在体 I 期代谢分析合成大麻素 AM-694、5F-NNEI、FUB-APINACA、MFUBINAC 和 AMB-FUBINACA。

In Vitro Phase I Metabolic Profiling of the Synthetic Cannabinoids AM-694, 5F-NNEI, FUB-APINACA, MFUBINAC, and AMB-FUBINACA.

机构信息

King's Forensics, Department of Analytical, Environmental and Forensic Science, King's College London, London SE1 9NH, United Kingdom.

Drug Control Centre, King's Forensics, Department of Analytical, Environmental and Forensic Science, King's College London, London SE1 9NH, United Kingdom.

出版信息

Chem Res Toxicol. 2020 Jul 20;33(7):1653-1664. doi: 10.1021/acs.chemrestox.9b00466. Epub 2020 Apr 28.

DOI:10.1021/acs.chemrestox.9b00466

PMID:32301604

Abstract

Synthetic cannabinoids (SCs) constitute one of the most rapidly expanding class of new psychoactive substances. SCs pose a health threat to the individual and to the public due to their central (psychoactive) and peripheral effects. Their pharmacology and toxicology are poorly understood, and the substances can be unexpectedly toxic and harmful. The metabolism of SCs is also relevant in clinical and forensic toxicology as SCs are excreted in urine mostly as their metabolites. Thus, SC metabolites are widely used as markers for identifying SC intake. Herein, we used human liver microsome systems to study the in vitro phase I metabolic profiling of five SCs, namely AM-694, 5F-NNEI, FUB-APINACA, MFUBINAC, and AMB-FUBINACA. The metabolites were detected and structurally elucidated by liquid chromatography-high resolution mass spectrometry. The main metabolic pathway of AM-694 (benzoyl-indole SC) is oxidative defluorination; 5F-NNEI (naphthyl-indole carboxamide SC) follows amide hydrolysis and monohydroxylation at the naphthyl moiety. However, indazole carboxamide substituted with an adamantyl group, such as FUB-APINACA, is likely to produce (isomeric) hydroxylation of the adamantyl group as the main metabolite species. For the substrates that contain ester bonds in their structure, like MFUBINAC and AMB-FUBINACA, the ester hydrolysis metabolite is predominant.

摘要

合成大麻素 (SCs) 是新出现的精神活性物质中增长最快的一类物质。由于 SCs 具有中枢（精神活性）和外周作用，因此对个人和公众健康构成威胁。其药理学和毒理学尚未得到充分了解，而且这些物质可能具有意外的毒性和危害性。SCs 在临床和法医毒理学中也与代谢有关，因为 SCs 主要以其代谢物的形式从尿液中排出。因此，SC 代谢物被广泛用作鉴定 SC 摄入的标志物。在此，我们使用人肝微粒体系统研究了五种 SC（即 AM-694、5F-NNEI、FUB-APINACA、MFUBINAC 和 AMB-FUBINACA）的体外 I 相代谢特征。通过液相色谱-高分辨质谱检测并解析了代谢物。AM-694（苯甲酰吲哚 SC）的主要代谢途径是氧化脱氟；5F-NNEI（萘基吲哚甲酰胺 SC）遵循酰胺水解和萘基部分的单羟基化。然而，取代了金刚烷基的吲唑甲酰胺，如 FUB-APINACA，可能会产生金刚烷基的（异构）羟化作为主要代谢物。对于结构中含有酯键的底物，如 MFUBINAC 和 AMB-FUBINACA，则以酯水解代谢物为主。

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在体 I 期代谢分析合成大麻素 AM-694、5F-NNEI、FUB-APINACA、MFUBINAC 和 AMB-FUBINACA。

In Vitro Phase I Metabolic Profiling of the Synthetic Cannabinoids AM-694, 5F-NNEI, FUB-APINACA, MFUBINAC, and AMB-FUBINACA.

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