Analysis of AMB-FUBINACA Biotransformation Pathways in Human Liver Microsome and Zebrafish Systems by Liquid Chromatography-High Resolution Mass Spectrometry

Xu, Duoqi; Zhang, Wenfang; Li, Jing; Wang, Ji-fen; Qin, Shiyang; Lu, Jianghai

doi:10.3389/fchem.2019.00240

Cited by 23 publications

(28 citation statements)

References 22 publications

(21 reference statements)

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“…In a recent report where AMB‐FUBINACA was associated with a massive intoxication, the parent compound was not detected in blood while the carboxylic metabolite was detected at high concentrations in the urine samples. During the processing of this paper, Xu et al also reported the metabolic profiles of AMB‐FUBINACA using both human liver microsome and zebrafish models. Although in this work, a higher number of metabolites was found, in both cases the main metabolic pathways of the phase I metabolism included ester hydrolysis, hydroxylation, and a combination of both processes, while glucuronidation served as the main metabolic pathway of the phase II metabolism.…”

Section: Resultsmentioning

confidence: 99%

Comprehensive investigation on synthetic cannabinoids: Metabolic behavior and potency testing, using 5F‐APP‐PICA and AMB‐FUBINACA as model compounds

Fabregat‐Safont

Mardal

Noble

et al. 2019

Drug Testing and Analysis

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Synthetic cannabinoids (SCs) represented 45% of new psychoactive substances seizures in Europe (data from 2016). The consumption of SCs is an issue of concern due to their still unknown toxicity and effects on human health, the great variety of compounds synthetized, and the continuous modifications being made to their chemical structure to avoid regulatory issues. These compounds are extensively metabolized in the organism and often cannot be detected as the intact molecule in human urine. The monitoring of SCs in forensic samples must be performed by the analysis of their metabolites. In this work, a workflow for the comprehensive study of SC consumption is proposed and applied to 5F‐APP‐PICA (also known as PX 1 or SRF‐30) and AMB‐FUBINACA (also known as FUB‐AMB or MMB‐FUBINACA), based not only on the elucidation of their metabolites but also including functional data using the NanoLuc approach, previously published. Both cannabinoids were completely metabolized by human hepatocytes (12 and 8 metabolites were elucidated by high resolution mass spectrometry for 5F‐APP‐PICA and AMB‐FUBINACA, respectively) and therefore suitable consumption markers are proposed. The bioassays revealed that 5F‐APP‐PICA presented lower activity than AMB‐FUBINACA at CB1 and CB2 receptors, based on the half maximal effective concentration (EC50) and the maximum response (Emax). These results are in agreement with the different intoxication cases found in the literature for AMB‐FUBINACA.

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Section: Resultsmentioning

confidence: 99%

Comprehensive investigation on synthetic cannabinoids: Metabolic behavior and potency testing, using 5F‐APP‐PICA and AMB‐FUBINACA as model compounds

Fabregat‐Safont

Mardal

Noble

et al. 2019

Drug Testing and Analysis

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“…GC-MS and LC-MS are the methods most frequently used to detect and quantify ADB-FUBINACA and AMB-FUBINACA in biological and/or seized samples [2,3,39,40,[49][50][51], as presented in Tables 2 and 3, respectively. LC-MS is the preferred technique for the analytical determination of these thermally unstable compounds [52][53][54].…”

Section: Methods For Sc Detectionmentioning

confidence: 99%

“…The m/z 109, m/z 253 and m/z 338 fragments of ADB-FUBINACA were also previously observed in 2013 by Uchiyama et al [9] using the LC-QTOF/MS with a photodiode array (PDA) detector, and in 2014 by Takayama et al [38] using ultraperformance liquid chromatography with electrospray ionization-tandem mass spectrometry (UPLC/ESI-MS/MS). On the other hand, the analysis of the characteristic fragment ions of AMB-FUBINACA revealed that the amide bond was most susceptible to cleavage, thus forming a fragment ion at m/z 253.0772 (C 15 H 10 FN 2 O + ), and the cleavage between the indazole ring and fluorobenzyl produced the fluorobenzyl ion (C 7 H 6 F + ) at m/z 109.0448 [39]. Additional ions (m/z 145, 324, 383) were reported by Kevin et al [40], using gas chromatography coupled to mass spectrometry (GC-MS).…”

Section: Chemistry and Chemical Analysismentioning

confidence: 99%

Overview of Synthetic Cannabinoids ADB-FUBINACA and AMB-FUBINACA: Clinical, Analytical, and Forensic Implications

et al. 2021

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ADB-FUBINACA and AMB-FUBINACA are two synthetic indazole-derived cannabinoid receptor agonists, up to 140- and 85-fold more potent, respectively, than trans-∆9-tetrahydrocannabinol (∆9-THC), the main psychoactive compound of cannabis. Synthesised in 2009 as a pharmaceutical drug candidate, the recreational use of ADB-FUBINACA was first reported in 2013 in Japan, with fatal cases being described in 2015. ADB-FUBINACA is one of the most apprehended and consumed synthetic cannabinoid (SC), following AMB-FUBINACA, which emerged in 2014 as a drug of abuse and has since been responsible for several intoxication and death outbreaks. Here, we critically review the physicochemical properties, detection methods, prevalence, biological effects, pharmacodynamics and pharmacokinetics of both drugs. When smoked, these SCs produce almost immediate effects (about 10 to 15 s after use) that last up to 60 min. They are rapidly and extensively metabolised, being the O-demethylated metabolite of AMB-FUBINACA, 2-(1-(4-fluorobenzyl)-1H-indazole-3-carboxamide)-3-methylbutanoic acid, the main excreted in urine, while for ADB-FUBINACA the main biomarkers are the hydroxdimethylpropyl ADB-FUBINACA, hydroxydehydrodimethylpropyl ADB-FUBINACA and hydroxylindazole ADB-FUBINACA. ADB-FUBINACA and AMB-FUBINACA display full agonism of the CB1 receptor, this being responsible for their cardiovascular and neurological effects (e.g., altered perception, agitation, anxiety, paranoia, hallucinations, loss of consciousness and memory, chest pain, hypertension, tachycardia, seizures). This review highlights the urgent requirement for additional studies on the toxicokinetic properties of AMB-FUBINACA and ADB-FUBINACA, as this is imperative to improve the methods for detecting and quantifying these drugs and to determine the best exposure markers in the various biological matrices. Furthermore, it stresses the need for clinicians and pathologists involved in the management of these intoxications to describe their findings in the scientific literature, thus assisting in the risk assessment and treatment of the harmful effects of these drugs in future medical and forensic investigations.

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“…Ester hydrolysis was also found to be one of the prevailing human metabolic pathways, whereas amide hydrolysis present in sewage was not a metabolic reaction in human liver microsome system. 26 In addition to the two identified TPs…”

Section: Identification Of Tpsmentioning

confidence: 99%

Synthetic cannabinoid receptor agonists and their human metabolites in sewage water: Stability assessment and identification of transformation products

Hehet

Köke

Zahn

et al. 2021

Drug Testing and Analysis

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Since their first appearance in 2008, synthetic cannabinoid receptor agonists (SCRAs) remain the most popular new psychoactive substances (NPS) in the EU. Following consumption, these drugs and their metabolites are urinary excreted and enter the sewage system enabling the application of wastewater‐based epidemiology (WBE). Knowing the fate of target analytes in sewage water is essential for successful application of WBE. This study investigates the stability of several chemically diverse SCRAs and selected human metabolites under sewage conditions utilizing a combination of liquid chromatography–tandem mass spectrometry and high‐resolution mass spectrometry (HRMS). Target analytes included SCRAs with indole (5F‐PB‐22, PB‐22 pentanoic acid), indazole (AMB‐FUBINACA, 5F‐ADB, 5F‐ADB dimethylbutanoic acid), carbazole (MDMB‐CHMCZCA, EG‐018), and γ‐carboline (Cumyl‐PeGaClone) chemical core structures representing most of the basic core structures that have occurred up to now. Stability tests were performed using wastewater effluent containing 5% activated sludge as inoculum to monitor degradation processes and formation of transformation products (TPs). The majority of investigated SCRAs, excluding the selected human metabolites, was recalcitrant to microbial degradation in sewage systems over a period of 29 days. Their stability was rather controlled by physico‐chemical processes like sorption and hydrolysis. Considering a typical hydraulic in‐sewer retention time of 24 h, the concentration of AMB‐FUBINACA decreased by 90% thus representing the most unstable SCRA investigated in this study. Among the 10 newly identified TPs, three could be considered as relevant markers and should be included into future WBE studies to gain further insight into use and prevalence of SCRAs on the drug market.

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Analysis of AMB-FUBINACA Biotransformation Pathways in Human Liver Microsome and Zebrafish Systems by Liquid Chromatography-High Resolution Mass Spectrometry

Cited by 23 publications

References 22 publications

Comprehensive investigation on synthetic cannabinoids: Metabolic behavior and potency testing, using 5F‐APP‐PICA and AMB‐FUBINACA as model compounds

Comprehensive investigation on synthetic cannabinoids: Metabolic behavior and potency testing, using 5F‐APP‐PICA and AMB‐FUBINACA as model compounds

Overview of Synthetic Cannabinoids ADB-FUBINACA and AMB-FUBINACA: Clinical, Analytical, and Forensic Implications

Synthetic cannabinoid receptor agonists and their human metabolites in sewage water: Stability assessment and identification of transformation products

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