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 effect of atovarstatin on digoxin pharmacokinetics was assessed in 24 healthy volunteers in two studies. Subjects received 0.25 mg digoxin daily for 20 days, administered alone for the first 10 days and concomitantly with 10 mg or 80 mg atorvastatin for the last 10 days. Mean steady-state plasma digoxin concentrations were unchanged by administration of 10 mg atorvastatin. Mean steady-state plasma digoxin concentrations following administration of digoxin with 80 mg atorvastatin were slightly higher than concentrations following administration of digoxin alone, resulting in 20% and 15% higher Cmax and AUC(0-24) values, respectively. Since tmax and renal clearance were not significantly affected, the results are consistent with an increase in the extent of digoxin absorption in the presence of atorvastatin. Digoxin is known to undergo intestinal secretion mediated by P-glycoprotein. Since atorvastatin is a CYP3A4 substrate and many CYP3A4 substrates are also substrates for P-glycoprotein transport, the influence of atorvastatin and its metabolites on P-glycoprotein-mediated digoxin transport in monolayers of the human colon carcinoma (Caco-2) cell line was investigated. In this model system, atorvastatin exhibited efflux or secretion kinetics with a K(m) of 110 microM. Atorvastatin (100 microM) inhibited digoxin secretion (transport from the basolateral to apical aspect of the monolayer) by 58%, equivalent to the extent of inhibition observed with verapamil, a known inhibitor of P-glycoprotein transport. Thus, the increase in steady-state digoxin concentrations produced by 80 mg atorvastatin coadministration may result from inhibition of digoxin secretion into the intestinal lumen.
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PMID:Atorvastatin coadministration may increase digoxin concentrations by inhibition of intestinal P-glycoprotein-mediated secretion. 1063 27

Drug interactions occur when the efficacy or toxicity of a medication is changed by administration of another substance. Pharmacokinetic interactions often occur as a result of a change in drug metabolism. Cytochrome P450 (CYP) 3A4 oxidises a broad spectrum of drugs by a number of metabolic processes. The location of CYP3A4 in the small bowel and liver permits an effect on both presystemic and systemic drug disposition. Some interactions with CYP3A4 inhibitors may also involve inhibition of P-glycoprotein. Clinically important CYP3A4 inhibitors include itraconazole, ketoconazole, clarithromycin, erythromycin, nefazodone, ritonavir and grapefruit juice. Torsades de pointes, a life-threatening ventricular arrhythmia associated with QT prolongation, can occur when these inhibitors are coadministered with terfenadine, astemizole, cisapride or pimozide. Rhabdomyolysis has been associated with the coadministration of some 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors ('statins') and CYP3A4 inhibitors. Symptomatic hypotension may occur when CYP3A4 inhibitors are given with some dihydropyridine calcium antagonists, as well with the phosphodiesterase inhibitor sildenafil. Excessive sedation can result from concomitant administration of benzodiazepine (midazolam, triazolam, alprazolam or diazepam) or nonbenzodiazepine (zopiclone and buspirone) hypnosedatives with CYP3A4 inhibitors. Ataxia can occur with carbamazepine, and ergotism with ergotamine, following the addition of a CYP3A4 inhibitor. Beneficial drug interactions can occur. Administration of a CYP3A4 inhibitor with cyclosporin may allow reduction of the dosage and cost of the immunosuppressant. Certain HIV protease inhibitors, e.g. saquinavir, have low oral bioavailability that can be profoundly increased by the addition of ritonavir. The clinical importance of any drug interaction depends on factors that are drug-, patient- and administration-related. Generally, a doubling or more in plasma drug concentration has the potential for enhanced adverse or beneficial drug response. Less pronounced pharmacokinetic interactions may still be clinically important for drugs with a steep concentration-response relationship or narrow therapeutic index. In most cases, the extent of drug interaction varies markedly among individuals; this is likely to be dependent on interindividual differences in CYP3A4 tissue content, pre-existing medical conditions and, possibly, age. Interactions may occur under single dose conditions or only at steady state. The pharmacodynamic consequences may or may not closely follow pharmacokinetic changes. Drug interactions may be most apparent when patients are stabilised on the affected drug and the CYP3A4 inhibitor is then added to the regimen. Temporal relationships between the administration of the drug and CYP3A4 inhibitor may be important in determining the extent of the interaction.
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PMID:Pharmacokinetic-pharmacodynamic consequences and clinical relevance of cytochrome P450 3A4 inhibition. 1066 58

There is widespread recognition that the ingestion of a meal is associated with a number of physiologic changes (gastric pH, gastric emptying, hepatic blood flow, etc.) that can significantly alter the rate and extent of drug absorption. It is also well recognized that the components of food can alter drug absorption through alterations in drug solubility. The nutritional status of a patient can also contribute to variability in the pharmacokinetics of certain drugs. The more recent finding that grapefruit juice can increase the bioavailability of certain drugs, by reducing presystemic intestinal metabolism, has led to renewed interest in the area of 'food-drug interactions.' Particular interest has focused on the effects of the grapefruit flavonoid, naringin, and the furanocoumarin, 6',7'-dihydroxybergamottin, on the activity of intestinal CYP3A4. The possibility that grapefruit juice might affect drug absorption via an interaction with intestinal P-glycoprotein (P-gp) is also being explored. The growing use of herbal extracts and phytopharmaceuticals raises a new challenge-will the use of these products cause changes in the pharmacokinetics of 'conventional' drugs? As a case in point, consider the phytoestrogenic isoflavones, which are being promoted for a number of health benefits. Isoflavones such as genistein and daidzein can inhibit oxidative and conjugative metabolism in vitro and interact with transporters such as P-gp and the canalicular multispecific organic anion transporter. Given that P-gp and canalicular multispecific organic anion transporter are involved in the intestinal absorption and biliary excretion of a wide range of drugs and metabolites, it is reasonable to suspect that isoflavones may alter drug disposition in humans. However, this possibility has not been explored.
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PMID:Influence of dietary components on the gastrointestinal metabolism and transport of drugs. 1068 76

This article reviews the metabolic pharmacokinetic drug-drug interactions with the systemic antifungal agents: the azoles ketoconazole, miconazole, itraconazole and fluconazole, the allylamine terbinafine and the sulfonamide sulfamethoxazole. The majority of these interactions are metabolic and are caused by inhibition of cytochrome P450 (CYP)-mediated hepatic and/or small intestinal metabolism of coadministered drugs. Human liver microsomal studies in vitro, clinical case reports and controlled pharmacokinetic interaction studies in patients or healthy volunteers are reviewed. A brief overview of the CYP system and the contrasting effects of the antifungal agents on the different human drug-metabolising CYP isoforms is followed by discussion of the role of P-glycoprotein in presystemic extraction and the modulation of its function by the antifungal agents. Methods used for in vitro drug interaction studies and in vitro-in vivo scaling are then discussed, with specific emphasis on the azole antifungals. Ketoconazole and itraconazole are potent inhibitors of the major drug-metabolising CYP isoform in humans, CYP3A4. Coadministration of these drugs with CYP3A substrates such as cyclosporin, tacrolimus, alprazolam, triazolam, midazolam, nifedipine, felodipine, simvastatin, lovastatin, vincristine, terfenadine or astemizole can result in clinically significant drug interactions, some of which can be life-threatening. The interactions of ketoconazole with cyclosporin and tacrolimus have been applied for therapeutic purposes to allow a lower dosage and cost of the immunosuppressant and a reduced risk of fungal infections. The potency of fluconazole as a CYP3A4 inhibitor is much lower. Thus, clinical interactions of CYP3A substrates with this azole derivative are of lesser magnitude, and are generally observed only with fluconazole dosages of > or =200 mg/day. Fluconazole, miconazole and sulfamethoxazole are potent inhibitors of CYP2C9. Coadministration of phenytoin, warfarin, sulfamethoxazole and losartan with fluconazole results in clinically significant drug interactions. Fluconazole is a potent inhibitor of CYP2C19 in vitro, although the clinical significance of this has not been investigated. No clinically significant drug interactions have been predicted or documented between the azoles and drugs that are primarily metabolised by CYP1A2, 2D6 or 2E1. Terbinafine is a potent inhibitor of CYP2D6 and may cause clinically significant interactions with coadministered substrates of this isoform, such as nortriptyline, desipramine, perphenazine, metoprolol, encainide and propafenone. On the basis of the existing in vitro and in vivo data, drug interactions of terbinafine with substrates of other CYP isoforms are unlikely.
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PMID:Effects of the antifungal agents on oxidative drug metabolism: clinical relevance. 1070 76

Tacrolimus is an immunosuppressant used to prevent rejection of transplanted organs. It is metabolized in both the gut and the liver by the cytochrome P450 (CYP) 3A4 enzyme system and is a substrate for the P-glycoprotein (P-gp) drug efflux pump. As CYP3A4 enzymes and P-gp are present at differing concentrations throughout the gastrointestinal tract, the bioavailability of tacrolimus may be influenced by changes in gastrointestinal transit time in addition to changes in hepatic metabolism. We report the case of a pediatric renal transplant patient who experienced a three-fold increase in serum tacrolimus concentrations during an episode of gastroenteritis with chronic diarrhea.
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PMID:Increased tacrolimus levels in a pediatric renal transplant patient attributed to chronic diarrhea. 1073 Oct 62

The presence in orange juice of compounds that specifically inhibit the P-glycoprotein (P-gp) drug efflux transporter, but not the cytochrome P450 (CYP) isozyme CYP3A4, was investigated. The uptake of [(3)H]vinblastine, a substrate of P-gp, by Caco-2 cells was measured. An ethyl acetate extract of orange juice did not affect the initial uptake rate of [(3)H]vinblastine but significantly increased the steady-state uptake, as did cyclosporin A (20 microM), an inhibitor of P-gp. No significant effect on the uptake of 3-O-[(3)H]methylglucose or [(14)C]phenylalanine by Caco-2 cells was found, compared with the control. When the extract was separated on a Cosmosil column, the eluate with 70% methanol showed the most potent ability to increase [(3)H]vinblastine uptake. Additional separation of the 70% methanol eluate on a silica gel column with hexane-acetone (3:1) gave 3,3',4',5,6,7,8-heptamethoxyflavone (HMF) and 4',5,6,7,8-pentamethoxyflavone (tangeretin). HMF, tangeretin, and 3',4',5,6,7,8-hexamethoxyflavone (nobiletin), another methoxyflavone contained in orange juice, all increased the steady-state uptake of [(3)H]vinblastine by Caco-2 cells in a concentration-dependent manner. The order of potency of these compounds at the concentration of 50 microM was tangeretin > HMF > nobiletin. None of these methoxyflavones inhibited 6beta-hydroxylation of testosterone catalyzed by CYP3A4. The ethyl acetate extract of orange juice and these methoxyflavones also increased steady-state [(3)H]vinblastine uptake by LLC-GA5-COL300 cells (a cell line transfected with human MDR1 cDNA). We conclude that these methoxyflavones enhanced vinblastine uptake by specifically inhibiting drug efflux via P-gp. They may have potential as agents for reversing multidrug resistance or for recovering the bioavailability of certain drugs.
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PMID:Polymethoxylated flavones in orange juice are inhibitors of P-glycoprotein but not cytochrome P450 3A4. 1073 74

CYP3A4 present in small bowel enterocytes can catalyze substantial metabolism of some orally administered drugs and, thus, exerts a first-pass effect. Recent data indicate that the P-glycoprotein (the MDR 1 gene product) in the enterocyte brush border also limits the bioavailability of many of the same drugs that interact with CYP3A. It has been proposed that P-glycoprotein and CYP3A4 may be functionally linked because (a) the two proteins are co-localized within the digestive tract and within enterocytes, (b) they share many of the same substrates and (c) they are co-inducible in response to at least some xenobiotics. There are several potential mechanisms whereby the functions of P-glycoprotein and CYP3A4 could be complimentary. First, Pgp may limit absorption in the proximal small bowel, shifting it to more distal, less catalytically efficient segments that contain lower amounts of CYP3A4. Second, Pgp may function to prolong the duration of absorption. This might increase the duration of exposure of drug to and, hence, the extent of metabolism by enterocyte CYP3A4. Finally, Pgp may preferentially remove from the enterocyte primary drug metabolites that are themselves substrates for CYP3A4. This would limit product inhibition and facilitate primary metabolism catalyzed by CYP3A4. Characterization of the roles of CYP3A4 and Pgp in limiting oral drug availability may be aided by recent success in the development of human intestinal cell lines that stably express both CYP3A4 and Pgp.
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PMID:The barrier function of CYP3A4 and P-glycoprotein in the small bowel. 1083 56

Although the human immunodeficiency virus (HIV) protease inhibitors are highly effective, they are characterized by low and/or variable bioavailability with limited penetration into the central nervous system (CNS). Their clinical use is limited by patient compliance and by drug-drug interactions. The effect of drug solubility on their oral absorption has been investigated but further evaluation of this relationship is required. First pass metabolism appears to be significant for the HIV protease inhibitors and they are extensively metabolized by cytochrome P450 (CYP) 3A4. Recent studies suggest that these drugs are substrates for the P-glycoprotein efflux pump, which can limit their intestinal absorption and their transport across the blood-brain barrier. Drugs inducing or inhibiting CYP3A4 and/or P-glycoprotein may influence the bioavailability of the HIV protease inhibitors. The low bioavailability, variable absorption and drug-drug interactions of the HIV protease inhibitors may be related to the variability of cytochrome P450 and P-glycoprotein expression and to possible CYP3A4/P-glycoprotein interactions. To improve oral HIV protease inhibitor therapy, it is essential to mechanistically characterize the cell specific, tissue specific and regional intestinal dependencies of drug transport, secretory transport, metabolism and P-glycoprotein/CPY3A4 interactions. This report reviews the physicochemical characteristics and pharmacokinetics of the HIV protease inhibitors while considering the relationships between their hepatic and intestinal metabolism, low bioavailability, variable absorption and drug-drug interactions.
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PMID:Oral absorption of the HIV protease inhibitors: a current update. 1083 75

The gut contains drug metabolizing enzymes and drug export proteins, of which the most important are CYP3A4 and P-glycoprotein. P-glycoprotein is localised to the apical membrane and CYP3A4 in the subapical cytoplasmic membranes in the enterocytes. The substrate and modulator specificity overlap between the two systems. The function of the two systems may be integrated. The intestinal first pass effect is the fraction of a drug which is metabolised or excreted during the absorption from the lumen. The significance of the intestinal first pass effect for the bioavailability of the three model drugs, midazolam, cyclosporin and digoxin, has been reviewed. The impact of different disease states in the gastrointestinal tract on the function of intestinal drug metabolising enzymes and P-glycoprotein is far from elucidated. Further insight into the function of these systems may lead to optimisation of drug therapy.
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PMID:[Drug metabolism in the small intestine--the significance for biological availability]. 1085 Feb 20

Human hepatocytes cultured serum-free for up to 6 weeks were used to study expression and induction of enzymes and membrane transport proteins involved in drug metabolism. Phase I drug metabolizing enzymes cytochrome P450 (CYP)1A1, CYP1A2, CYP2C9, CYP2C19, CYP2E1, and CYP3A4 were detected by Western blot analyses and, when appropriate, by enzymatic assays for ethoxyresorufin-O-deethylase(EROD)-activity and testosterone-6beta-hydroxylase(T6H)-activity. Expression of the membrane transporter multi-drug resistance protein (P-glycoprotein, MDR-1), multidrug resistance-associated protein (MRP-1), and lung-resistance protein (LRP) was maintained during the culture as detected by RT-PCR and Western blot analyses. Model inducers like rifampicin, phenobarbital, or 3-methylcholanthrene and beta-naphtoflavone were able to induce CYP1A or CYP3A4 as well as EROD or T6H activities for up to 30 days. CYP2C9, CYP2C19 and CYP2E1 expression was maintained but not inducible for 48 days. Also, rifampicin and phenobarbital were unable to increase MDR-1 and MRP-1 protein levels significantly.
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PMID:Induction of cytochrome P450 (CYP)1A1, CYP1A2, and CYP3A4 but not of CYP2C9, CYP2C19, multidrug resistance (MDR-1) and multidrug resistance associated protein (MRP-1) by prototypical inducers in human hepatocytes. 1087 7


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