CH-PIATA--一种以乙酰胺连接体为特征的新型合成大麻素的新陈代谢透视。

IF 2.3 3区 医学 Q3 CHEMISTRY, ANALYTICAL
Annette Zschiesche, Martin Scheu, Detlef Thieme, Annekathrin M Keiler, Benedikt Pulver, Laura M Huppertz, Volker Auwärter
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引用次数: 0

摘要

最近,合成大麻素受体激动剂(SCRA)的连接体支架从流行的羧酰胺变为乙酰胺(ATA),这可以被解释为试图规避法律规定,从而带来了新的分析挑战。通过 LC-HRMS-MS 和 LC-MS-MS 对尿液和血清样本中的 N-环己基-2-(1-戊基-1H-吲哚-3-基)乙酰胺:CH-PIATA(欧盟检测到的第二种 ATA 型 SCRA)代谢物进行了研究。两种不同的体外模型:pHLM 试验和 HepG2 细胞,以及 GLORYx 免费软件的硅预测,都有助于代谢物的形成/鉴定。CH-PIATA 被广泛代谢,主要通过单羟化和二羟化形成代谢物。就尿液和血清样本而言,吲哚核心或乙酰胺连接体亚甲基间隔处的单羟基化(M1.8)、N-戊基侧链处的羧酸形成(M3.1)以及后者的降解导致的初步确定的 N-丙酸代谢物(M5.1)被认为是物质摄入量的可靠标记。由于 N-丙酸代谢物包括多个连续的代谢反应,因此无法在体外检测中确认。此外,在血液样本中可以检测到 CH-PIATA 的母体物质,但在尿液中却检测不到。事实证明,体外检测和硅学工具都适用于预测 CH-PIATA 的代谢物。考虑到工作量和成本,pHLM 培养似乎对法医毒理学中的代谢物预测更为有效。突出显示的第一阶段代谢物可作为确认使用 CH-PIATA 的可靠尿液目标物。在没有参考材料的情况下,硅学方法具有优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Insights into the metabolism of CH-PIATA-A novel synthetic cannabinoid featuring an acetamide linker.

The recent change from the popular carboxamide to an acetamide (ATA) linker scaffold in synthetic cannabinoid receptor agonists (SCRAs) can be interpreted as an attempt to circumvent legal regulations, setting new analytical challenges. Metabolites of N-cyclohexyl-2-(1-pentyl-1 H-indol-3-yl)acetamide: CH-PIATA, the second ATA type SCRA detected in the EU, were investigated in urine and serum samples by LC-HRMS-MS and LC-MS-MS. Two different in vitro models, a pHLM assay and HepG2-cells, as well as an in silico prediction by GLORYx freeware assisted in metabolite formation/identification. CH-PIATA was extensively metabolized, leading to metabolites formed primarily by mono- and dihydroxylation. For urine and serum specimens, monohydroxylation at the indole core or the methylene spacer of the acetamide linker (M1.8), carboxylic acid formation at the N-pentyl side chain (M3.1) and degradation of the latter leading to a tentatively identified N-propionic acid metabolite (M5.1) are suggested as reliable markers for substance intake. The N-propionic acid metabolite could not be confirmed in the in vitro assays as it includes multiple consecutive metabolic reactions. Furthermore, CH-PIATA could be detected as parent substance in blood samples, but not in urine. Both in vitro assays and the in silico tool proved suitable for predicting metabolites of CH-PIATA. Considering effort and costs, pHLM incubations seem to be more effective for metabolite prediction in forensic toxicology than HepG2 cells. The highlighted Phase I metabolites serve as reliable urinary targets for confirming CH-PIATA use. The in silico approach is advantageous when reference material is unavailable.

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来源期刊
CiteScore
5.10
自引率
20.00%
发文量
92
审稿时长
6-12 weeks
期刊介绍: The Journal of Analytical Toxicology (JAT) is an international toxicology journal devoted to the timely dissemination of scientific communications concerning potentially toxic substances and drug identification, isolation, and quantitation. Since its inception in 1977, the Journal of Analytical Toxicology has striven to present state-of-the-art techniques used in toxicology labs. The peer-review process provided by the distinguished members of the Editorial Advisory Board ensures the high-quality and integrity of articles published in the Journal of Analytical Toxicology. Timely presentation of the latest toxicology developments is ensured through Technical Notes, Case Reports, and Letters to the Editor.
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