A model system for prediction of the in vivo metabolism of designer drugs using three-dimensional culture of rat and human hepatocytes

Kanamori, Tatsuyuki; Kuwayama, Kenji; Tsujikawa, Kenji; Miyaguchi, Hajime; Togawa-Iwata, Yuko; Inoue, Hiroyuki

doi:10.1007/s11419-011-0116-3

Cited by 4 publications

(4 citation statements)

References 16 publications

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“…Fandino et al did note appreciable variability of enzymatic activity between microsomal preparations derived from various tissues, specifically a lack of oxidative metabolite production in kidneyand brain-based assays. However, as has been noted in other studies, xenobiotic metabolism can vary both qualitatively and quantitatively between species (Kanamori et al, 2011;Roberts et al, 1991), suggesting caution when drawing conclusions based on cross-species assays. Species-dependent differences in COC metabolite profiles were recently examined by Yao et al, demonstrating not only quantitative and qualitative shifts in metabolism but also suggesting that the primary route of oxidative COC metabolism may differ between species (Yao et al, 2013).…”

Section: Discussionmentioning

confidence: 77%

“…Recently, in vitro assays have been employed to designate major metabolites of ''designer drugs,'' including amphetamine, phencyclidine and D 9 -tetrahydrocannabinol (THC) analogs (Kanamori et al, 2011;Peters & Meyer, 2011). These studies were able to facilitate the development of analytical detection methods for numerous emerging designer drug analogs whose in vivo metabolism had not been reported.…”

Section: Discussionmentioning

confidence: 99%

“…In the drug planning and development stages, pharmaceutical researchers utilize various in vitro assays to model the in vivo production of potentially toxic and reactive metabolites, in addition to detoxified products, by both Phase I and Phase II biotransformation (Evans et al, 2005). To a much more limited extent, these assays have also been employed by forensic toxicologists to designate primary metabolic products of abused substances (Kanamori et al, 2011;Peters & Meyer, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Evaluation ofin vitrometabolic systems for common drugs of abuse. 1. Cocaine

Schneider

DeCaprio

2013

Xenobiotica

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This study examined the efficacy of four common in vitro assay systems in producing metabolic profiles consistent with in vivo data for drugs of abuse. Cocaine (COC) was selected for this study because of its complex biotransformation pathways, diverse metabolic processes and because extensive Phase I and Phase II metabolomic examination of COC has not yet been reported by means of in vitro assay. COC metabolism was assessed with a series of common in vitro assay systems (human liver microsomes, cytosol and human liver S9 fraction and horseradish peroxidase) using liquid chromatography-tandem mass spectrometry with multiple reaction monitoring. Qualitative and quantitative differences in analyte production were noted among the various active Phase I and Phase II metabolic systems. Assay incubation time was found to be a determining factor in metabolic profile, specifically with primary versus secondary metabolite formation. Regioselective arene hydroxylation of COC was conclusively documented in human hepatic metabolic models, while peroxidase-based assay systems displayed less selectivity in oxidative aryl biotransformation. Results demonstrate the applicability of in vitro systems in studying COC metabolite production and the impact of assay selection and variation in method parameters on metabolite profiles for this important drug of abuse.

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Section: Discussionmentioning

confidence: 77%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Evaluation ofin vitrometabolic systems for common drugs of abuse. 1. Cocaine

Schneider

DeCaprio

2013

Xenobiotica

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“…116,117 These studies have facilitated the development of analytical detection methods for numerous emerging designer drug analogs whose in vivo metabolism has not been reported. In the present study, several such systems were effective in producing a set of biotransformation products of cocaine, methamphetamine, and morphine, including all known major primary metabolites and numerous common secondary metabolites.…”

Section: +2mentioning

confidence: 99%

Covalent Protein Adduction by Drugs of Abuse

Schneider¹

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Recreational abuse of the drugs cocaine, methamphetamine, and morphine continues to be prevalent in the United States of America and around the world. While numerous methods of detection exist for each drug, they are generally limited by the lifetime of the parent drug and its metabolites in the body. However, the covalent modification of endogenous proteins by these drugs of abuse may act as biomarkers of exposure and allow for extension of detection windows for these drugs beyond the lifetime of parent molecules or metabolites in the free fraction. Additionally, existence of covalently bound molecules arising from drug ingestion can offer insight into downstream toxicities associated with each of these drugs.This research investigated the metabolism of cocaine, methamphetamine, and morphine in common in vitro assay systems, specifically focusing on the generation of reactive intermediates and metabolites that have the potential to form covalent protein adducts. Results demonstrated the formation of covalent adduction products between biological cysteine thiols and reactive moieties on cocaine and morphine metabolites. Rigorous mass spectrometric analysis in conjunction with in vitro metabolic activation, pharmacogenetic reaction phenotyping, and computational modeling were utilized to characterize structures and mechanisms of formation for each resultant thiol adduction product. For cocaine, data collected demonstrated the formation of adduction products from a reactive arene epoxide intermediate, designating a novel metabolic pathway for cocaine. In the case of morphine, data expanded on known adduct-forming pathways using sensitive and selective analysis techniques, following the known reactive metabolite, morphinone, and a proposed novel metabolite, morphine quinone methide. Data collected in this study describe novel metabolic events for multiple important drugs of abuse, culminating v in detection methods and mechanistic descriptors useful to both medical and forensic investigators when examining the toxicology associated with cocaine, methamphetamine, and morphine.

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Proposal of 5-methoxy- N -methyl- N -isopropyltryptamine consumption biomarkers through identification of in vivo metabolites from mice

Fabregat‐Safont

Barneo-Muñoz

Martı́nez-Garcı́a

et al. 2017

Journal of Chromatography A

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16New psychoactive substances (NPS) are a new breed of synthetically produced 17 substances designed to mimic the effects of traditional illegal drugs. Synthetic 18 cannabinoids and synthetic cathinones are the two most common groups, which try to 19 mimic the effects of the natural compounds 9 Δ-tetrahydrocannabinol and cathinone, 20 respectively. Similarly, synthetic tryptamines are designer compounds which are based 21 on the compounds psilocin, N,N-dimethyltryptamine and 5-methoxy-N,N-22 dimethyltryptamine found in some mushrooms. One of the most important tryptamine 23 compounds found in seizures is 5-methoxy-N,N-diisopropyltryptamine, which has been 24 placed as controlled substance in USA and some European countries. The control of this 25 compound has promoted the rising of another tryptamine, the 5-methoxy-N-methyl-N-26 isopropyltryptamine , which at the time of writing this article has not been banned yet. 27So, it is undeniable that this new substance should be monitored. 28 5-methoxy-N-methyl-N-isopropyltryptamine has been reported by the Spanish Early 29Warning System and detected in our laboratory in two pill samples purchased in a local 30 smart shop. This has promoted the need of stablishing consumption markers for this 31 compound in consumers' urine. In the present work, the metabolism and 32 pharmacokinetic of 5-methoxy-N-methyl-N-isopropyltryptamine has been studied by an 33 in vivo approach, using adult male mice of the inbred strain C57BLJ/6. The use of ultra-34 high performance liquid chromatography coupled to high resolution mass spectrometry 35 allowed the identification of four metabolites. After the pharmacokinetic study in serum 36 and urine, the O-demethylated metabolite and the non-metabolised parent compound are 37 proposed as consumption markers in hydrolysed urine.. Data reported in this work will 38 help hospitals and forensic laboratories to monitor the consumption and potential 39 intoxication cases related to this tryptamine.

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A model system for prediction of the in vivo metabolism of designer drugs using three-dimensional culture of rat and human hepatocytes

Cited by 4 publications

References 16 publications

Evaluation ofin vitrometabolic systems for common drugs of abuse. 1. Cocaine

Evaluation ofin vitrometabolic systems for common drugs of abuse. 1. Cocaine

Covalent Protein Adduction by Drugs of Abuse

Proposal of 5-methoxy- N -methyl- N -isopropyltryptamine consumption biomarkers through identification of in vivo metabolites from mice

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