 非肾上腺素能、非胆碱能神经系统可能通过多种神经肽控制气道血管系统。我们对麻醉犬的颅段气管动脉进行灌注,并通过将神经肽和辣椒素(据推测可从感觉神经末梢释放神经肽)局部注入灌注系统,研究它们对气管血管系统的影响。2. 神经激肽A(NKA,0.02 - 20皮摩尔)、降钙素基因相关肽(CGRP,2 - 200皮摩尔)和肽组氨酸异亮氨酸(PHI,0.02 - 2纳摩尔)呈剂量依赖性降低气管血管阻力(Rtv)。NKA的效力分别比CGRP和PHI强10倍和100倍。随着剂量增大,对CGRP反应的持续时间显著延长。甘丙肽(0.2 - 2纳摩尔)对Rtv无明显影响。3. 神经肽Y(NPY,0.02 - 2纳摩尔)和蛙皮素(0.02 - 10纳摩尔)呈剂量依赖性增加Rtv。然而,蛙皮素的剂量 - 反应曲线呈钟形,表明大剂量时出现快速耐受。小剂量时,蛙皮素的效力是NPY的两倍。随着剂量增大,对NPY反应的持续时间延长。4. 除PHI外,没有神经肽改变气管平滑肌张力;PHI(1和2纳摩尔)引起气管轻度扩张。5. 辣椒素(2 - 100纳摩尔)的作用复杂。通常,血管反应有两个剂量依赖性阶段:快速血管收缩,随后是较小且持续时间较长的血管舒张。气管平滑肌反应通常是双相的,先是收缩,随后是舒张。6. 根据既往和当前数据,神经肽对犬气管血管系统的效力顺序为:血管舒张剂:NKA>血管活性肠肽(VIP)>CGRP>P物质>PHI;血管收缩剂:蛙皮素>NPY。作为气道壁血流调节因子,作用时间较长的神经肽(VIP、CGRP和NPY)可能比作用时间较短的神经肽(P物质、NKA、PHI和蛙皮素)更重要。
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