3-CMC, 4-CMC, and 4-BMC Human Metabolic Profiling: New Major Pathways to Document Consumption of Methcathinone Analogues?

IF 5 3区医学 Q1 PHARMACOLOGY & PHARMACY

AAPS Journal Pub Date : 2024-06-11 DOI:10.1208/s12248-024-00940-8

Diletta Berardinelli, Omayema Taoussi, Gloria Daziani, Francesco Tavoletta, Giovanna Ricci, Livio P Tronconi, Piotr Adamowicz, Francesco P Busardò, Jeremy Carlier

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Abstract

Synthetic cathinones represent one of the largest and most abused new psychoactive substance classes, and have been involved in numerous intoxications and fatalities worldwide. Methcathinone analogues like 3-methylmethcathinone (3-MMC), 3-chloromethcathinone (3-CMC), and 4-CMC currently constitute most of synthetic cathinone seizures in Europe. Documenting their consumption in clinical/forensic casework is therefore essential to tackle this trend. Targeting metabolite markers is a go-to to document consumption in analytical toxicology, and metabolite profiling is crucial to support investigations. We sought to identify 3-CMC, 4-CMC, and 4-bromomethcathinone (4-BMC) human metabolites. The substances were incubated with human hepatocytes; incubates were screened by liquid chromatography-high-resolution tandem mass spectrometry and data were mined with Compound Discoverer (Themo Scientific). 3-CMC-positive blood, urine, and oral fluid and 4-CMC-positive urine and saliva from clinical/forensic casework were analyzed. Analyses were supported by metabolite predictions with GLORYx freeware. Twelve, ten, and ten metabolites were identified for 3-CMC, 4-CMC, and 4-BMC, respectively, with similar transformations occurring for the three cathinones. Major reactions included ketoreduction and N-demethylation. Surprisingly, predominant metabolites were produced by combination of N-demethylation and ω-carboxylation (main metabolite in 3-CMC-positive urine), and combination of β-ketoreduction, oxidative deamination, and O-glucuronidation (main metabolite in 4-CMC-positive urine). These latter metabolites were detected in negative-ionization mode only and their non-conjugated form was not detected after glucuronide hydrolysis; this metabolic pathway was never reported for any methcathinone analogue susceptible to undergo the same transformations. These results support the need for comprehensive screening strategies in metabolite identification studies, to avoid overlooking significant metabolites and major markers of consumption.

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3-CMC、4-CMC 和 4-BMC 人体代谢分析：记录甲卡西酮类似物消费的新主要途径？

合成卡西酮是规模最大、滥用最严重的新精神活性物质类别之一，在世界范围内造成了大量中毒和死亡事件。在欧洲，3-甲基甲卡西酮（3-MMC）、3-氯甲卡西酮（3-CMC）和 4-CMC 等甲卡西酮类似物目前占合成卡西酮缉获量的大部分。因此，在临床/法医案例工作中记录这些物质的消费情况对于应对这一趋势至关重要。在分析毒理学中，以代谢物标记物为目标是记录消费情况的一种方法，而代谢物分析对于支持调查至关重要。我们试图鉴定 3-CMC、4-CMC 和 4-溴甲卡西酮（4-BMC）的人体代谢物。将这些物质与人类肝细胞进行培养；培养液通过液相色谱-高分辨串联质谱法进行筛选，数据则通过 Compound Discoverer（Themo Scientific）进行挖掘。对临床/法医案例中 3-CMC 阳性的血液、尿液和口腔液以及 4-CMC 阳性的尿液和唾液进行了分析。分析结果通过 GLORYx 免费软件进行代谢物预测。3-CMC 、4-CMC 和 4-BMC 分别鉴定出十二、十和十种代谢物，三种卡西酮发生了类似的转化。主要反应包括酮还原和 N-去甲基化。令人惊讶的是，N-脱甲基化和ω-羧化反应（3-CMC 阳性尿液中的主要代谢物）以及 β-酮还原、氧化脱氨和 O-葡萄糖醛酸化反应（4-CMC 阳性尿液中的主要代谢物）产生了主要代谢物。后一种代谢物仅在负离子模式下检测到，葡萄糖醛酸水解后未检测到其非结合形式；从未有报告称任何甲卡西酮类似物的代谢途径易发生相同的转化。这些结果表明，有必要在代谢物鉴定研究中采用全面的筛选策略，以避免忽略重要的代谢物和主要的消费标志物。

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来源期刊

AAPS Journal 医学-药学

CiteScore

7.80

自引率

4.40%

发文量

109

审稿时长

1 months

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