Evaluation of Hepatic Disposition of Paroxetine Using Sandwich-Cultured Rat and Human Hepatocytes

Matsunaga, Norikazu; Nunoya, Ken‐ichi; Okada, Masahiro; Ogawa, Michio; Tamai, Ikumi

doi:10.1124/dmd.112.049817

Cited by 16 publications

(15 citation statements)

References 33 publications

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“…58 investigated the hepatic disposition of troglitazone using SCH and demonstrated biliary excretion of its sulfate and glucuronide. Matsunaga et al 59 evaluated hepatic disposition of paroxetine in rat and human SCH and showed well-preserved species differences in its hepatic disposition, which includes a series of metabolic steps followed by biliary excretion of metabolites in SCH. In addition, Tetsuka et al 61 investigated a series of events in glucuronidation and biliary excretion of mycophenolic acid (MPA).…”

Section: Application Of Sandwich-cultured Hepatocyte Models; Overall mentioning

confidence: 99%

Recent Progress in Hepatocyte Culture Models and Their Application to the Assessment of Drug Metabolism, Transport, and Toxicity in Drug Discovery: The Value of Tissue Engineering for the Successful Development of a Microphysiological System

Tetsuka

Ohbuchi

Tabata

2017

Journal of Pharmaceutical Sciences

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Section: Application Of Sandwich-cultured Hepatocyte Models; Overall mentioning

confidence: 99%

Recent Progress in Hepatocyte Culture Models and Their Application to the Assessment of Drug Metabolism, Transport, and Toxicity in Drug Discovery: The Value of Tissue Engineering for the Successful Development of a Microphysiological System

Tetsuka

Ohbuchi

Tabata

2017

Journal of Pharmaceutical Sciences

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“…15,16) Moreover, there are some reports investigating in vitro biliary excretion of metabolites in addition to the parent compound in SCH. 17,18) Mycophenolic acid (MPA), an inosine 5A-monophosphate dehydrogenase inhibitor, is an immunosuppressive agent to prevent acute rejection in organ transplantation. MPA is frequently administered as a pro-drug (mycophenolic acid mofetil: MMF) that is rapidly converted to MPA in vivo.…”

Section: Introductionmentioning

confidence: 99%

Glucuronidation and Subsequent Biliary Excretion of Mycophenolic Acid in Rat Sandwich-cultured Hepatocytes

Tetsuka¹,

Gerst²,

Tamura³

et al. 2014

Drug Metabolism and Pharmacokinetics

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Rat sandwich-cultured hepatocytes (SCH) were used to correlate the in vitro hepatic disposition of mycophenolic acid (MPA) with published in vivo data, as well as mechanistic studies on drug-drug interaction. The major metabolite of MPA in SCH was 7-O-glucuronide (MPAG) followed by acyl-glucuronide (AcMPAG). MPAG and AcMPAG, but not MPA, showed significant in vitro biliary excretion with biliary excretion indexes (BEI) of 40% for MPAG and 45% for AcMPAG. While these BEIs were similar, the biliary excretion amount (BEA) of MPAG (120 pmol/mg protein) was orders of magnitude higher than that of AcMPAG (0.34 pmol/mg protein). Since MPAG is the major metabolite in in vivo bile, we propose that BEA is a better qualifier of biliary excretion. Quercetin inhibited MPAG and AcMPAG production, while chrysin inhibited only MPAG production, showing that chrysin is not a pan-glucuronidation inhibitor. Cyclosporin A (CysA) reduced the BEI of MPAG and increased intracellular MPA accumulation without changing MPAG amounts. These results suggest that CysA causes inhibition of biliary excretion of MPAG, as well as a mixed inhibition of glucuronidation of MPA and sinusoidal efflux of MPA/MPAG. In conclusion, the present study demonstrates a good agreement of hepatic MPA disposition between SCH and in vivo rats.

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“…One of the most valuable applications of primary hepatocytes is to evaluate drug biliary excretion [4,50]. Here, we determined multiple transporter substrates' hepatobiliary disposition in the optimized iHep cells and compared that with primary hepatocytes.…”

Section: Discussionmentioning

confidence: 99%

Optimized Hepatocyte-Like Cells with Functional Drug Transporters Directly-Reprogrammed from Mouse Fibroblasts and their Potential in Drug Disposition and Toxicology

Yao²,

Ji³

et al. 2016

Cell Physiol Biochem

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Background/Aims: To develop a suitable hepatocyte-like cell model that could be a substitute for primary hepatocytes with essential transporter expression and functions. Induced hepatocyte-like (iHep) cells directly reprogrammed from mice fibroblast cells were fully characterized. Methods: Naïve iHep cells were transfected with nuclear hepatocyte factor 4 alpha (Hnf4α) and treated with selected small molecules. Sandwich cultured configuration was applied. The mRNA and protein expression of transporters were determined by Real Time PCR and confocal. The functional transporters were estimated by drug biliary excretion measurement. The inhibition of bile acid efflux transporters by cholestatic drugs were assessed. Results: The expression and function of p-glycoprotein (P-gp), bile salt efflux pump (Bsep), multidrug resistance-associated protein 2 (Mrp2), Na⁺-dependent taurocholate cotransporting polypeptide (Ntcp), and organic anion transporter polypedtides (Oatps) in iHep cells were significantly improved after transfection of hepatocyte nuclear factor 4 alpha (Hnf4α) and treatment with selected inducers. In vitro intrinsic biliary clearances (CL_b,int) of optimized iHep cells for rosuvastatin, methotrexate, d8-TCA (deuterium-labeled sodium taurocholate acid) and DPDPE ([D-Pen^2,5] enkephalin hydrate) correlated well with that of sandwich-cultured primary mouse hepatocytes (SCMHs) (r² = 0.984). Cholestatic drugs were evaluated and the results were compared well with primary mice hepatocytes. Conclusion: The optimized iHep cells expressed functional drug transporters and were comparable to primary mice hepatocytes. This study suggested direct reprogramming could provide a potential alternative to primary hepatocytes for drug candidate hepatobiliary disposition and hepatotoxicity screening.

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Evaluation of Hepatic Disposition of Paroxetine Using Sandwich-Cultured Rat and Human Hepatocytes

Cited by 16 publications

References 33 publications

Recent Progress in Hepatocyte Culture Models and Their Application to the Assessment of Drug Metabolism, Transport, and Toxicity in Drug Discovery: The Value of Tissue Engineering for the Successful Development of a Microphysiological System

Recent Progress in Hepatocyte Culture Models and Their Application to the Assessment of Drug Metabolism, Transport, and Toxicity in Drug Discovery: The Value of Tissue Engineering for the Successful Development of a Microphysiological System

Glucuronidation and Subsequent Biliary Excretion of Mycophenolic Acid in Rat Sandwich-cultured Hepatocytes

Optimized Hepatocyte-Like Cells with Functional Drug Transporters Directly-Reprogrammed from Mouse Fibroblasts and their Potential in Drug Disposition and Toxicology

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