Marleen Julia Meyer-Tönnies’s research while affiliated with University of Greifswald and other places

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Publications (4)


Sex‐Dependent Effects of CYP2D6 on the Pharmacokinetics of Berberine in Humans
  • Article

November 2024

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20 Reads

Clinical Pharmacology & Therapeutics

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Marleen J. Meyer‐Tönnies

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Felix Morof

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[...]

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An over‐the‐counter product berberine (a major alkaloid in goldenseal) is a substrate of the uptake transporter OCT1 and the metabolizing enzyme CYP2D6. The two genes exhibit common functional polymorphisms. Approximately 9% of Europeans and white Americans are either poor CYP2D6 metabolizers or poor OCT1 transporters. In this study, we investigated the effects of OCT1 and CYP2D6 polymorphisms on berberine pharmacokinetics in humans. We confirmed in vitro that berberine is an OCT1 substrate ( K M of 7.0 μM, CL int of 306 ± 29 μL/min/mg). Common OCT1 alleles *3 to *6 showed uptake reduced by at least 65% and Oct1/2 knockout mice showed 3.2‐fold higher AUCs in liver perfusion experiments. However, in humans, poor OCT1 transporters did not show any differences in berberine pharmacokinetics compared with reference participants. In contrast, CYP2D6 polymorphisms significantly affected berberine metabolism, but exclusively in females. Females who were poor CYP2D6 metabolizers had an 80% lower M1‐to‐berberine ratio. General linear model analyses suggest strong synergistic, rather than additive, effects between female sex and CYP2D6 genotype. Overall, berberine displayed low oral bioavailability, yet females had a 2.8‐fold higher AUC and a 3.6‐fold higher C max than males ( P < 0.001). These effects were only partially attributable to the sex‐ CYP2D6 genotype interaction. In conclusion, despite berberine being an OCT1 substrate, OCT1 deficiency did not affect berberine pharmacokinetics in humans. In contrast, CYP2D6 emerges as a critical enzyme for berberine metabolism in females, but not in males, highlighting sex‐specific differences. We suggest that factors beyond CYP2D6 metabolism are determining berberine's systemic exposure, especially in males (NCT05463003).


Fig. 2 Partial area under the concentration-time curve from 0 to 6 h (AUC 0-6 h ) of yohimbine at baseline and after intake of hydroxychloroquine (HCQ) with or without pantoprazole in 23 healthy volunteers. Geometric mean with 95% confidence interval for normal metabolizers of CYP2D6 (NM; n = 11), intermediate metabolizers (IM; n = 10) and poor metabolizers (PM; n = 2)
Evaluation of Hydroxychloroquine as a Perpetrator on Cytochrome P450 (CYP) 3A and CYP2D6 Activity with Microdosed Probe Drugs in Healthy Volunteers
  • Article
  • Full-text available

December 2023

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47 Reads

European Journal of Drug Metabolism and Pharmacokinetics

Although polypharmacy is a particular challenge in daily rheumatological practice, clinical research on the effects of hydroxychloroquine (HCQ), a commonly used drug for patients with rheumatic diseases, is sparse on cytochrome P450 (CYP)-mediated metabolism. We have shown that pre-treatment with pantoprazole does not alter HCQ absorption in healthy volunteers. In this paper, we report the effects of a single 400 mg dose of HCQ on specific CYP3A and CYP2D6 substrates in healthy volunteers. In the trial, participants were randomized into two groups (HCQ plus a 9-day course of pantoprazole, or HCQ only). As a secondary endpoint, the effects of a single oral dose of HCQ on the exposure of the oral microdosed CYP3A probe drug midazolam (30 μg) and the oral microdosed CYP2D6 probe drug yohimbine (50 μg) were studied in 23 healthy volunteers (EudraCT no. 2020-001470-30, registered 31 March 2020). The exposure of the probe drugs after intake of HCQ compared with baseline values was quantified by the partial area under the plasma concentration–time curve 0–6 h after administration (AUC0–6 h) for yohimbine and the partial AUC2–4 h for midazolam. Under HCQ, yohimbine AUC0–6 h was unchanged, independent of CYP2D6 genotypes and pantoprazole exposure. Midazolam AUC2–4 h was 25% higher on the day of HCQ administration than at baseline (p = 0.0007). This significant increase was driven by the pantoprazole subgroup, which showed a 46% elevation of midazolam AUC2–4 h as compared with baseline (p < 0.0001). The ratio of midazolam to 1-OH-midazolam partial AUC2–4 h significantly increased from 3.03 ± 1.59 (baseline) to 3.60 ± 1.56 (HCQ) in the pantoprazole group (p = 0.0026). In conclusion, we observed an increased midazolam exposure most likely related to pantoprazole.

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The end of the beginning in understanding SLC22 polyspecificity

April 2023

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10 Reads

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2 Citations

Trends in Pharmacological Sciences

SLC22 transporters involved in drug elimination and organ distribution are polyspecific. Now, the first cryo-EM structure of SLC22A3 (OCT3) is available from the Sitte and Korkhov groups. It paves the way for better understanding OCT3 function and for revealing the exact mechanisms conferring polyspecificity of the whole SLC22 family.


Figure 2. Chemical structures of potential substrates of OCT1 investigated in this study grouped by their charge at physiological pH.
Figure 3. Validation of HEK293 cells expressing variant OCT1 D474N. (A). Scheme of the plasmid with its integrated gene and the target position of the three PCR products. (B). The three validation PCRs show the presence of the gene-of-interest (PCR1, 3137 bp), the integration of the plasmid (PCR2, 519 bp), and the exclusion of multiple integrations (PCR3, 214 bp). (C). The gene expression of the variant was determined via quantitative real-time PCR at one early cell line passage and is shown in comparison to the wild-type. (D). The immunofluorescence staining shows the subcellular localisation of OCT1 wild-type and variant using confocal microscopy (magnification 100 ×) with co-staining of OCT1 (green) and Na + /K + -ATPase (red).
HPLC, detection and transport assay parameters.
Kinetic parameters of substrates OCT1.
Summary of the transport data for OCT1, OCT2, and OCT3.
Atypical Substrates of the Organic Cation Transporter 1

November 2022

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112 Reads

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14 Citations

Biomolecules

The human organic cation transporter 1 (OCT1) is expressed in the liver and mediates hepatocellular uptake of organic cations. However, some studies have indicated that OCT1 could transport neutral or even anionic substrates. This capability is interesting concerning protein-substrate interactions and the clinical relevance of OCT1. To better understand the transport of neutral, anionic, or zwitterionic substrates, we used HEK293 cells overexpressing wild-type OCT1 and a variant in which we changed the putative substrate binding site (aspartate474) to a neutral amino acid. The uncharged drugs trimethoprim, lamivudine, and emtricitabine were good substrates of hOCT1. However, the uncharged drugs zalcitabine and lamotrigine, and the anionic levofloxacin, and prostaglandins E2 and F2α, were transported with lower activity. Finally, we could detect only extremely weak transport rates of acyclovir, ganciclovir, and stachydrine. Deleting aspartate474 had a similar transport-lowering effect on anionic substrates as on cationic substrates, indicating that aspartate474 might be relevant for intra-protein, rather than substrate-protein, interactions. Cellular uptake of the atypical substrates by the naturally occurring frequent variants OCT1*2 (methionine420del) and OCT1*3 (arginine61cysteine) was similarly reduced, as it is known for typical organic cations. Thus, to comprehensively understand the substrate spectrum and transport mechanisms of OCT1, one should also look at organic anions.

Citations (1)


... Drugs in Q3 (false negatives, FN) have limited brain penetration but are unlikely to be MDR1 substrates. Drugs in Q1 (false positives, FP) are MDR1 substrates, but their brain penetration is not limited, probably due to other mechanisms, such as uptake or high passive permeability overwrite efflux, e.g., for trimethoprim and ondansetron [40,41]. Molecules in Q4 (true negatives, TN) can freely access the brain (Figure 2). ...

Reference:

Applicability of MDR1 Overexpressing Abcb1KO-MDCKII Cell Lines for Investigating In Vitro Species Differences and Brain Penetration Prediction
Atypical Substrates of the Organic Cation Transporter 1

Biomolecules