ü阿片受体或激动剂在大鼠和人肠上皮Caco-2肠道吸收的转运机制及p -糖蛋白的贡献

K. Naruhashi, Akiko Kamino, E. Ochi, Erina Kusabiraki, M. Ueda, Yuusuke Sugihara, T. Urushidani, Hirokazu Nakanishi, N. Shibata
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引用次数: 6

摘要

抽象的1.1。μ阿片受体激动剂吗啡和洛哌丁胺被广泛口服,被认为是p -糖蛋白(P-gp)底物。P-gp在人和大鼠的脑、肠和各种组织中均有表达。在肠道中,P-gp限制某些药物(如阿片类药物)的吸收;然而,其潜在机制尚未阐明。本研究的目的是研究吗啡和洛哌丁胺的肠转运特性以及P-gp在其转运过程中的作用。1.2. 方法:采用分离大鼠肠组织置于ussing型腔内进行跨细胞转运研究。用Caco-2细胞系进行了双向通透性和抑制转运研究。采用原位闭环法检测大鼠肠道吸收。1.3. 结果:洛哌丁胺在大鼠肠组织和Caco-2细胞间具有分泌性转运,P-gp底物环孢素A和罗丹明123抑制了这种转运。在大鼠肠袢实验中,添加环孢素A和罗丹明123后,洛哌丁胺在肠组织中的蓄积增加。相比之下,吗啡在大鼠肠道组织中没有定向转运和P-gp抑制作用。在Caco-2细胞中,吗啡转运被发现是分泌导向的,这种转运被环孢素A和罗丹明123抑制,但比洛哌丁胺的程度要小得多。添加环孢素A和罗丹明123对吗啡的消失和积累没有影响。1.4. 结论:P-gp对洛哌丁胺在小肠内的分泌转运有显著作用,对吗啡的分泌转运作用可忽略不计。综上所述,吗啡和洛哌丁胺的肠道转运都是由分泌导向的。P-gp在一定程度上促进了这种秘书导向的运输。因此,P-gp在洛哌丁胺转运中比在吗啡转运中更重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transport Mechanism of Intestinal Absorption of ü Opioid Recept or Agonists and Contribution of P-Glycoprotein in Rats and Human Intestinal Epithelial Caco-2
Abstract 1.1. Introduction: The μ opioid receptor agonists, morphine and loperamide, are widely used orally and are suggested to be P-glycoprotein (P-gp) substrates. P-gp is expressed in the brain, intestine, and various tissues in human and rats. In the intestine, P-gp limits the absorption of certain drugs such as opioids; however, the underlying mechanism has not been elucidated. The aim of the present study was to examine the intestinal transport characteristics of morphine and loperamide and the role of P-gp in their transport process. 1.2. Method: Transcellular transport studies were conducted using isolated rat intestinal tissue mounted in an Ussing-type chamber. Bidirectional permeability and inhibition transport studies were performed using Caco-2 cell lines. The intestinal absorption was examined by an in situ closed-loop method in rats. 1.3. Results: Loperamide showed secretory transport across rat intestinal tissue and Caco-2 cells, and P-gp substrates cyclosporine A and rhodamine 123 inhibited this transport. In the intestinal loop experiment in rats, the accumulation of loperamide in the intestinal tissue increased upon adding cyclosporine A and rhodamine 123. In contrast, morphine showed no directional transport and P-gp inhibitory effects across rat intestinal tissue. In Caco-2 cells, morphine transport was found to be secretory-directed and this transport was inhibited by cyclosporine A and rhodamine 123, but to a much lesser extent than that of loperamide. Morphine disappearance and accumulation were unaffected upon the addition of cyclosporine A and rhodamine 123. 1.4. Conclusion: These results suggest that P-gp contributes significantly to the secretory transport of loperamide but negligibly to that of morphine in the small intestine. In conclusion, intestinal transport of both morphine and loperamide is found to be secretory-directed. P-gp partially contributes to this secretory-directed transport. Thus, P-gp is prominent in loperamide rather than morphine transport.
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