Human metabolism of the semi-synthetic cannabinoids hexahydrocannabinol, hexahydrocannabiphorol and their acetates using hepatocytes and urine samples.

IF 2.6 3区医学 Q2 BIOCHEMICAL RESEARCH METHODS

Drug Testing and Analysis Pub Date : 2024-05-28 DOI:10.1002/dta.3740

Karin Lindbom, Caitlyn Norman, Steven Baginski, Lucas Krebs, Darta Stalberga, Tobias Rautio, Xiongyu Wu, Robert Kronstrand, Henrik Gréen

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引用次数: 0

Abstract

Hexahydrocannabinol (HHC), hexahydrocannabiphorol (HHCP) and their acetates, HHC-O and HHCP-O, respectively, are emerging in Europe as alternatives to tetrahydrocannabinol (THC). This study aimed to elucidate the metabolic pathways of the semi-synthetic cannabinoids HHC, HHCP, HHC-O and HHCP-O from incubation with human hepatocytes. The metabolites of HHC were also identified in authentic urine samples. HHC, HHCP, HHC-O and HHCP-O were incubated with primary human hepatocytes for 1, 3 and 5 h. Authentic urine samples from cases screened positive for cannabis in blood using ELISA but confirmed negative were analysed both non-hydrolysed and hydrolysed for HHC metabolites. Potential metabolites were identified using ultra-high performance liquid chromatography (UHPLC) coupled to a quadrupole time-of-flight mass spectrometer (QToF-MS). HHC and HHCP were primarily metabolised through monohydroxylation (monoOH), followed by oxidation to a carboxylic acid metabolite. HHC-O and HHCP-O were rapidly metabolised to HHC and HHCP, respectively. In authentic urine samples, 18 different metabolites were identified, and 99.3% of hydroxylated metabolites were glucuronidated. 11-OH-HHC, 5'OH-HHC and another metabolite with a monoOH on the side chain were the only metabolites present in all 16 urine samples. The metabolism of HHC and HHCP were similar, although the longer alkyl side chain of HHCP (heptyl) led to greater hydroxylation on the side chain than HHC (pentyl). The use of HHC and HHCP can be differentiated from the use of THC and other phytocannabinoids, but the use of the acetate analogues may not be differentiable from their non-acetate analogues.

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利用肝细胞和尿液样本研究半合成大麻素六氢大麻酚、六氢大麻酚及其乙酸酯的人体代谢。

在欧洲，六氢大麻酚（HHC）、六氢大麻酚（HHCP）及其醋酸盐 HHC-O 和 HHCP-O 正在成为四氢大麻酚（THC）的替代品。本研究旨在通过与人类肝细胞培养，阐明半合成大麻素 HHC、HHCP、HHC-O 和 HHCP-O 的代谢途径。同时还鉴定了真实尿液样本中的 HHC 代谢物。将 HHC、HHCP、HHC-O 和 HHCP-O 与原代人类肝细胞孵育 1、3 和 5 小时。对使用 ELISA 方法筛查出血液中大麻含量呈阳性但确认为阴性的病例的真实尿液样本进行非水解和水解 HHC 代谢物分析。使用超高效液相色谱法（UHPLC）和四极杆飞行时间质谱仪（QToF-MS）对潜在的代谢物进行鉴定。HHC 和 HHCP 主要通过单羟基化（monoOH）进行代谢，然后氧化成羧酸代谢物。HHC-O 和 HHCP-O 会迅速代谢为 HHC 和 HHCP。在真实尿样中，共鉴定出 18 种不同的代谢物，99.3% 的羟基代谢物被葡萄糖醛酸化。在所有 16 份尿样中，仅有 11-OH-HHC、5'OH-HHC 和另一种侧链上带有单羟基的代谢物存在。HHC 和 HHCP 的代谢过程相似，但 HHCP（庚基）的烷基侧链比 HHC（戊基）长，导致侧链羟基化程度更高。使用 HHC 和 HHCP 可以与使用 THC 和其他植物大麻素区分开来，但使用醋酸类似物可能无法与其非醋酸类似物区分开来。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Drug Testing and Analysis BIOCHEMICAL RESEARCH METHODS-CHEMISTRY, ANALYTICAL

CiteScore

5.90

自引率

24.10%

发文量

191

审稿时长

2.3 months

期刊介绍： As the incidence of drugs escalates in 21st century living, their detection and analysis have become increasingly important. Sport, the workplace, crime investigation, homeland security, the pharmaceutical industry and the environment are just some of the high profile arenas in which analytical testing has provided an important investigative tool for uncovering the presence of extraneous substances. In addition to the usual publishing fare of primary research articles, case reports and letters, Drug Testing and Analysis offers a unique combination of; ‘How to’ material such as ‘Tutorials’ and ‘Reviews’, Speculative pieces (‘Commentaries’ and ‘Perspectives'', providing a broader scientific and social context to the aspects of analytical testing), ‘Annual banned substance reviews’ (delivering a critical evaluation of the methods used in the characterization of established and newly outlawed compounds). Rather than focus on the application of a single technique, Drug Testing and Analysis employs a unique multidisciplinary approach to the field of controversial compound determination. Papers discussing chromatography, mass spectrometry, immunological approaches, 1D/2D gel electrophoresis, to name just a few select methods, are welcomed where their application is related to any of the six key topics listed below.