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 purpose of the present work was to study the pharmacokinetics of ofloxacin, a poorly metabolised drug, in experimental hepatic fibrosis. The possible roles of small intestinal P-glycoprotein (P-gp) and cytochrome P450 (CYP) in the bioavailability of ofloxacin were also evaluated. Rat hepatic fibrosis model was successfully induced using complex factors including carbon tetrachloride, ethanol and high fat. After rats received a single oral or intravenous dose of ofloxacin (40 mg kg(-1)), the plasma concentrations of ofloxacin were monitored at the scheduled time using spectrofluorimetric assay. Plasma concentration-time profiles were comodeled using compartmental method. Meanwhile, microsomal CYP isoenzymatic levels and P-gp expression in small intestines were compared between normal and hepatic fibrosis rats. When ofloxacin was administered intravenously, C(max) and the distribution half-life increased significantly in comparison with normal group, whereas the distribution rate constants, the apparent volume of distribution decreased. Oral ofloxacin bioavailability was significantly altered in hepatic fibrosis rats. AUC and C(max) were reduced, while the absorption half-life, peak time and elimination half-life significantly were prolonged, suggesting that both the extent and the rate of ofloxacin absorption were decreased. Furthermore, the increases in the levels of microsomal ethoxyresorufin O-deethylase and erythromycin N-demethylase were accompanied with up-regulation of mdr 1a mRNA in the small intestines of hepatic fibrosis rats when compared to those of the normal rats. The Results showed that pharmacokinetics of ofloxacin could be altered in hepatic fibrosis. Up-regulated P-gp expression and increased CYP isoenzymatic activities of small intestines in hepatic fibrosis rats may contribute to the decreased bioavailability and increased elimination of ofloxacin after oral administration.
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PMID:Effects of hepatic fibrosis on ofloxacin pharmacokinetics in rats. 1618 55

Relatively few selective substrate and inhibitor probes have been identified for human UDP-glucuronosyltransferases (UGTs). This work investigated the selectivity of trifluoperazine (TFP), as a substrate, and amitriptyline, androsterone, canrenoic acid, hecogenin, phenylbutazone, quinidine, quinine, and sulfinpyrazone, as inhibitors, for human UGTs. Selectivity was assessed using UGTs 1A1, 1A3, 1A4, 1A6, 1A7, 1A8, 1A9, 1A10, 2B7, and 2B15 expressed in HEK293 cells. TFP was confirmed as a highly selective substrate for UGT1A4. However, TFP bound extensively to both HEK293 lysate and human liver microsomes in a concentration-dependent manner (fuinc 0.20-0.59). When corrected for nonspecific binding, Km values for TFP glucuronidation were similar for both UGT1A4 (4.1 microM) and human liver microsomes (6.1+/-1.2 microM) as the enzyme sources. Of the compounds screened as inhibitors, hecogenin, alone, was selective; significant inhibition was observed only for UGT1A4 (IC50 1.5 microM). Using phenylbutazone and quinine as "models," inhibition kinetics were variously described by competitive and noncompetitive mechanisms. Inhibition of UGT2B7 by quinidine was also investigated further, because the effects of this compound on morphine pharmacokinetics (a known UGT2B7 substrate) have been ascribed to inhibition of P-glycoprotein. Quinidine inhibited human liver microsomal and recombinant UGT2B7, with respective Ki values of 335+/-128 microM and 186 microM. In conclusion, TFP and hecogenin represent selective substrate and inhibitor probes for UGT1A4, although the extensive nonselective binding of the former should be taken into account in kinetic studies. Amitriptyline, androsterone, canrenoic acid, hecogenin, phenylbutazone, quinidine, quinine, and sulfinpyrazone are nonselective UGT inhibitors.
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PMID:Selectivity of substrate (trifluoperazine) and inhibitor (amitriptyline, androsterone, canrenoic acid, hecogenin, phenylbutazone, quinidine, quinine, and sulfinpyrazone) "probes" for human udp-glucuronosyltransferases. 1638 68

Clinical findings indicate that co-administration of the isoxazolyl-penicillin flucloxacillin with cyclosporine may reduce the plasma concentrations of cyclosporine. We have explored in the present study if induction of cytochrome P450 3A4 or P-glycoprotein may offer a mechanistic explanation of the observed effects. Flucloxacillin is neither an inhibitor nor a substrate of drug metabolizing cytochrome P450 isoenzymes (CYP3A4, 1A2, 2C9, 2C19 and 2D6) or P-glycoprotein as shown by an in vitro assay for CYP inhibition, a fluorescent indicator assay for P-glycoprotein inhibition and a functional P-glycoprotein ATPase assay. However, incubation of human LS 180 colorectal adenocarcinoma cells with flucloxacillin led to a dose-dependent induction of MDR1 as well as of CYP3A4 mRNA, which was also confirmed in primary human hepatocytes. At high concentrations, flucloxacillin activated the human Pregnane-X-Receptor, PXR, a ligand-dependent transcription factor that is the target of many drugs that induce CYP3A4, with consequences for the metabolism of other drugs. Liver microsomes from control rats or rats, which received for 3 consecutive days 100 mg/kg of oral flucloxacillin, were used to study the metabolism and metabolite pattern of midazolam, a model substrate of CYP 3A4. There was a trend towards a higher intrinsic microsomal clearance of midazolam using microsomes from flucloxacillin treated rats. In addition, there was a significant increase in the formation of the principal midazolam metabolites 1-hydroxy midazolam, 4-hydroxy midazolam and 1,4-dihydroxy midazolam as compared to controls. These findings indicate that flucloxacillin has the potential to induce expression of both CYP3A4 as well as P-glycoprotein, most likely through activation of the nuclear hormone receptor PXR. This would offer an explanation for the observed clinical drug-drug interactions between the antibiotic and cyclosporine.
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PMID:Induction of cytochrome P450 3A4 and P-glycoprotein by the isoxazolyl-penicillin antibiotic flucloxacillin. 1647 2

HM-30181, 4-oxo-4H-chromene-2-carboxylic acid, [2-(2-{4-[2-(6,7-dimethoxy-3,4-dihydro-1H-isoquinolin-2-yl)-ethyl]-phenyl}-2H-tetrazol-5-yl)-4,5-dimethoxyphenyl]amide, is a new P-glycoprotein inhibitor. This study was performed to identify the in vitro and in vivo metabolic pathway of HM-30181 in rats. Rat liver microsomal incubation of HM-30181 in the presence of NADPH resulted in the formation of four metabolites, M1-M4. M1 and M2 were identified as 2-(2-{4-[2-(6,7-dimethoxy-3,4-dihydro-1H-isoquinolin-2-yl)-ethyl]-phenyl}-2H-tetrazol-5-yl)-4,5-dimethoxyaniline and 4- or 5-O-desmethyl-HM-30181, respectively, on the basis of liquid chromatography/tandem mass spectrometry (LC/MS/MS) analysis with the synthesized authentic standards. M3 and M4 were suggested to be 6- or 7-O-desmethyl-HM-30181 and hydroxy-HM-30181, respectively. These in vitro metabolites were also detected in feces and urine samples after an intravenous administration of HM-30181 to male rats. The metabolic routes for HM-30181 were O-demethylation of the methoxy group to M2 and M3, hydrolysis of the amide group to M1, and hydroxylation to M4.
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PMID:Metabolism of a new P-glycoprotein inhibitor HM-30181 in rats using liquid chromatography/electrospray mass spectrometry. 1658 59

It was reported that paclitaxel is an inhibitor of hepatic P-glycoprotein (P-gp) and hepatic microsomal cytochrome P450 (CYP) 3A1/2, and that naringin is an inhibitor of biliary P-gp and CYP3A1/2 in rats. The purpose of this study was to report the effects of oral naringin on the pharmacokinetics of intravenous paclitaxel in rats. Oral naringin (3.3 and 10 mg/kg) was pretreated 30 min before intravenous (3 mg/kg) administration of paclitaxel. After intravenous administration of paclitaxel, the AUC was significantly greater (40.8% and 49.1% for naringin doses of 3.3 and 10 mg/kg, respectively), and Cl was significantly slower (29.0% and 33.0% decrease, respectively) than controls. The significantly greater AUC could be due mainly to an inhibition of metabolism of paclitaxel via CYP3A1/2 by oral naringin. The inhibition of hepatic P-gp by oral naringin could also contribute to the significantly greater AUC of intravenous paclitaxel by oral naringin.
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PMID:Effects of naringin on the pharmacokinetics of intravenous paclitaxel in rats. 1700 38

Pathophysiologic changes in mucosal protein expression inflammatory bowel disease (IBD) may affect drug concentration in mucosal tissue making it highly relevant to drug dose at the site of action and subsequently for success of the therapy. Tissue samples from an experimental colitis rat model were mounted in Ussing chambers and intratissue concentrations of diverse compounds were quantified. Studies with healthy versus colitis tissue samples and respective microsomal fractions made it possible to assess the involvement of P-glycoprotein (P-gp) and cytochrome P450 3A (CYP3A) on tissue penetration behavior. P-gp-related efflux was slightly increased for colitis tissue. Metabolism studies exhibited higher tacrolimus and testosterone mucosal metabolism in inflamed tissue. However, similar metabolic activity was observed for healthy and colitis groups with equivalent CYP3A expression levels in respective microsome fractions. Severity of colitis as determined by myeloperoxidase activity was found to have linear correlation to changes in tacrolimus degradation (R2 = 0.8299). It is hypothesized that increased drug metabolism is dependent on the number of cells infiltrating inflamed tissue. A dominant contribution of immune-related cells to observed variations in mucosal drug metabolism has been determined. This observed pathophysiologic mechanism may have a significant influence on available drug concentrations at the inflammation site, thus modifying anti-inflammatory efficiency of the therapy.
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PMID:Decreased drug penetration in inflamed tissue related to changed mucosal metabolism in experimental colitis. 1754 13

1. Liver fibrosis is the compensatory state of cirrhosis. In the long asymptomatic period, it is imperative to select a proper dosing regimen for drugs that are applicable to hepatic fibrosis owing to altered pharmacokinetics and bioavailability. The present study was designed to observe the changes in verapamil pharmacokinetics in rats with early liver fibrosis with respect to alterations in cytochrome P450 3A (CYP3A) and P-glycoprotein (P-gp). 2. A rat liver fibrosis model was successfully established using several inducers, including a high-fat diet, alcohol and carbon tetrachloride. After rats received a single intravenous or oral dose of verapamil (5 mg/kg), the plasma concentrations of verapamil were determined at scheduled time-points using HPLC. The activity of hepatic and small intestinal microsomal erythromycin N-demethylase (a marker for CYP3A) and the expression of small intestinal cyp3a and multidrug resistance (mdr) mRNA were compared between normal rats and rats with liver fibrosis. 3. The results showed that when verapamil was administered intravenously, the area under the curve (AUC), elimination half-life (T((1/2)(K10))) and mean residence time (MRT) increased significantly, whereas clearance (Cl) decreased, in rats with liver fibrosis compared with normal rats. After oral administration of verapamil, the AUC, (T((1/2)(K10))) and maximum concentration (C(max)) increased, Cl decreased and the absorption half-life (T((1/2)(K01))) and time to peak concentration (T(max)) were unchanged compared with normal rats. The oral bioavailability of verapamil was 32.9% in normal rats and 34.4% in rats with liver fibrosis. Furthermore, decreased CYP3A activity in the liver was accompanied by upregulated cyp3a9/18 and unchanged mdr mRNA in the small intestine compared with normal rats. Expression of cyp3a9/18 and mdr mRNA in the intestine was significantly inhibited by verapamil. 4. The results suggest that the lowered Cl and increased AUC of verapamil after intravenous and oral administration in rats with liver fibrosis were due to downregulation of CYP3A in the liver. The absorption rate of verapamil in rats with liver fibrosis was unchanged because mdr was unchanged and cyp3a was inhibited in the intestine by verapamil itself. There was no notable difference in oral bioavailability between normal rats and rats with liver fibrosis.
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PMID:Effects of liver fibrosis on verapamil pharmacokinetics in rats. 1797 28

It has been reported that tamoxifen is a substrate of P-glycoprotein (P-gp) and microsomal cytochrome P450 (CYP) 3A, and kaempferol is an inhibitor of P-gp and CYP3A. Hence, it could be expected that kaempferol would affect the pharmacokinetics of tamoxifen. Thus, tamoxifen was administered orally (10 mg/kg) without or with oral kaempferol (2.5 and 10 mg/kg). In the presence of kaempferol, the total area under the plasma concentration-time curve from time zero to time infinity (AUC) of tamoxifen was significantly greater, C(max) was significantly higher and F was considerably greater than those without kaempferol. The enhanced bioavailability of oral tamoxifen by oral kaempferol could have been due to an inhibition of CYP3A and P-gp by kaempferol. The presence of kaempferol did not alter the pharmacokinetic parameters of a metabolite of tamoxifen, 4-hydroxytamoxifen. This could have been because the contribution of CYP3A to the formation of 4-hydroxytamoxifen is not considerable in rats.
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PMID:Effects of oral kaempferol on the pharmacokinetics of tamoxifen and one of its metabolites, 4-hydroxytamoxifen, after oral administration of tamoxifen to rats. 1833 36

It is known that protein kinase C (PKC) signal transduction is enhanced in a diabetic state, and that PKC activator phorbol esters increase the gene expression of MDR1 in human tumor cells. To clarify the expression of the liver transporters under diabetic conditions and the roles of PKCalpha and the transcription factor NF-kappaB, we investigated the expression levels of Mdr1a, Mdr1b, Mdr2, Mrp2, Bcrp, Bsep, Oct1, Oat2, and Oat3 transporters, PKCalpha, IkappaB, and NF-kappaB in the liver of rats with STZ-induced hyperglycemia. A selective increase in the gene expression of Mdr1b was detected by RT-PCR. Western blotting with C219 antibody revealed an increase in P-glycoprotein. Although the mRNA level of PKCalpha was not affected, translocation of PKCalpha to the microsomal fraction was detected. NF-kappaB p65, IkappaBalpha and IkappaBbeta mRNA levels were increased as was the level of nuclear NF-kappaB p65. From these findings, it was suggested that STZ-induced hyperglycemia caused the upregulation of Mdr1b P-gp expression through the activation of PKCalpha and NF-kappaB.
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PMID:Increase in P-glycoprotein accompanied by activation of protein kinase Calpha and NF-kappaB p65 in the livers of rats with streptozotocin-induced diabetes. 1834 69

Unlike classical enzymes, drug-metabolizing enzymes (DMEs), such as the liver microsomal cytochrome P450, UDP-glucuronyltransferase, epoxide hydrolase, and flavin-containing monooxygenase, all exhibit broad substrate specificities, low turnover rates, atypical kinetics, and other unusual properties. Receptors (the pregnane X receptor, NR1I2; the constitutive androstane receptor, NR1I3; and the aromatic hydrocarbon receptor) responsible for the induction of DMEs and transporters (P-glycoprotein) responsible for drug transport also have broad substrate specificities. These promiscuous proteins are all intimately involved in drug disposition. Promiscuous proteins, by definition, are known for diversity, but not specificity, in their interaction with drugs. In this review, we analyzed recent advances on the three dimensional structures and kinetic properties of DMD proteins from crystallography, mutational, and kinetic studies to gain insights into the structural and biochemical basis for the promiscuous ligand-protein interactions of the proteins. Large substrate-binding cavities (SBCs), binding of more than one substrate/effector and binding of substrates in alternative orientations and locations within the SBCs, rotation of a substrate at the active site, and substantial substrate-induced conformational changes of the SBCs are common features of the promiscuous DMEs, receptors, and transporters, and therefore, are important parameters to be considered in dealing with drug metabolism issues and safety evaluation of drugs and environmental chemicals.
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PMID:The challenges of dealing with promiscuous drug-metabolizing enzymes, receptors and transporters. 1853 74

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