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使用创新的跨学科体外、计算机模拟和体内方法来表征氯-α-吡咯烷戊酮(4-Cl-PVP)的代谢。

Use of innovative, cross-disciplinary in vitro, in silico and in vivo approaches to characterize the metabolism of chloro-alpha-pyrrolidinovalerophenone (4-Cl-PVP).

作者信息

Pelletier Romain, Le Daré Brendan, Ferron Pierre-Jean, Le Bouëdec Diane, Kernalléguen Angéline, Morel Isabelle, Gicquel Thomas

机构信息

INSERM, INRAE, Institut NUMECAN (Nutrition, Metabolisms and Cancer) UMR_A 1341, UMR_S 1241, Univ Rennes, 35000, Rennes, France.

Clinical and Forensic Toxicology Laboratory, Rennes University Hospital, 35033, Rennes, France.

出版信息

Arch Toxicol. 2023 Mar;97(3):671-683. doi: 10.1007/s00204-022-03427-7. Epub 2022 Dec 5.

DOI:10.1007/s00204-022-03427-7
PMID:36469093
Abstract

Synthetic cathinones constitute a family of new psychoactive substances, the consumption of which is increasingly worldwide. A lack of metabolic knowledge limits the detection of these compounds in cases of intoxication. Here, we used an innovative cross-disciplinary approach to study the metabolism of the newly emerging cathinone chloro-alpha-pyrrolidinovalerophenone (4-Cl-PVP). Three complementary approaches (in silico, in vitro, and in vivo) were used to identify putative 4-Cl-PVP metabolites that could be used as additional consumption markers. The in silico approach used predictive software packages. Molecular networking was used as an innovative bioinformatics approach for re-processing high-resolution tandem mass spectrometry data acquired with both in vitro and in vivo samples. In vitro experiments were performed by incubating 4-Cl-PVP (20 µM) for four different durations with a metabolically competent human hepatic cell model (differentiated HepaRG cells). In vivo samples (blood and urine) were obtained from a patient known to have consumed 4-Cl-PVP. The in silico software predicted 17 putative metabolites, and molecular networking identified 10 metabolites in vitro. On admission to the intensive care unit, the patient's plasma and urine 4-Cl-PVP concentrations were, respectively, 34.4 and 1018.6 µg/L. An in vivo analysis identified the presence of five additional glucuronoconjugated 4-Cl-PVP derivatives in the urine. Our combination of a cross-disciplinary approach with molecular networking enabled the detection of 15 4-Cl-PVP metabolites, 10 of them had not previously been reported in the literature. Two metabolites appeared to be particular relevant candidate as 4-Cl-PVP consumption markers in cases of intoxication: hydroxy-4-Cl-PVP (m/z 282.1254) and dihydroxy-4-Cl-PVP (m/z 298.1204).

摘要

合成卡西酮是一类新型精神活性物质,其在全球范围内的消费量日益增加。代谢知识的缺乏限制了在中毒病例中对这些化合物的检测。在此,我们采用了一种创新的跨学科方法来研究新出现的卡西酮氯-α-吡咯烷基戊酮(4-氯-PVP)的代谢。我们使用了三种互补方法(计算机模拟、体外和体内)来鉴定可能用作额外消费标志物的4-氯-PVP代谢物。计算机模拟方法使用了预测软件包。分子网络被用作一种创新的生物信息学方法,用于重新处理从体外和体内样品中获取的高分辨率串联质谱数据。体外实验通过将4-氯-PVP(20μM)与具有代谢活性的人肝细胞模型(分化的HepaRG细胞)孵育四种不同时长来进行。体内样品(血液和尿液)取自一名已知摄入4-氯-PVP的患者。计算机模拟软件预测了17种可能的代谢物,分子网络在体外鉴定出10种代谢物。该患者入住重症监护病房时,其血浆和尿液中4-氯-PVP的浓度分别为34.4和1018.6μg/L。体内分析确定尿液中还存在另外五种葡萄糖醛酸结合的4-氯-PVP衍生物。我们将跨学科方法与分子网络相结合,能够检测到15种4-氯-PVP代谢物,其中10种此前未在文献中报道。在中毒病例中,有两种代谢物似乎是特别相关的4-氯-PVP消费标志物候选物:羟基-4-氯-PVP(m/z 282.1254)和二羟基-4-氯-PVP(m/z 298.1204)。

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