离体猪肝模型中卡西酮的代谢及胆汁排泄:以4-氯吡咯戊酮和乙酮为例
Cathinone metabolism and biliary excretion in an ex-vivo pig liver model: Example of 4-Cl-PVP and eutylone.
作者信息
Pelletier Romain, Le Daré Brendan, Kerforne Thomas, Parvedy Nicolas Patou, Lemaitre Florian, Tron Camille, Maunand Kevin, Corlu Anne, Morel Isabelle, Rayar Michel, Gicquel Thomas
机构信息
INSERM, Univ Rennes, INRAE, Institut NUMECAN (Nutrition, Métabolismes et Cancer) UMR_A 1341, UMR_S 1317, F-35000, Rennes, France; Laboratoire de toxicologie biologique et Médico-légale, CHU Rennes, Rennes, France.
INSERM, Univ Rennes, INRAE, Institut NUMECAN (Nutrition, Métabolismes et Cancer) UMR_A 1341, UMR_S 1317, F-35000, Rennes, France; Pôle Pharmacie, CHU Rennes, Rennes, France.
出版信息
Food Chem Toxicol. 2025 Feb;196:115217. doi: 10.1016/j.fct.2024.115217. Epub 2025 Jan 8.
OBJECTIVE
Recently, the pig liver model perfused ex vivo using a normothermic machine perfusion (NMP) has been proposed as a suitable model to study xenobiotic metabolism and biliary excretion. The aim of our study is to describe the metabolism of NPS such as cathinones (with a focus on 4-Cl-PVP and eutylone) in blood and bile, using a normothermic perfused pig liver model.
METHODS
Livers (n = 4) from male large white pigs, 3-4 months of age and weighing approximately 75-80 kg, were harvested and reperfused onto an NMP (LiverAssist®, XVIVO) using autologous whole blood at 38 °C. 4-Cl-PVP and eutylone were administered as a bolus in the circulating blood at T0 with the aim of achieving a concentration of 1 μg/mL in the reperfusion system. The assays were carried out on plasma and bile between 0 and 120 min after cathinone administration using an targeted and untargeted approaches based on liquid chromatography coupled with high resolution mass spectrometry (Q-Exactive Thermo Scientific®).
RESULTS
In plasma, the concentration of 4-Cl-PVP and eutylone decreased rapidly with elimination half-lives of 4 min and 0.25 min, respectively. Their phase I and phase II metabolites were detected in plasma as early as 1 min. In bile, 4-Cl-PVP and eutylone were detected with maximum intensity between 0 and 30 min post-administration, and the main metabolites found in plasma were found in bile. Phase II derivatives showed increasing biliary excretion over time up to 120 min.
CONCLUSION
The pig liver model perfused ex vivo using an NMP represent a promising model in pharmaco-toxicology, particularly for toxicokinetic investigations of cathinones. This model may be of interest in the absence of authentic cases of cathinone consumption or other NPS consumption to identify relevant metabolites consumption markers. In addition, the possibility of collecting bile in this model represents an additional advantage for studying biliary excretion of NPS and their metabolites in forensic toxicology.
目的
最近,使用常温机器灌注(NMP)的离体猪肝模型已被提议作为研究外源物质代谢和胆汁排泄的合适模型。我们研究的目的是使用常温灌注猪肝模型描述卡西酮类新精神活性物质(NPS)(重点是4-氯吡咯戊酮和乙酮)在血液和胆汁中的代谢情况。
方法
从3至4月龄、体重约75至80千克的雄性大白猪身上获取肝脏(n = 4),并在38℃下使用自体全血将其重新灌注到NMP(LiverAssist®,XVIVO)上。在T0时,将4-氯吡咯戊酮和乙酮作为推注剂注入循环血液中,以使再灌注系统中的浓度达到1μg/mL。在给予卡西酮后0至120分钟之间,使用基于液相色谱与高分辨率质谱联用(Q-Exactive Thermo Scientific®)的靶向和非靶向方法对血浆和胆汁进行检测。
结果
在血浆中,4-氯吡咯戊酮和乙酮的浓度迅速下降,消除半衰期分别为4分钟和0.25分钟。它们的I相和II相代谢物最早在1分钟时就在血浆中被检测到。在胆汁中,给药后0至30分钟之间检测到4-氯吡咯戊酮和乙酮的强度最大,并且在胆汁中发现了血浆中存在的主要代谢物。II相衍生物在长达120分钟的时间内胆汁排泄量不断增加。
结论
使用NMP进行离体灌注的猪肝模型在药物毒理学中是一个有前景的模型,特别是对于卡西酮类的毒代动力学研究。在没有卡西酮或其他NPS真实消费案例的情况下,该模型可能有助于识别相关代谢物消费标志物。此外,在该模型中收集胆汁的可能性为法医毒理学中研究NPS及其代谢物的胆汁排泄提供了额外优势。
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