Pil Joung Cho scite author profile

Loxoprofen, a propionic acid derivative, non-steroidal anti-inflammatory drug (NSAID) is a prodrug that is reduced to its active metabolite, trans-alcohol form (Trans-OH) by carbonyl reductase enzyme in the liver. Previous studies demonstrated the hydroxylation and glucuronidation of loxoprofen. However, the specific enzymes catalyzing its metabolism have yet to be identified. In the present study, we investigated metabolic enzymes, such as cytochrome P450 (CYP) and UDP-glucuronosyltransferase (UGT), which are involved in the metabolism of loxoprofen. Eight microsomal metabolites of loxoprofen were identified, including two alcohol metabolites (M1 and M2), two mono-hydroxylated metabolites (M3 and M4), and four glucuronide conjugates (M5, M6, M7, and M8). Based on the results for the formation of metabolites when incubated in dexamethasone-induced microsomes, incubation with ketoconazole, and human recombinant cDNA-expressed cytochrome P450s, we identified CYP3A4 and CYP3A5 as the major CYP isoforms involved in the hydroxylation of loxoprofen (M3 and M4). Moreover, we identified that UGT2B7 is the major UGT isoform catalyzing the glucuronidation of loxoprofen and its alcoholic metabolites. Further experimental studies should be carried out to determine the potency and toxicity of these identified metabolites of loxoprofen, in order to fully understand of mechanism of loxoprofen toxicity.

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Characterization of CYPs and UGTs Involved in Human Liver Microsomal Metabolism of Osthenol

Cho

Paudel

Lee

et al. 2018

Pharmaceutics

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Osthenol is a prenylated coumarin isolated from the root of Angelica koreana and Angelica dahurica, and is an O-demethylated metabolite of osthole in vivo. Its various pharmacological effects have been reported previously. The metabolic pathway of osthenol was partially confirmed in rat osthole studies, and 11 metabolic products were identified in rat urine. However, the metabolic pathway of osthenol in human liver microsomes (HLM) has not been reported. In this study, we elucidated the structure of generated metabolites using a high-resolution quadrupole-orbitrap mass spectrometer (HR-MS/MS) and characterized the major human cytochrome P450 (CYP) and uridine 5′-diphospho-glucuronosyltransferase (UGT) isozymes involved in osthenol metabolism in human liver microsomes (HLMs). We identified seven metabolites (M1-M7) in HLMs after incubation in the presence of nicotinamide adenine dinucleotide phosphate (NADPH) and uridine 5′-diphosphoglucuronic acid (UDPGA). As a result, we demonstrated that osthenol is metabolized to five mono-hydroxyl metabolites (M1-M5) by CYP2D6, 1A2, and 3A4, respectively, a 7-O-glucuronide conjugate (M6) by UGT1A9, and a hydroxyl-glucuronide (M7) from M5 by UGT1A3 in HLMs. We also found that glucuronidation is the dominant metabolic pathway of osthenol in HLMs.

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Selective Inhibitory Effect of Osthenol on Human Cytochrome 2C8

Cho

Nam

Lee

et al. 2018

Bulletin Korean Chem Soc

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Osthenol is a furanocoumarin with anti-tumor, anti-inflammatory, and anti-viral activity. It is present in various citrus juices and fruits; however, its inhibitory effects on cytochrome P450 (CYP) enzyme activity, in the context of herb-drug interaction (HDI) prediction, have not been previously studied. In this study, osthenol was chemically synthesized in order to identify potential HDIs. Its inhibitory effect on eight CYP isoforms and the underlying mechanism of inhibition were investigated by using cocktail assays and liquid chromatography-tandem mass spectrometry in pooled human liver microsomes. The inhibitory effect of osthenol on CYP2C8-catalyzed paclitaxel hydroxylation was selective and dose-dependent, but not time-dependent. The IC 50 value was 2.8 μM. Additionally, osthenol displayed mixed mode inhibition with a relatively low Ki value of 0.96 μM, which is indicative of the potential for HDIs with co-administered CYP2C8 substrates. To the best of our knowledge, this is the first report of selective inhibition of CYP2C8 by osthenol.

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Investigation of nonalcoholic fatty liver disease-induced drug metabolism by comparative global toxicoproteomics

Kwon

et al. 2018

Toxicology and Applied Pharmacology

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Identification of specific UGT1A9‐mediated glucuronidation of licoricidin in human liver microsomes

Cho

Kim

Lee

et al. 2019

Biopharm & Drug Disp

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Licoricidin is a major prenylated isoflavone of Glycyrrhiza uralensis Fisch. (Leguminosae), and its pharmacological effects have been reported frequently. Typically, flavonoids having multiple hydroxyl groups are unambiguous substrates for glucuronyl conjugation by UDP‐glucuronosyltransferases (UGTs). The pharmacological effects of flavonoids are derived from the conjugation of glucuronide to yield the bioactive metabolite. Here, the metabolism of licoricidin in pooled human liver microsomes (HLMs) was investigated using high‐resolution quadrupole‐orbitrap mass spectrometry. One metabolite (M1) was identified in HLMs after incubation with licoricidin in the presence of uridine 5′‐diphosphoglucuronic acid (UDPGA) and NADPH. The structure of M1 was determined as a monoglucuronyl licoricidin, which was selectively produced by UGT1A9. Licoricidin showed a higher metabolic ratio and rapid metabolism with the recombinant human UGT1A9 than mycophenolic acid, a well‐known UGT1A9 substrate. In conclusion, the selective formation of 7‐glucuronyl licoricidin by UGT1A9 in HLMs could serve as a new selective substrate to determine the activity of UGT1A9 in vitro.

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Pil Joung Cho

Exploring the Metabolism of Loxoprofen in Liver Microsomes: The Role of Cytochrome P450 and UDP-Glucuronosyltransferase in Its Biotransformation

Characterization of CYPs and UGTs Involved in Human Liver Microsomal Metabolism of Osthenol

Selective Inhibitory Effect of Osthenol on Human Cytochrome 2C8

Investigation of nonalcoholic fatty liver disease-induced drug metabolism by comparative global toxicoproteomics

Identification of specific UGT1A9‐mediated glucuronidation of licoricidin in human liver microsomes

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