5 results on '"Meyer, Marleen J."'
Search Results
2. OCT1 Polyspecificity—Friend or Foe?
- Author
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Meyer, Marleen J. and Tzvetkov, Mladen V.
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METFORMIN ,ORGANIC cation transporters ,HUMAN genetic variation - Abstract
Summary The polyspecificity of OCT1 sets many hurdles for understanding the transport mechanisms of OCT1 and for the translation of our knowledge about OCT1 into clinical practice. Shown are the effects of OCT1 alleles *2, *7, *10,*11, and *13, which are known to have strongly substrate-specific effects on transport ([40]), on the OCT1-mediated uptake of 11 substrates. Approaching polyspecificity from the transporter side, the species-specific differences in OCT1 transport can be used as a tool to identify domains or even single amino acids responsible for the substrate-specific effects on transport. Keywords: OCT1; SLC22A1; polyspecificity; structure-to-function relationship; ligand-transporter interaction; species differences; genetic variants EN OCT1 SLC22A1 polyspecificity structure-to-function relationship ligand-transporter interaction species differences genetic variants 1 5 5 06/08/21 20210602 NES 210602 Introduction Polyspecificity is one of the most characteristic features of organic cation transporter OCT1 (SLC22A1). [Extracted from the article]
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- 2021
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3. Pharmacokinetic Drug‐Drug Interactions Between Trospium Chloride and Ranitidine Substrates of Organic Cation Transporters in Healthy Human Subjects.
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Abebe, Bayew Tsega, Weiss, Michael, Modess, Christiane, Tadken, Tobias, Wegner, Danilo, Meyer, Marleen J., Schwantes, Ulrich, Neumeister, Claudia, Scheuch, Eberhard, Schulz, Hans‐Ulrich, Tzvetkov, Mladen, and Siegmund, Werner
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BIOAVAILABILITY ,HUMAN microbiota ,CELL lines ,COLON (Anatomy) ,DRUG interactions ,GASTROINTESTINAL motility ,INTESTINAL absorption ,SMALL intestine ,INTRAVENOUS therapy ,KIDNEYS ,MICROBIAL sensitivity tests ,ORAL drug administration ,RANITIDINE ,MUSCARINIC antagonists ,IN vitro studies ,MEMBRANE transport proteins ,IN vivo studies - Abstract
Trospium chloride, a muscarinic receptor blocker, is poorly absorbed with different rates from areas in the jejunum and the cecum/ascending colon. To evaluate whether organic cation transporter (OCT) 1, OCT2 and multidrug and toxin extrusion (MATE) 1 and MATE2‐K are involved in pharmacokinetics, competitions with ranitidine, a probe inhibitor of the cation transporters, were evaluated in transfected HEK293 cells. Furthermore, a drug interaction study with trospium chloride after intravenous (2 mg) and oral dosing (30 mg) plus ranitidine (300 mg) was performed in 12 healthy subjects and evaluated by noncompartmental analysis and population pharmacokinetic modeling. Ranitidine inhibited OCT1, OCT2, MATE1, and MATE2‐K with half maximal inhibitory concentration values of 186 ± 25 µM, 482 ± 105 µM, 134 ± 37 µM, and 35 ± 11 µM, respectively. In contrast to our hypothesis, coadministration of ranitidine did not significantly decrease oral absorption of trospium. Instead, renal clearance was lowered by ∼15% (530 ± 99 vs 460 ± 120 mL/min; P <.05). It is possible that ranitidine was not available in competitive concentrations at the major colonic absorption site, as the inhibitor is absorbed in the small intestine and undergoes degradation by microbiota. The renal effects apparently result from inhibition of MATE1 and/or MATE2‐K by ranitidine as predicted by in vitro to in vivo extrapolation. However, all pharmacokinetic changes were not of clinical relevance for the drug with highly variable pharmacokinetics. Intravenous trospium significantly lowered mean absorption time and relative bioavailability of ranitidine, which was most likely caused by muscarinic receptor blocking effects on intestinal motility and water turnover. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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4. Isobutyrylcarnitine as a Biomarker of OCT1 Activity and Interspecies Differences in its Membrane Transport.
- Author
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Jensen, Ole, Matthaei, Johannes, Klemp, Henry G., Meyer, Marleen J., Brockmöller, Jürgen, and Tzvetkov, Mladen V.
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BIOLOGICAL transport ,ORGANIC cation transporters ,GENOME-wide association studies ,SUMATRIPTAN ,BIOMARKERS ,PHENOTYPES - Abstract
Genome-wide association studies have identified an association between isobutyrylcarnitine (IBC) and organic cation transporter 1 (OCT1) genotypes. Higher IBC blood concentrations in humans with active OCT1 genotypes and experimental studies with mouse OCT1 suggested an OCT1-mediated efflux of IBC. In this study, we wanted to confirm the suggested use of IBC as an endogenous biomarker of OCT1 activity and contribute to a better understanding of the mechanisms behind the association between blood concentrations of carnitine derivatives and OCT1 genotype. Blood and urine IBC concentrations were quantified in healthy volunteers regarding intra- and interindividual variation and correlation with OCT1 genotype and with pharmacokinetics of known OCT1 substrates. Furthermore, IBC formation and transport were studied in cell lines overexpressing OCT1 and its naturally occurring variants. Carriers of high-activity OCT1 genotypes had about 3-fold higher IBC blood concentrations and 2-fold higher amounts of IBC excreted in urine compared to deficient OCT1. This was likely due to OCT1 function, as indicated by the fact that IBC correlated with the pharmacokinetics of known OCT1 substrates, like fenoterol, and blood IBC concentrations declined with a 1 h time delay following peak concentrations of the OCT1 substrate sumatriptan. Thus, IBC is a suitable endogenous biomarker reflecting both, human OCT1 (hOCT1) genotype and activity. While murine OCT1 (mOCT1) was an efflux transporter of IBC, hOCT1 exhibited no IBC efflux activity. Inhibition experiments confirmed this data showing that IBC and other acylcarnitines, like butyrylcarnitine, 2-methylbutyrylcarnitine, and hexanoylcarnitine, showed reduced efflux upon inhibition of mOCT1 but not of hOCT1. IBC and other carnitine derivatives are endogenous biomarkers of hOCT1 genotype and phenotype. However, in contrast to mice, the mechanisms underlying the IBC-OCT1 correlation in humans is apparently not directly the OCT1-mediated efflux of IBC. A plausible explanation could be that hOCT1 mediates cellular concentrations of specific regulators or co-substrates in lipid and energy metabolism, which is supported by our in vitro finding that at baseline intracellular IBC concentration is about 6-fold lower alone by OCT1 overexpression. [ABSTRACT FROM AUTHOR]
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- 2021
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5. Effects of a Common Eight Base Pairs Duplication at the Exon 7-Intron 7 Junction on Splicing, Expression, and Function of OCT1.
- Author
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Römer, Sarah, Meyer, Marleen J., Klein, Kathrin, Schneider, Lennart V., Matthaei, Johannes, Tzvetkova, Ana, Łapczuk-Romańska, Joanna, Gaedcke, Jochen, Droździk, Marek, Brockmöller, Jürgen, Nies, Anne T., and Tzvetkov, Mladen V.
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ORGANIC cation transporters ,ORGANIC anion transporters ,BASE pairs ,RNA sequencing ,SUMATRIPTAN ,DRUG efficacy - Abstract
Organic cation transporter 1 (OCT1, SLC22A1) is localized in the sinusoidal membrane of human hepatocytes and mediates hepatic uptake of weakly basic or cationic drugs and endogenous compounds. Common amino acid substitutions in OCT1 were associated with altered pharmacokinetics and efficacy of drugs like sumatriptan and fenoterol. Recently, the common splice variant rs35854239 has also been suggested to affect OCT1 function. rs35854239 represents an 8 bp duplication of the donor splice site at the exon 7-intron 7 junction. Here we quantified the extent to which this duplication affects OCT1 splicing and, as a consequence, the expression and the function of OCT1. We used pyrosequencing and deep RNA-sequencing to quantify the effect of rs35854239 on splicing after minigene expression of this variant in HepG2 and Huh7 cells and directly in human liver samples. Further, we analyzed the effects of rs35854239 on OCT1 mRNA expression in total, localization and activity of the resulting OCT1 protein, and on the pharmacokinetics of sumatriptan and fenoterol. The 8 bp duplication caused alternative splicing in 38% (deep RNA-sequencing) to 52% (pyrosequencing) of the minigene transcripts when analyzed in HepG2 and Huh7 cells. The alternatively spliced transcript encodes for a truncated protein that after transient transfection in HEK293 cells was not localized in the plasma membrane and was not able to transport the OCT1 model substrate ASP
+ . In human liver, however, the alternatively spliced OCT1 transcript was detectable only at very low levels (0.3% in heterozygous and 0.6% in homozygous carriers of the 8 bp duplication, deep RNA-sequencing). The 8 bp duplication was associated with a significant reduction of OCT1 expression in the human liver, but explained only 9% of the general variability in OCT1 expression and was not associated with significant changes in the pharmacokinetics of sumatriptan and fenoterol. Therefore, the rs35854239 variant only partially changes splicing, causing moderate changes in OCT1 expression and may be of only limited therapeutic relevance. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
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