Berschneider H M, Martens H, Powell D W
Department of Medicine, University of North Carolina at Chapel Hill.
Gastroenterology. 1988 Jan;94(1):127-36. doi: 10.1016/0016-5085(88)90620-8.
BW 942C is a novel enkephalinlike pentapeptide that has been shown to have antidiarrheal action in model systems. The effect of BW 942C on rabbit ileal electrolyte transport was studied to gain insight into the mechanism of the antidiarrheal action of opiate-like compounds. Multiple effects were observed, differing with the basal state of the tissue. BW 942C increased Na absorption in tissues that were not absorbing in the basal state, whereas it had little effect on Na absorption in tissues that were previously absorbing at moderate to high rates (greater than 1 microEq/h.cm2. It increased Cl absorption and caused a dose-related decrease in short-circuit current in all tissues. This effect was reversed or inhibited by naloxone (10(-5) M), suggesting that it is mediated by opiate receptors. No significant change in residual flux was noted. BW 942C was effective from both the serosal and mucosal side; however, it required a 2-log higher dose on the mucosal side (10(-4) M, maximal) to achieve a response similar to that observed with serosal application (10(-6) M, maximal). The ability of BW 942C to alter stimulated secretion was studied using theophylline, prostaglandin E2, vasoactive intestinal peptide, and bethanechol. There was significantly less Cl secretion in BW 942C-treated tissues than in control tissues after stimulation with prostaglandin E2 (10(-7) M). However, this effect was not apparent at higher doses of prostaglandin E2 and there was no inhibition of the short-circuit current response to any of the secretory stimuli by BW 942C. Loperamide was also found to be unable to inhibit the Cl secretion or change in short-circuit current stimulated by theophylline. Although opiates have been shown to be moderately effective antidiarrheal agents, their ability to influence mucosal electrolyte transport is weak and may only account for part of their antidiarrheal action.
BW 942C是一种新型的脑啡肽样五肽,已证实在模型系统中具有止泻作用。研究了BW 942C对兔回肠电解质转运的影响,以深入了解阿片样化合物的止泻作用机制。观察到多种效应,这些效应因组织的基础状态而异。BW 942C增加了基础状态下不吸收钠的组织中的钠吸收,而对先前以中高速率(大于1微当量/小时·平方厘米)吸收钠的组织中的钠吸收几乎没有影响。它增加了氯的吸收,并导致所有组织中的短路电流呈剂量相关下降。这种效应被纳洛酮(10^(-5) M)逆转或抑制,表明它是由阿片受体介导的。未观察到残余通量有显著变化。BW 942C从浆膜侧和粘膜侧给药均有效;然而,它在粘膜侧需要高2个对数级的剂量(10^(-4) M,最大)才能达到与浆膜给药(10^(-6) M,最大)相似的反应。使用茶碱、前列腺素E2、血管活性肠肽和氨甲酰甲胆碱研究了BW 942C改变刺激分泌的能力。在用前列腺素E2(10^(-7) M)刺激后,BW 942C处理的组织中的氯分泌明显少于对照组织。然而,在较高剂量的前列腺素E2时这种效应不明显,并且BW 942C对任何分泌刺激引起的短路电流反应均无抑制作用。还发现洛哌丁胺不能抑制茶碱刺激的氯分泌或短路电流变化。尽管阿片类药物已被证明是中度有效的止泻剂,但其影响粘膜电解质转运的能力较弱,可能仅占其止泻作用的一部分。
