Persson Mattias, Kronstrand Robert, Evans-Brown Michael, Green Henrik
Department of Forensic Genetics and Forensic Toxicology, National Board of Forensic Medicine, Linköping, Sweden.
Division of Clinical Chemistry and Pharmacology, Department of Biomedical and Clinical Sciences, Faculty of Medicine and Health Sciences, Linköping University, Linköping, Sweden.
Drug Test Anal. 2025 Apr;17(4):487-493. doi: 10.1002/dta.3750. Epub 2024 Jun 19.
Semi-synthetic cannabinoids (SSCs) including hexahydrocannabinol (HHC) are emerging on the drug market and sold openly as purportedly legal replacements for cannabis and Δ-THC. By the beginning of 2024, 24 European countries had identified HHC, often sold openly in edibles (foods/candy), vapes and low-THC cannabis flowers and resins. The SSC market is developing rapidly, with HHC acetate (HHC-O), hexahydrocannabiphorol (HHC-P) and others recently identified. These developments may mark the first major change in the market for 'legal' replacements to cannabis since 'Spice' containing synthetic cannabinoids, such as JWH-018, emerged in 2008. Currently, there are some data available on the pharmacology of SSCs, which is crucial for understanding their effects, evaluating health risks and informing public health responses. This study focused on characterizing the in vitro activation of the human CB receptor by the (R)- and (S)-epimers of HHC, HHC-P and HHC-O. Using recombinant CHO-K1 cells expressing the human CB receptor, the potency (EC) and efficacy were determined. It was established that (9R)-HHC and (9R)-HHC-P activated the CB receptor as partial agonists and with five and two times lower potency compared to JWH-018, respectively, while the (S)-epimers exhibited even lower potency. The (R)-epimer of HHC-O activate the CB receptor to even lesser extent and the (S)-epimer showed no activation. For HHC and HHC-P, all epimers exhibited similar level of efficacy. This available evidence suggests cannabimimetic effects of the tested SSC with the exception for the acetates that likely function as pro-drugs in vivo.
包括六氢大麻酚(HHC)在内的半合成大麻素(SSCs)正在药物市场上出现,并作为据称合法的大麻和Δ-THC替代品公开销售。到2024年初,24个欧洲国家已识别出HHC,其常常在食品(食物/糖果)、电子烟以及低THC大麻花和树脂中公开销售。SSC市场正在迅速发展,最近已识别出乙酸六氢大麻酚(HHC-O)、六氢大麻二酚(HHC-P)等。自2008年含合成大麻素(如JWH-018)的“香料”出现以来,这些发展可能标志着大麻“合法”替代品市场的首次重大变化。目前,有一些关于SSCs药理学的数据,这对于理解其效果、评估健康风险以及为公共卫生应对提供信息至关重要。本研究重点在于表征HHC、HHC-P和HHC-O的(R)-和(S)-差向异构体对人CB受体的体外激活作用。使用表达人CB受体的重组CHO-K1细胞,测定了效力(EC)和效能。已确定(9R)-HHC和(9R)-HHC-P作为部分激动剂激活CB受体,其效力分别比JWH-018低五倍和两倍,而(S)-差向异构体的效力甚至更低。HHC-O的(R)-差向异构体对CB受体的激活程度更低,(S)-差向异构体未显示出激活作用。对于HHC和HHC-P,所有差向异构体均表现出相似水平的效能。现有证据表明,除了可能在体内起前体药物作用的乙酸酯外,受试SSCs具有拟大麻效应。
