எங்கள் குழு ஒவ்வொரு ஆண்டும் அமெரிக்கா, ஐரோப்பா மற்றும் ஆசியா முழுவதும் 1000 அறிவியல் சங்கங்களின் ஆதரவுடன் 3000+ உலகளாவிய மாநாட்டுத் தொடர் நிகழ்வுகளை ஏற்பாடு செய்து 700+ திறந்த அணுகல் இதழ்களை வெளியிடுகிறது, இதில் 50000 க்கும் மேற்பட்ட தலைசிறந்த ஆளுமைகள், புகழ்பெற்ற விஞ்ஞானிகள் ஆசிரியர் குழு உறுப்பினர்களாக உள்ளனர்.
அதிக வாசகர்கள் மற்றும் மேற்கோள்களைப் பெறும் திறந்த அணுகல் இதழ்கள்
700 இதழ்கள் மற்றும் 15,000,000 வாசகர்கள் ஒவ்வொரு பத்திரிகையும் 25,000+ வாசகர்களைப் பெறுகிறது
Kazumasa Naruhashi*, Akiko Kamino, Ena Ochi, Erina Kusabiraki, Megumi Ueda, Yuusuke Sugihara, Tetsuro Urushidani, Hirokazu Nakanishi and Nobuhito Shibata
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.