Studies on Para-Methoxymethamphetamine (PMMA) Metabolite Pattern and Influence of CYP2D6 Genetics in Human Liver Microsomes and Authentic Samples from Fatal PMMA Intoxications.
Autor: | Vevelstad M; Department of Forensic Sciences, Oslo University Hospital (M.V., E.L.Ø., E.N., M.A., I.L.B.), and Institute of Clinical Medicine (M.V.), School of Pharmacy (E.L.Ø.), and Institute of Basic Medical Sciences (I.L.B.), University of Oslo, Oslo, Norway mervev@ous-hf.no., Øiestad EL; Department of Forensic Sciences, Oslo University Hospital (M.V., E.L.Ø., E.N., M.A., I.L.B.), and Institute of Clinical Medicine (M.V.), School of Pharmacy (E.L.Ø.), and Institute of Basic Medical Sciences (I.L.B.), University of Oslo, Oslo, Norway., Nerem E; Department of Forensic Sciences, Oslo University Hospital (M.V., E.L.Ø., E.N., M.A., I.L.B.), and Institute of Clinical Medicine (M.V.), School of Pharmacy (E.L.Ø.), and Institute of Basic Medical Sciences (I.L.B.), University of Oslo, Oslo, Norway., Arnestad M; Department of Forensic Sciences, Oslo University Hospital (M.V., E.L.Ø., E.N., M.A., I.L.B.), and Institute of Clinical Medicine (M.V.), School of Pharmacy (E.L.Ø.), and Institute of Basic Medical Sciences (I.L.B.), University of Oslo, Oslo, Norway., Bogen IL; Department of Forensic Sciences, Oslo University Hospital (M.V., E.L.Ø., E.N., M.A., I.L.B.), and Institute of Clinical Medicine (M.V.), School of Pharmacy (E.L.Ø.), and Institute of Basic Medical Sciences (I.L.B.), University of Oslo, Oslo, Norway. |
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Jazyk: | angličtina |
Zdroj: | Drug metabolism and disposition: the biological fate of chemicals [Drug Metab Dispos] 2017 Dec; Vol. 45 (12), pp. 1326-1335. Date of Electronic Publication: 2017 Oct 04. |
DOI: | 10.1124/dmd.117.077263 |
Abstrakt: | Para-methoxymethamphetamine (PMMA) has caused numerous fatal poisonings worldwide and appears to be more toxic than other ring-substituted amphetamines. Systemic metabolism is suggested to be important for PMMA neurotoxicity, possibly through activation of minor catechol metabolites to neurotoxic conjugates. The aim of this study was to examine the metabolism of PMMA in humans; for this purpose, we used human liver microsomes (HLMs) and blood samples from three cases of fatal PMMA intoxication. We also examined the impact of CYP2D6 genetics on PMMA metabolism by using genotyped HLMs isolated from CYP2D6 poor, population-average, and ultrarapid metabolizers. In HLMs, PMMA was metabolized mainly to 4-hydroxymethamphetamine (OH-MA), whereas low concentrations of para-methoxyamphetamine (PMA), 4-hydroxyamphetamine (OH-A), dihydroxymethamphetamine (di-OH-MA), and oxilofrine were formed. The metabolite profile in the fatal PMMA intoxications were in accordance with the HLM study, with OH-MA and PMA being the major metabolites, whereas OH-A, oxilofrine, HM-MA and HM-A were detected in low concentrations. A significant influence of CYP2D6 genetics on PMMA metabolism in HLMs was found. The catechol metabolite di-OH-MA has previously been suggested to be involved in PMMA toxicity. Our studies show that the formation of di-OH-MA from PMMA was two to seven times lower than from an equimolar dose of the less toxic drug MDMA, and do not support the hypothesis of catechol metabolites as major determinants of fatal PMMA toxicity. The present study revealed the metabolite pattern of PMMA in humans and demonstrated a great impact of CYP2D6 genetics on human PMMA metabolism. (Copyright © 2017 by The American Society for Pharmacology and Experimental Therapeutics.) |
Databáze: | MEDLINE |
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