EC:3.6.3.44 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.44 (P-glycoprotein)
13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanisms of intestinal permeation of several beta-lactam antibiotics and anionic compounds were studied in vitro using excised rat intestinal segments. Permeation of cefazolin through jejunum, ileum and colon was highly secretory-oriented; serosal-to-mucosal permeation rates were two- to three-fold greater than mucosal-to-serosal permeation rates. Serosal-to-mucosal permeation decreased in the absence of D-glucose, and mucosal-to-serosal permeation increased, indicating that the preferential secretory transport of cefazolin is energy dependent. Ampicillin permeation across rat jejunum also favored secretion, whereas the permeation of cefaclor and cephradine favored absorption. Because cefazolin is anionic, several structurally unrelated anionic compounds were also tested. Of these only phenol red exhibited preferential serosal-to-mucosal permeation. The intestinal permeation of phenol red was concentration dependent and glucose dependent. Verapamil and a monoclonal antibody to P-glycoprotein only modestly and inconsistently affected the permeation of cefazolin, ampicillin and phenol red. Probenecid and guanidine were much more effective inhibitors of cefazolin and phenol red secretion. Mutual interactions between cefazolin and phenol red were also observed. These results show that the rat intestine has the capability for net secretory transport of some hydrophilic, anionic compounds. Transport of these compounds has some of the characteristics of organic anion and organic cation transport systems.
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PMID:The secretory intestinal transport of some beta-lactam antibiotics and anionic compounds: a mechanism contributing to poor oral absorption. 876 53

The antimicrobial activity of the phenothiazine derivatives thioridazine and prochlorperazine have been evaluated with 11 Enterococcus faecalis strains and 9 Enterococcus faecium strains, originating from human infections and animal faecal flora. We found that all E. faecalis and E. faecium strains, regardless of their susceptibility to commonly used antibiotics, were inhibited by thioridazine at a concentration of 16-32 microg/ml and by prochlorperazine at a concentration of 32-64 microg/ml. Combinations of the antibiotics vancomycin or ampicillin and thioridazine and prochlorperazine at subinhibitory concentrations, could render vancomycin- or ampicillin-resistant bacteria sensitive to each of the antibiotics. Verapamil and reserpine, inhibitors of P-glycoprotein-mediated multidrug resistance, did not reduce resistance. Our results outline modification of resistance in enterococci induced by phenothiazine derivatives unrelated to P-glycoprotein-mediated multidrug resistance.
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PMID:In vitro activity of phenothiazine derivatives in Enterococcus faecalis and Enterococcus faecium. 1566 93

Active extrusion of drugs from the cell interior by primary and secondary efflux pumps is an essential mechanism underlying the phenomenon of multidrug resistance. The first discovered and best characterized primary efflux pump found in humans is the ABC transporter P-glycoprotein (PGP), which shows very broad substrate specificity. Many of these molecules are lipophilic, and binding most likely takes place within the membrane. PGP could either translocate them from the inner to the outer leaflet (flippase) or extrude them from the membrane into the extracellular environment (hydrophobic vacuum cleaner). Recognition and binding of such a diverse set of substrates must be associated with a preferred membrane location, determined by molecular properties and lipid interactions. Therefore, a systematic study of the interaction among seven PGP substrates (phenazine, doxorubicin, cephalexin, ampicillin, chloramphenicol, penicillin G, and quercetin) and two modulators (quinidine and nicardipine) and 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) model membranes is reported here. The location profile of these molecules across the membrane was determined by (1)H NOESY MAS NMR based on (1)H-(1)H cross-peaks between their aromatic fingerprint region and lipid resonances. Although structurally rather diverse, all tested substances are found to have their highest concentration between the phosphate of the lipid headgroup and the upper segments of the lipid hydrocarbon chains. Our findings are consistent with PGP substrate and modulator binding from the membrane interface region.
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PMID:Localization of multidrug transporter substrates within model membranes. 1668 93

The pharmaceutical excipient, polyethylene glycol 400 (PEG 400), unexpectedly alters the bioavailability of the BCS class III drug ranitidine in a sex-dependent manner. As ranitidine is a substrate for the efflux transporter P-glycoprotein (P-gp), we hypothesized that the sex-related influence could be due to interactions between PEG 400 and P-gp. In this study, we tested this hypothesis by: i) measuring the influence of PEG 400 on the oral bioavailability of another P-gp substrate (ampicillin) and of a non-P-gp substrate (metformin); and ii) measuring the effect of PEG 400 on drug bioavailability in the presence of a P-gp inhibitor (cyclosporine A) in male and female rats. We found that PEG 400 significantly increased (p<0.05) the bioavailability of ampicillin (the P-gp substrate) in male rats, but not in female ones. In contrast, PEG 400 had no influence on the bioavailability of the non-P-gp substrate, metformin in male or female rats. Inhibition of P-gp by oral pre-treatment with cyclosporine A increased the bioavailability of the P-gp substrates (ampicillin and ranitidine) in males and females (p<0.05), and to a greater extent in males, but had no influence on the bioavailability of metformin in either male or female rats. These results prove the hypothesis that the sex-specific effect of PEG 400 on the bioavailability of certain drugs is due to the interaction of PEG 400 with the efflux transporter P-gp.
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PMID:Excipient-mediated alteration in drug bioavailability in the rat depends on the sex of the animal. 2870 12

Transporters P-glycoprotein (P-gp) and breast cancer resistance protein (BCRP) are known to influence the pharmacokinetics and toxicity of substrate drugs. However, no detailed information is as yet available about functional activity and substrate spectra of chicken P-gp and BCRP. In this study, BCRP single and BCRP/P-gp double-transfected MDCK cell lines (named MDCK-chAbcg2 and MDCK-chAbcg2/Abcb1, respectively) were generated using lentiviral vector system to develop reliable systems for screening the substrates for these two transporters and study the interplay between them. The constructed cell lines significantly expressed functional exogenous proteins and expression persisted for at least 50 generations with no decrease. Enrofloxacin, ciprofloxacin, tilmicosin, sulfadiazine, ampicillin and clindamycin were classified as the substrates of chicken P-gp according to the rules suggested by FDA, as their net efflux ratios were greater than two. Similarly, enrofloxacin, ciprofloxacin, tilmicosin, florfenicol, ampicillin and clindamycin were classified as the substrates of BCRP. Among these drugs, enrofloxacin, ciprofloxacin, tilmicosin, ampicillin, and clindamycin were the cosubstrates of P-gp and BCRP, however, chicken BCRP and P-gp exhibit different affinities to the shared substrates at different concentrations by blocking either one or both transport with specific inhibitors in the coexpression system. It was also found that ceftiofur, amoxicillin and doxycycline were not substrates of either chicken BCRP or the substrates of chicken P-gp. These constructed cell models provide useful systems for high-throughput screening of the potential substrates of chicken BCRP and P-gp as well as the drug-drug interaction mediated via chicken BCRP and P-gp.
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PMID:Using the lentiviral vector system to stably express chicken P-gp and BCRP in MDCK cells for screening the substrates and studying the interplay of both transporters. 2972 9

Overcoming P-glycoprotein (P-gp) efflux is a strategy to improve the absorption and pharmacokinetics of its substrate drugs. Berberine inhibits P-gp and thereby increases the bioavailability of the P-gp substrate digoxin in rodents. However, the effects of berberine on P-gp in chickens are still unclear. Here, we studied the role of berberine in modulating broilers P-gp expression and function through both in situ and in vitro models. In addition, molecular docking was applied to analyze the interactions of berberine with P-gp as well as with chicken xenobiotic receptor (CXR). The results showed that the mRNA expression levels of chicken P-gp and CXR decreased in the ileum following exposure to berberine. The absorption rate constant of rhodamine 123 increased after berberine treatment, as detected using an in situ single-pass intestinal perfusion model. Efflux ratios of P-gp substrates (tilmicosin, ciprofloxacin, clindamycin, ampicillin, and enrofloxacin) decreased and the apparent permeability coefficients increased after co-incubation with berberine in MDCK-chAbcb1 cell models. Bidirectional assay results showed that berberine could be transported by chicken P-gp with a transport ratio of 4.20, and this was attenuated by verapamil (an inhibitor of P-gp), which resulted in a ratio of 1.13. Molecular docking revealed that berberine could form favorable interactions with the binding pockets of both CXR and P-gp, with docking scores of -7.8 and -9.5 kcal/mol, respectively. These results indicate that berberine is a substrate of chicken P-gp and down-regulates P-gp expression in chicken tissues, thereby increasing the absorption of P-gp substrates. Our findings suggest that berberine increases the bioavailability of other drugs and that drug-drug interactions should be considered when it is co-administered with other P-gp substrates with narrow therapeutic windows.
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PMID:Inhibitory Effect of Berberine on Broiler P-glycoprotein Expression and Function: In Situ and In Vitro Studies. 3101 27