Your search keyword '"Oswald, Stefan"' showing total 14 results

1. Phenotype–Genotype Correlation Applying a Cocktail Approach and an Exome Chip Analysis Reveals Further Variants Contributing to Variation of Drug Metabolism.

Author

Böhm, Ruwen, Bruckmueller, Henrike, Oswald, Stefan, Hübenthal, Matthias, Kaehler, Meike, Ehmke, Lena, Höcker, Jan, Siegmund, Werner, Franke, Andre, and Cascorbi, Ingolf

Subjects

DRUG metabolism, MULTIPLE regression analysis, CYTOCHROME P-450 CYP2D6, CYTOCHROME P-450 CYP2C19, PHENOTYPES, CAFFEINE, LOSARTAN

Abstract

Although great progress has been made in the fine‐tuning of diplotypes, there is still a need to further improve the predictability of individual phenotypes of pharmacogenetically relevant enzymes. The aim of this study was to analyze the additional contribution of sex and variants identified by exome chip analysis to the metabolic ratio of five probe drugs. A cocktail study applying dextromethorphan, losartan, omeprazole, midazolam, and caffeine was conducted on 200 healthy volunteers. CYP2D6, 2C9, 2C19, 3A4/5, and 1A2 genotypes were analyzed and correlated with metabolic ratios. In addition, an exome chip analysis was performed. These SNPs correlating with metabolic ratios were confirmed by individual genotyping. The contribution of various factors to metabolic ratios was assessed by multiple regression analysis. Genotypically predicted phenotypes defined by CPIC discriminated very well the log metabolic ratios with the exception of caffeine. There were minor sex differences in the activity of CYP2C9, 2C19, 1A2, and CYP3A4/5. For dextromethorphan (CYP2D6), IP6K2 (rs61740999) and TCF20 (rs5758651) affected metabolic ratios, but only IP6K2 remained significant after multiple regression analysis. For losartan (CYP2C9), FBXW12 (rs17080138), ZNF703 (rs79707182), and SLC17A4 (rs11754288) together with CYP diplotypes, and sex explained 50% of interindividual variability. For omeprazole (CYP2C19), no significant influence of CYP2C:TG haplotypes was observed, but CYP2C19 rs12777823 improved the predictability. The comprehensive genetic analysis and inclusion of sex in a multiple regression model significantly improved the explanation of variability of metabolic ratios, resulting in further improvement of algorithms for the prediction of individual phenotypes of drug‐metabolizing enzymes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Comparative Intra‐Subject Analysis of Gene Expression and Protein Abundance of Major and Minor Drug Metabolizing Enzymes in Healthy Human Jejunum and Liver.

Author

Wenzel, Christoph, Lapczuk‐Romanska, Joanna, Malinowski, Damian, Ostrowski, Marek, Drozdzik, Marek, and Oswald, Stefan

Subjects

GENE expression, PROTEIN expression, ENZYMES, CYTOCHROME P-450, POLYMERASE chain reaction, LIVER

Abstract

First pass metabolism by phase I and phase II enzymes in the intestines and liver is a major determinant of the oral bioavailability of many drugs. Several studies analyzed expressions of major drug‐metabolizing enzymes (DMEs), such as CYP3A4 and UGT1A1 in the human gut and liver. However, there is still a lack of knowledge regarding other DMEs (i.e., "minor" DMEs), although several clinically relevant drugs are affected by those enzymes. Moreover, there is very limited intra‐subject data on hepatic and intestinal expression levels of minor DMEs. To fill this gap of knowledge, we analyzed gene expression (quantitative real‐time polymerase chain reaction) and protein abundance (targeted proteomics) of 24 clinically relevant DMEs, that is, carboxylesterases (CES), UDP‐glucuronosyltransferases (UGT), and cytochrome P450 (CYP)‐enzymes. We performed our analysis using jejunum and liver tissue specimens from the same 11 healthy organ donors (8 men and 3 women, aged 19–60 years). Protein amounts of all investigated DMEs, with the exception of CYP4A11, were detected in human liver samples. CES2, CYP2C18, CYP3A4, and UGT2B17 protein abundance was similar or even higher in the jejunum, and all other DMEs were found in higher amounts in the liver. Significant correlations between gene expression and protein levels were observed only for 2 of 15 jejunal, but 13 of 23 hepatic DMEs. Intestinal and hepatic protein amounts only significantly correlated for CYP3A4 and UGT1A3. Our results demonstrated a notable variability between the individuals, which was even higher in the intestines than in the liver. Our intrasubject analysis of DMEs in the jejunum and liver from healthy donors, may be useful for physiologically‐based pharmacokinetic‐based modeling and prediction in order to improve efficacy and safety of oral drug therapy. [ABSTRACT FROM AUTHOR]

Published

2024

3. Regulation of Drug Transport Proteins—From Mechanisms to Clinical Impact: A White Paper on Behalf of the International Transporter Consortium.

Author

Brouwer, Kim L.R., Evers, Raymond, Hayden, Elizabeth, Hu, Shuiying, Li, Cindy Yanfei, Meyer zu Schwabedissen, Henriette E., Neuhoff, Sibylle, Oswald, Stefan, Piquette‐Miller, Micheline, Saran, Chitra, Sjöstedt, Noora, Sprowl, Jason A., Stahl, Simone H., and Yue, Wei

Subjects

CARRIER proteins, PROTEIN transport, MEMBRANE transport proteins, DRUG laws, CONSORTIA, LUNGS, NUCLEAR receptors (Biochemistry)

Abstract

Membrane transport proteins are involved in the absorption, disposition, efficacy, and/or toxicity of many drugs. Numerous mechanisms (e.g., nuclear receptors, epigenetic gene regulation, microRNAs, alternative splicing, post‐translational modifications, and trafficking) regulate transport protein levels, localization, and function. Various factors associated with disease, medications, and dietary constituents, for example, may alter the regulation and activity of transport proteins in the intestine, liver, kidneys, brain, lungs, placenta, and other important sites, such as tumor tissue. This white paper reviews key mechanisms and regulatory factors that alter the function of clinically relevant transport proteins involved in drug disposition. Current considerations with in vitro and in vivo models that are used to investigate transporter regulation are discussed, including strengths, limitations, and the inherent challenges in predicting the impact of changes due to regulation of one transporter on compensatory pathways and overall drug disposition. In addition, translation and scaling of in vitro observations to in vivo outcomes are considered. The importance of incorporating altered transporter regulation in modeling and simulation approaches to predict the clinical impact on drug disposition is also discussed. Regulation of transporters is highly complex and, therefore, identification of knowledge gaps will aid in directing future research to expand our understanding of clinically relevant molecular mechanisms of transporter regulation. This information is critical to the development of tools and approaches to improve therapeutic outcomes by predicting more accurately the impact of regulation‐mediated changes in transporter function on drug disposition and response. [ABSTRACT FROM AUTHOR]

Published

2022

4. Protein Abundance of Hepatic Drug Transporters in Patients With Different Forms of Liver Damage.

Author

Drozdzik, Marek, Szelag‐Pieniek, Sylwia, Post, Mariola, Zeair, Samir, Wrzesinski, Maciej, Kurzawski, Mateusz, Prieto, Jesus, and Oswald, Stefan

Subjects

REVERSE transcriptase polymerase chain reaction, LIVER analysis, ALCOHOLIC liver diseases, CARRIER proteins

Abstract

Hepatocellular transporter levels were quantified using quantitative reverse transcription polymerase chain reaction and liquid chromatography–tandem mass spectrometry methods. Liver function deterioration (Child‐Pugh class C) produced significant protein abundance (mean values) increase (to healthy livers) in P‐gp (to 260% (CV (coefficient of variation) 82%)) and MRP4 (CV 230%) (not detected in healthy livers), decrease in MRP2 (to 30% (CV 126%)), NTCP (to 34% (CV 112%)), OCT1 (to 35% (CV 153%)), OATP1B1 (to 46% (CV 73%)), and OATP2B1 (to 27% (CV 230%)), whereas BSEP (CV 99%), MRP3 (CV 106%), OAT2 (CV 97%), OCT3 (CV 113%), and OATP1B3 (CV 144%) remained unchanged. Alcoholic liver disease produced significant protein downregulation of MRP2 (to 30% (CV 134%)), NTCP (to 76% (CV 78%)), OAT2 (to 26% (CV 117%)), OATP1B1 (to 61% (CV 76%)), OATP1B3 (to 79% (CV 160%)), and OATP2B1 (to 73% (CV 90%)) of healthy tissue values. Hepatitis C produced BSEP (to 47% (CV 99%)) and OATP2B1 (to 74% (CV 91%)) protein reduction. Primary biliary cholangitis and primary sclerosing cholangitis demonstrated P‐gp and MRP4 protein upregulation (to 350% (CV 47%) and 287% (CV 38%), respectively). Autoimmune hepatitis revealed P‐gp (to 410% (CV 49%)) and MRP4 (CV 96%) increase, and MRP2 (to 18% (CV 259%)) protein decrease. Drug transporters' protein abundance depends on liver pathology type and its functional state. [ABSTRACT FROM AUTHOR]

Published

2020

5. Protein Abundance of Clinically Relevant Drug Transporters in the Human Liver and Intestine: A Comparative Analysis in Paired Tissue Specimens.

Author

Drozdzik, Marek, Lapczuk, Joanna, Kurzawski, Mateusz, Busch, Diana, Müller, Janett, Oswald, Stefan, and Ostrowski, Marek

Subjects

DRUG bioavailability, LIVER, INTESTINES, ADENOSINE triphosphate, LIQUID chromatography-mass spectrometry

Abstract

Bioavailability of orally administered drugs is partly determined by function of drug transporters in the liver and intestine. Therefore, we explored adenosine triphosphate–binding cassette (ABC) and solute carriers family transporters expression (quantitative polymerase chain reaction) and protein abundance (liquid chromatography tandem mass spectrometry (LC‐MS/MS)) in human liver and duodenum, jejunum, ileum, and colon in paired tissue specimens from nine organ donors. The transporter proteins were detected in the liver (permeability‐glycoprotein (P‐gp), multidrug resistance protein (MRP)2, MRP3, breast cancer resistance protein (BCRP), organic anion‐transporting polypeptide (OATP)1B1, OATP1B3, OATP2B1, organic cation transporter (OCT)1, OCT3, organic anion transporter 2, Na+‐taurocholate cotransporting polypeptide, monocarboxylate transporter (MCT)1, and multidrug and toxin extrusion 1) and the intestine (P‐gp, multidrug‐resistance protein (MRP)2, MRP3, MRP4, BCRP, OATP2B1, OCT1, apical sodium–bile acid transporter (only ileum), MCT1, and peptide transporter (PEPT1)). Significantly higher hepatic gene expression and protein abundance of ABCC2/MRP2, SLC22A1/OCT1, and SLCO2B1/OATP2B1 were found, as compared to all intestinal segments. No correlations between hepatic and small intestinal protein levels were observed. These observations provide a description of drug transporters distribution without the impact of interindividual variability bias and may help in construction of superior physiologically based pharmacokinetic and humanized animal models. [ABSTRACT FROM AUTHOR]

Published

2019

6. Expression of clinically relevant drug‐metabolizing enzymes along the human intestine and their correlation to drug transporters and nuclear receptors: An intra‐subject analysis.

Author

Fritz, Anja, Busch, Diana, Lapczuk, Joanna, Ostrowski, Marek, Drozdzik, Marek, and Oswald, Stefan

Subjects

DRUG metabolism, GENE expression, XENOBIOTICS, MESSENGER RNA, X-ray diffraction

Abstract

The oral bioavailability of many drugs is highly influenced not only by hepatic but also by intestinal biotransformation. To estimate the impact of intestinal phase I and II metabolism on oral drug absorption, knowledge on the expression levels of the respective enzymes is an essential prerequisite. In addition, the potential interplay of metabolism and transport contributes to drug disposition. Both mechanisms may be subjected to coordinative regulation by nuclear receptors, leading to unwanted drug‐drug interactions due to induction of intestinal metabolism and transport. Thus, it was the aim of this study to comprehensively analyse the regional expression of clinically relevant phase I and II enzymes along the entire human intestine and to correlate these data to expression data of drug transporters and nuclear receptors of pharmacokinetic relevance. Gene expression of 11 drug‐metabolizing enzymes (CYP2B6, 2C8, 2C9, 2C19, 2D6, 3A4, 3A5, SULT1A, UGT1A, UGT2B7, UGT2B15) was studied in duodenum, jejunum, ileum and colon from six organ donors by real‐time RT‐PCR. Enzyme expression was correlated with expression data of the nuclear receptors PXR, CAR and FXR as well as drug transporters observed in the same cohort. Intestinal expression of all studied metabolizing enzymes was significantly higher in the small intestine compared to colonic tissue. CYP2B6, CYP2C9, CYP2C19, CYP2D6, CYP3A4/5, SULT1A, UGT1A and UGT2B7 expression increased from the duodenum to jejunum but was markedly lower in the ileum. In the small intestine, that is, the predominant site of drug absorption, the highest expression has been observed for CYP3A4, CYP2C9, SULT1A and UGT1A. In addition, significant correlations were found between several enzymes and PXR as well as ABC transporters in the small intestine. In conclusion, the observed substantial site‐dependent intestinal expression of several enzymes may explain regional differences in intestinal drug absorption. The detected correlations between intestinal enzymes, transporters and nuclear receptors provide indirect evidence for their coordinative expression, regulation and function in the human small intestine. [ABSTRACT FROM AUTHOR]

Published

2019

7. Protein Abundance of Clinically Relevant Drug‐Metabolizing Enzymes in the Human Liver and Intestine: A Comparative Analysis in Paired Tissue Specimens.

Author

Drozdzik, Marek, Lapczuk, Joanna, Kurzawski, Mateusz, Busch, Diana, Müller, Janett, Oswald, Stefan, and Ostrowski, Marek

Subjects

DRUG metabolism, ENZYMES, TISSUE-specific antigens, LIVER, INTESTINES

Abstract

This work revises and complements existing findings on the distribution of drug‐metabolizing enzymes in the first‐pass effect organs. We explored gene expression (quantitative polymerase chain reaction) and protein abundance (liquid chromatography/ tandem mass spectrometry) of CYP1A2, CYP2B6, CYP2C8/9/19, CYP2D6, CYP2E1, CYP3A4/5, UGT1A1/3, UGT2B7/15 in the liver, duodenum, jejunum, ileum, and colon in paired tissues from nine organ donors. All proteins were detected in the liver, but in the intestine CYP2C9/19, CYP2D6, CYP3A4/5, UGT1A1/3, and UGT2B7 were found. CYP3A4 showed comparable abundance in the liver and jejunum, whereas other enzymes were markedly higher in the hepatic tissue. Nearly all detected enzymes showed their highest abundance in the jejunum. Significant correlations between mRNA and protein levels in liver or intestine were found for most enzymes. CYP3A4 and CYP3A5 protein abundance, but not other enzymes, were significantly correlated in the liver and the small intestine. Our data may contribute to an improved understanding of hepatic and intestinal drug metabolism. [ABSTRACT FROM AUTHOR]

Published

2018

8. Pretransplant 4β-hydroxycholesterol does not predict tacrolimus exposure or dose requirements during the first days after kidney transplantation.

Author

Vanhove, Thomas, Hasan, Mahmoud, Annaert, Pieter, Oswald, Stefan, and Kuypers, Dirk R. J.

Subjects

KIDNEY transplantation, TACROLIMUS, HYDROXYCHOLESTEROLS, PHYSIOLOGICAL effects of cholesterol, LIQUID chromatography, TANDEM mass spectrometry, THERAPEUTICS

Abstract

Aims The CYP3A metric 4β-hydroxycholesterol (4βOHC) has been shown to correlate with tacrolimus steady-state apparent oral clearance (CL/F). Recently, pretransplant 4βOHC was shown not to predict tacrolimus CL/F after transplantation in a cohort of renal recipients ( n = 79). The goal of the current study was determine whether these findings could be validated in a substantially larger cohort. Methods In a retrospective analysis of 279 renal recipients, tacrolimus trough concentrations (C0), daily dose, haematocrit and other relevant covariates were registered every day for the first 14 days after transplantation. 4βOHC and cholesterol were quantified on plasma collected immediately pretransplant using liquid chromatography tandem-mass spectrometry. Patients were genotyped for CYP3A5*1 and CYP3A4*22. Results A total of 3551 tacrolimus C0 concentrations were registered. In a linear mixed model for the 14-day period, determinants of tacrolimus C0 were CYP3A5 genotype, haematocrit, age and weight (overall R2 = 0.179). Determinants of daily dose were CYP3A5 genotype, age, methylprednisolone dose, tacrolimus formulation, ALT and estimated glomerular filtration rate (overall R2 = 0.242). Considering each of the first 5 days separately, 4βOHC had a limited effect on tacrolimus C0 on day 3 only (−1.00 ng ml−1 per ln, P = 0.035) but not on any other day, and no effect on dose or C0/dose. During the first 5 days, haematocrit and age, which were previously established as determinants of tacrolimus disposition under steady-state conditions, never explained more than 17.7% of between-subject variability in tacrolimus C0/dose. Conclusions The CYP3A metric 4βOHC cannot be used to predict tacrolimus dose requirements in the first days after transplantation. [ABSTRACT FROM AUTHOR]

Published

2017

9. Extended-release but not immediate-release and subcutaneous methylnaltrexone antagonizes the loperamide-induced delay of whole-gut transit time in healthy subjects.

Author

Kolbow, Julia, Modess, Christiane, Wegner, Danilo, Oswald, Stefan, Maritz, Martina Alice, Rey, Hélène, Weitschies, Werner, and Siegmund, Werner

Abstract

Methylnaltrexone (MNTX) is approved for subcutaneous treatment (MNTX-SC) of opioid induced constipation. MNTX in oral immediate-release (MNTX-IR) and extended-release (MNTX-ER) dosage forms may antagonize the opioid induced delay in oro-cecal transit time (OCT) as measured by using radiolabeled lactulose. Because lactulose acts laxative by its own and efficacy of MNTX on colon transit time (CTT) was unknown, the opioid antagonistic effects MNTX-IR and MNTX-ER (both 500 mg) relative to MNTX-SC (12 mg) were evaluated in 15 healthy subjects with loperamide (LOP, 3 × 4 mg, 12 hourly) induced experimental constipation using the sulfasalazine/sulfapyridine method and radio-opaque markers to measure OCT and whole gut transit time (WGT). MNTX-ER significantly antagonized the LOP effects in 12 of our 15 subjects who responded to LOP with prolongation of WGT by 20.6-74.1 h (OCT by 0.50-10.5 h, CTT by 18.3-73.6 h). MNTX-SC and MNTX-IR were without significant influence. Compared to MNTX-SC, bioavailability of MNTX-IR and MNTX-ER was 1.53-5.49 % and 0.11-1.24 %, respectively. MNTX-SC and MNTX-IR achieved active serum levels only for ∼3-5 h. MNTX-ER antagonized the opioid-induced delay of CTT most likely by local effects on µ-opioid receptors in the colon. [ABSTRACT FROM AUTHOR]

Published

2016

10. Targeted adsorption of molecules in the colon with the novel adsorbent-based Medicinal Product, DAV132: A proof of concept study in healthy subjects.

Author

de Gunzburg, Jean, Ducher, Annie, Modess, Christiane, Wegner, Danilo, Oswald, Stefan, Dressman, Jennifer, Augustin, Violaine, Feger, Céline, Andremont, Antoine, Weitschies, Werner, and Siegmund, Werner

Subjects

COLON microbiology, ADSORPTION (Chemistry), AMOXICILLIN, ANALYSIS of variance, ANTIBIOTICS, BIOAVAILABILITY, CHARCOAL, CONFIDENCE intervals, CROSSOVER trials, DRUG delivery systems, DRUG resistance in microorganisms, MOLECULAR biology, NONPARAMETRIC statistics, RESEARCH funding, STATISTICS, SULFONAMIDES, T-test (Statistics), DATA analysis, RANDOMIZED controlled trials, DATA analysis software, DESCRIPTIVE statistics

Abstract

During antibiotic treatments, active residuals reaching the colon profoundly affect the bacterial flora resulting in the emergence of resistance. To prevent these effects, we developed an enteric-coated formulated activated-charcoal based product, DAV132, meant to deliver its adsorbent to the ileum and neutralize antibiotic residues in the proximal colon. In a randomized, control, crossover study, the plasma pharmacokinetics of the probe drugs amoxicillin (500 mg) absorbed in the proximal intestine, and sulfapyridine (25 mg) metabolized from sulfasalazine in the cecum and rapidly absorbed, were compared after a single administration in 18 healthy subjects who had received DAV132, uncoated formulated activated charcoal (FAC) or water 16 and 8 hours before, concomitantly with the probe drugs, and 8 hours thereafter. The AUC0-96 h of amoxicillin was reduced by more than 70% when it was taken with FAC, but bioequivalent when it was taken with water or DAV132. By contrast, the AUC0-96 h of sulfapyridine was reduced by more than 90% when administered with either FAC or DAV132 in comparison with water. The results show that DAV132 can selectively adsorb drug compounds in the proximal colon, without interfering with drug absorption in the proximal small intestine, thereby constituting a proof of concept that DAV132 actually functions in humans. [ABSTRACT FROM AUTHOR]

Published

2015

11. Effects of Rifampicin, Dexamethasone, St. John's Wort and Thyroxine on Maternal and Foetal Expression of Abcb1 and Organ Distribution of Talinolol in Pregnant Rats.

Author

Saljé, Karen, Lederer, Kirstin, Oswald, Stefan, Dazert, Eike, Warzok, Rolf, and Siegmund, Werner

Subjects

ABSORPTION (Physiology), XENOBIOTICS, RIFAMPIN, DEXAMETHASONE, LABORATORY rats

Abstract

It is well accepted that ABCB1 plays a critical role in absorption, distribution and elimination of many xenobiotics and drugs. Only little is known about the regulation and function of ABCB1 during pregnancy. Thus, the aim of this study is to investigate maternal, placental and foetal Abcb1 expression and function in pregnant rats after induction with rifampicin, dexamethasone, St. John's wort (SJW) or thyroxine. Wistar rats were orally treated with rifampicin (250 mg/kg), SJW (1.0 g/kg), thyroxine (9 μg/kg), dexamethasone (1 mg/kg) or 0.5% methylcellulose suspension (control) for 9 days during late pregnancy (each N = 5). Afterwards, organ mRNA expression and protein content of Abcb1a were determined. Tissue concentrations of the ABCB1 probe drug talinolol were measured after repeated administration of the drug (100 mg/kg, 9 days) and after induction with oral rifampicin (250 mg/kg, 9 days, N = 5). Abcb1 expression was substantially lower in foetal than in maternal organs. Abcb1 was significantly induced by SJW in the maternal jejunum and placenta, by dexamethasone in foetal brain and liver and by thyroxine in the placenta and maternal and foetal brain. Rifampicin induced Abcb1 in all maternal and foetal organs. However, organ distribution of talinolol was not influenced by comedication of rifampicin. In conclusion, maternal and foetal Abcb1 organ expression in pregnant rats is inducible by nuclear receptor agonists. Although rifampicin regulates maternal and foetal Abcb1 expression, organ distribution of talinolol remains unchanged most likely caused by the known inhibitory effect of rifampicin on Abcb1 function. [ABSTRACT FROM AUTHOR]

Published

2012

12. Organic anion transporting polypeptide 2B1 is a high-affinity transporter for atorvastatin and is expressed in the human heart*.

Author

Grube, Markus, Köck, Kathleen, Oswald, Stefan, Draber, Katrin, Meissner, Konrad, Eckel, Lothar, Böhm, Michael, Felix, Stephan B., Vogelgesang, Silke, Jedlitschky, Gabriele, Siegmund, Werner, Warzok, Rolf, and Kroemer, Heyo K.

Subjects

STATINS (Cardiovascular agents), PHARMACODYNAMICS, HEART diseases, CARDIAC arrest, PEPTIDE hormones, ENZYME inhibitors

Abstract

Background: The cardiac effects of statins are subject to controversial discussion, and the mechanism of their uptake into the human heart is unknown. A candidate protein is the organic anion transporting polypeptide (OATP) 2B1 (SLCO2B1), because related transporters are involved in the uptake of statins into the human liver. In this study we examine OATP2B1 expression in the human heart and describe statins as inhibitors and substrates of OATP2B1.Methods: The expression of OATP2B1 was analyzed in 46 human atrial and 15 ventricular samples, including samples from hearts with dilated cardiomyopathy and hearts with ischemic cardiomyopathy.Results: Significant messenger ribonucleic acid expression was found in all samples, with no difference in the diseased hearts. However, patients who had taken atorvastatin exhibit decreased OATP2B1 messenger ribonucleic acid expression compared with patients with no statin treatment. OATP2B1 protein was detected at approximately 85 kd in atrial samples, as well as ventricular samples, and could be localized to the vascular endothelium. Furthermore, estrone-3-sulfate transport into OATP2B1-overexpressing Madin-Darby canine kidney II cells was inhibited by various drugs, including atorvastatin, simvastatin, cerivastatin, glyburide (INN, glibenclamide), and gemfibrozil, with the most pronounced effect being found for atorvastatin (inhibition constant, 0.7 ± 0.4 μmol/L). Whereas simvastatin (lactone) itself was not transported by OATP2B1, atorvastatin was identified as a high-affinity substrate for OATP2B1 (Michaelis-Menten constant, 0.2 μmol/L) by direct transport measurement via liquid chromatography–tandem mass spectrometry.Conclusion: OATP2B1 is a high-affinity uptake transporter for atorvastatin and is expressed in the vascular endothelium of the human heart, suggesting its involvement in cardiac uptake of atorvastatin.Clinical Pharmacology & Therapeutics (2006) 80, 607–620; doi: 10.1016/j.clpt.2006.09.010 [ABSTRACT FROM AUTHOR]

Published

2006

13. Disposition and sterol-lowering effect of ezetimibe are influenced by single-dose coadministration of rifampin, an inhibitor of multidrug transport proteins*.

Author

Oswald, Stefan, Giessmann, Thomas, Luetjohann, Dieter, Wegner, Danilo, Rosskopf, Dieter, Weitschies, Werner, and Siegmund, Werner

Subjects

RIFAMPIN, DRUG administration, STEROLS, MULTIDRUG resistance, GLUCURONIDES, P-glycoprotein

Abstract

Background and Aims: The disposition and sterol-lowering effect of ezetimibe are associated with long-lasting enterosystemic circulation, which is initiated by secretion of ezetimibe and its glucuronide via intestinal P-glycoprotein (P-gp) (ABCB1) and the multidrug resistance-associated protein 2 (MRP2) (ABCC2) into gut lumen. Hepatic uptake and secretion may contribute to recycling. To obtain deeper insight into the intestinal and hepatic processes, the disposition of ezetimibe was studied in the presence of rifampin (INN, rifampicin), a modulator of P-gp, MRP2, and hepatic organic anion (uptake) transporting polypeptides (OATPs) (SLCOs).Methods: The disposition of ezetimibe (20 mg orally) alone and after coadministration of rifampin (600 mg orally) was measured in a crossover study of 8 healthy subjects with the SLCO1B1 *1a/*1a genotype. Concentrations of ezetimibe and its glucuronide in serum, urine, and feces, as well as cholesterol, lathosterol, and the plant sterols campesterol and sitosterol in serum, were quantified by use of liquid chromatography and gas chromatography with mass spectrometric detection.Results: After rifampin administration, the maximum serum concentrations of ezetimibe and its glucuronide were significantly elevated (12.0 ± 4.20 ng/mL versus 4.67 ± 2.72 ng/mL, P = .017, and 282 ± 73.8 ng/mL versus 107 ± 35.3 ng/mL, P = .012, respectively). The area under the curve of ezetimibe was not affected (102 ± 37.6 ng · h/mL versus 140 ± 86.3 ng · h/mL, P = not significant), whereas that of the glucuronide was markedly increased (2150 ± 687 ng · h/mL versus 1030 ± 373 ng · h/mL, P = .012). Renal clearance remained unchanged. Fecal excretion of ezetimibe was markedly decreased (7.6 ± 2.2 mg versus 10.4 ± 1.8 mg, P = .036), whereas renal excretion of the glucuronide was strongly elevated (4.8 ± 1.9 mg versus 2.0 ± 1.2 mg, P = .049) after coadministration. The onset of a significant sterol-lowering effect of ezetimibe was significantly shortened by rifampin coadministration.Conclusions: Coadministration of rifampin increases the maximum serum concentrations of ezetimibe but reduces its enterosystemic recycling, most likely by inhibition of the secretion of ezetimibe and its glucuronide via P-gp and MRP2.Clinical Pharmacology & Therapeutics (2006) 80, 477–485; doi: 10.1016/j.clpt.2006.07.006 [ABSTRACT FROM AUTHOR]

Published

2006

14. Intestinal expression of P-glycoprotein (ABCB1), multidrug resistance associated protein 2 (ABCC2), and uridine diphosphate–glucuronosyltransferase 1A1 predicts the disposition and modulates the effects of the cholesterol absorption inhibitor ezetimibe in humans*

Author

Oswald, Stefan, Haenisch, Sierk, Fricke, Christiane, Sudhop, Thomas, Remmler, Cornelia, Giessmann, Thomas, Jedlitschky, Gabriele, Adam, Ulrike, Dazert, Eike, Warzok, Rolf, Wacke, Wolfram, Cascorbi, Ingolf, Kroemer, Heyo K., Weitschies, Werner, von Bergmann, Klaus, and Siegmund, Werner

Subjects

ANTICHOLESTEREMIC agents, PHARMACOKINETICS, P-glycoprotein, MULTIDRUG resistance, GLUCURONOSYLTRANSFERASE, POLYMERASE chain reaction, GLUCURONIDES

Abstract

Background and Aims: Ezetimibe is an inhibitor of the cholesterol uptake transporter Niemann-Pick C1-like protein (NPC1L1). Target concentrations can be influenced by intestinal uridine diphosphate–glucuronosyltransferases (UGTs) and the efflux transporters P-glycoprotein (P-gp) (ABCB1) and multidrug resistance associated protein 2 (MRP2) (ABCC2). This study evaluates the contribution of these factors to the disposition and cholesterol-lowering effect of ezetimibe before and after induction of UGT1A1, P-gp, and MRP2 with rifampin (INN, rifampicin).Methods: Serum concentrations of ezetimibe, as well as its glucuronide, and the plant sterols campesterol and sitosterol (surrogate for cholesterol absorption) were studied in 12 healthy subjects before and after rifampin comedication. In parallel, duodenal expression of UGT1A1, P-gp, MRP2, and NPC1L1 was quantified by use of real-time reverse transcriptase–polymerase chain reaction and quantitative immunohistochemical evaluation. The affinity of ezetimibe and its glucuronide to P-gp and MRP2 was assessed in P-gp– overexpressing Madin-Darby canine kidney II cells and P-gp–containing or MRP2-containing inside-out vesicles.Results: Up-regulation of intestinal P-gp, MRP2, and UGT1A1 (but not of NPC1L1) by rifampin was associated with markedly decreased areas under the curve of ezetimibe and its glucuronide (116 ± 78.1 ng·h/mL versus 49.9 ± 31.0 ng·h/mL and 635 ± 302 ng·h/mL versus 225 ± 86.4 ng·h/mL, respectively; both P = .002) and increased intestinal clearances (2400 ± 1560 mL/min versus 5500 ± 4610 mL/min [P = .003] and 76.6 ± 113 mL/min versus 316 ± 457 mL/min [P = .010], respectively) and nearly abolished sterol-lowering effects. Intestinal expression of UGT1A1, ABCB1, and ABCC2 was inversely correlated with the effects of ezetimibe on plant sterol serum concentrations. Parallel in vitro studies confirmed that ezetimibe glucuronide is a high-affinity substrate of MRP2 and has a low affinity to P-gp whereas ezetimibe interacts with P-gp and MRP2.Conclusions: The disposition and sterol-lowering effects of ezetimibe are modified by metabolic degradation of the drug via intestinal UGT1A1 and either intestinal or hepatic secretion (or both) via P-gp and MRP2.Clinical Pharmacology & Therapeutics (2006) 79, 196–196; doi: 10.1016/j.clpt.2005.11.004 [ABSTRACT FROM AUTHOR]

Published

2006