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Baginski SR, Rautio T, Nisbet LA, Lindbom K, Wu X, Dahlén J, McKenzie C, Gréen H. The metabolic profile of the synthetic cannabinoid receptor agonist ADB-HEXINACA using human hepatocytes, LC-QTOF-MS and synthesized reference standards. J Anal Toxicol 2023; 47:826-834. [PMID: 37747838 PMCID: PMC10714907 DOI: 10.1093/jat/bkad065] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/18/2023] [Revised: 07/24/2023] [Accepted: 09/18/2023] [Indexed: 09/27/2023] Open
Abstract
Synthetic cannabinoid receptor agonists (SCRAs) remain a major public health concern, with their use implicated in intoxications and drug-related deaths worldwide. Increasing our systematic understanding of SCRA metabolism supports clinical and forensic toxicology casework, facilitating the timely identification of analytical targets for toxicological screening procedures and confirmatory analysis. This is particularly important as new SCRAs continue to emerge on the illicit drug market. In this work, the metabolism of ADB-HEXINACA (ADB-HINACA, N-[1-amino-3,3-dimethyl-1-oxobutan-2-yl]-1-hexyl-1H-indazole-3-carboxamide), which has increased in prevalence in the United Kingdom and other jurisdictions, was investigated using in vitro techniques. The (S)-enantiomer of ADB-HEXINACA was incubated with pooled human hepatocytes over 3 hours to identify unique and abundant metabolites using liquid chromatography-quadrupole time-of-flight mass spectrometry. In total, 16 metabolites were identified, resulting from mono-hydroxylation, di-hydroxylation, ketone formation (mono-hydroxylation then dehydrogenation), carboxylic acid formation, terminal amide hydrolysis, dihydrodiol formation, glucuronidation and combinations thereof. The majority of metabolism took place on the hexyl tail, forming ketone and mono-hydroxylated products. The major metabolite was the 5-oxo-hexyl product (M9), while the most significant mono-hydroxylation product was the 4-hydroxy-hexyl product (M8), both of which were confirmed by comparison to in-house synthesized reference standards. The 5-hydroxy-hexyl (M6) and 6-hydroxy-hexyl (M7) metabolites were not chromatographically resolved, and the 5-hydroxy-hexyl product was the second largest mono-hydroxylated metabolite. The structures of the terminal amide hydrolysis products without (M16, third largest metabolite) and with the 5-positioned ketone (M13) were also confirmed by comparison to synthesized reference standards, along with the 4-oxo-hexyl metabolite (M11). The 5-oxo-hexyl and 4-hydroxy-hexyl metabolites are suggested as biomarkers for ADB-HEXINACA consumption.
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Affiliation(s)
- Steven R Baginski
- Leverhulme Research Centre for Forensic Science, School of Science and Engineering, University of Dundee, Fleming Laboratory, Small’s Wynd, Dundee DD1 4HN, UK
| | - Tobias Rautio
- Department of Physics, Chemistry and Biology, Linköping University, Linköping 581 83, Sweden
| | - Lorna A Nisbet
- Leverhulme Research Centre for Forensic Science, School of Science and Engineering, University of Dundee, Fleming Laboratory, Small’s Wynd, Dundee DD1 4HN, UK
| | - Karin Lindbom
- Division of Clinical Chemistry and Pharmacology, Department of Biomedical and Clinical Sciences, Faculty of Medicine and Health Sciences, Linköping University, Linköping 581 83, Sweden
| | - Xiongyu Wu
- Department of Physics, Chemistry and Biology, Linköping University, Linköping 581 83, Sweden
| | - Johan Dahlén
- Department of Physics, Chemistry and Biology, Linköping University, Linköping 581 83, Sweden
| | - Craig McKenzie
- Leverhulme Research Centre for Forensic Science, School of Science and Engineering, University of Dundee, Fleming Laboratory, Small’s Wynd, Dundee DD1 4HN, UK
- Chiron AS, Stiklestadveien 1, Trondheim 7041, Norway
| | - Henrik Gréen
- Division of Clinical Chemistry and Pharmacology, Department of Biomedical and Clinical Sciences, Faculty of Medicine and Health Sciences, Linköping University, Linköping 581 83, Sweden
- Department of Forensic Genetics and Forensic Toxicology, National Board of Forensic Medicine, Artillerigatan 12, Linköping 587 58, Sweden
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Detection of the Synthetic Cannabinoids AB-CHMINACA, ADB-CHMINACA, MDMB-CHMICA, and 5F-MDMB-PINACA in Biological Matrices: A Systematic Review. BIOLOGY 2022; 11:biology11050796. [PMID: 35625524 PMCID: PMC9139075 DOI: 10.3390/biology11050796] [Citation(s) in RCA: 3] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Subscribe] [Scholar Register] [Received: 04/08/2022] [Revised: 05/13/2022] [Accepted: 05/18/2022] [Indexed: 11/17/2022]
Abstract
Simple Summary Synthetic cannabinoids were originally developed for scientific research and potential therapeutic agents. However, clandestine laboratories synthesize them and circumvent legal barriers by falsely marketing them as incense or herbal products. They have serious adverse effects, and new derivatives are continuously found in the market, making their detection difficult due to the lack of comparative standards. Human matrices are used to identify the type of synthetic cannabinoid and the time of its consumption. This review discusses the use of hair, oral fluid, blood, and urine in the detection and quantification of some of the major synthetic cannabinoids. Based on the results, some recommendations can be followed, for example, the use of hair to detect chronic and retrospective consumption (although sensitive to external contamination) and oral fluid or blood for the simultaneous detection of the parent compounds and their metabolites. If longer detection times than blood or oral fluid are needed, urine is the matrix of choice, although its pH may intervene in the analysis. This work highlights the use of new techniques, such as high-resolution mass spectrometry, to avoid the use of previous standards and to monitor new trends in the drug market. Abstract New synthetic cannabinoids (SCs) are emerging rapidly and continuously. Biological matrices are key for their precise detection to link toxicity and symptoms to each compound and concentration and ascertain consumption trends. The objective of this study was to determine the best human biological matrices to detect the risk-assessed compounds provided by The European Monitoring Centre for Drugs and Drug Addiction: AB-CHMINACA, ADB-CHMNACA, MDMB-CHMICA, and 5F-MDMB-PINACA. We carried out a systematic review covering 2015 up to the present date, including original articles assessing detection in antemortem human biological matrices with detailed validation information of the technique. In oral fluid and blood, SC parent compounds were found in oral fluid and blood at low concentrations and usually with other substances; thus, the correlation between SCs concentrations and severity of symptoms could rarely be established. When hair is used as the biological matrix, there are difficulties in excluding passive contamination when evaluating chronic consumption. Detection of metabolites in urine is complex because it requires prior identification studies. LC-MS/MS assays were the most widely used approaches for the selective identification of SCs, although the lack of standard references and the need for revalidation with the continuous emergence of new SCs are limiting factors of this technique. A potential solution is high-resolution mass spectrometry screening, which allows for non-targeted detection and retrospective data interrogation.
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Xu H, Li X, Xin X, Mo L, Zou Y, Zhao G. Efficient Enzymatic Synthesis of Lipophilic Phenolic Glycoside Azelaic Acid Esters and Their Depigmenting Activity. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY 2021; 69:13102-13112. [PMID: 34705451 DOI: 10.1021/acs.jafc.1c03092] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 06/13/2023]
Abstract
In this paper, an enzymatic route for synthesizing phenolic glycoside azelaic acid esters was successfully set up via lipase-catalyzed esterification and transesterification. Among the lipases tested, Candida antarctica lipase B (Novozyme 435) showed the highest activity in catalyzing esterification and Thermomyces lanuginosus (Lipozyme TLIM) gave the highest substrate conversion in catalyzing transesterification for the synthesis of ester. The addition of 4A molecular sieves into the reaction system is found to be an effective method for in situ absorption of the byproduct water and methanol, with which the substrate conversions of the enzymatic esterification and transesterification were 98.7 and 95.1%, respectively. Also, the main product ratios in transesterification were above 99.0% with lipozyme TLIM as a catalyst because the hydrolysis reaction was hindered. The results of the physical and biological properties indicate that all esters had higher Clog p values than their parent compounds. Also, the esters showed higher intracellular tyrosinase inhibitory and depigmentating activities than phenolic glycosides, azelaic acid (AA), and their physical mixtures due to their higher membrane penetration and tyrosinase inhibitory effects. In particular, piceid 6″-O-azelaic acid ester (PIA) showed the strongest inhibitory effect against melanin production. Its inhibitory rate was 77.4% at a concentration of 0.25 mM, about 4.2 times higher than that of arbutin (18.5%).
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Affiliation(s)
- Haixia Xu
- School of Food Science and Engineering, South China University of Technology, Wushan Road 381, Guangzhou 510640, China
| | - Xiaofeng Li
- School of Food Science and Engineering, South China University of Technology, Wushan Road 381, Guangzhou 510640, China
| | - Xuan Xin
- School of Food Science and Engineering, South China University of Technology, Wushan Road 381, Guangzhou 510640, China
| | - Lan Mo
- School of Food Science and Engineering, South China University of Technology, Wushan Road 381, Guangzhou 510640, China
| | - Yucong Zou
- School of Food Science and Engineering, South China University of Technology, Wushan Road 381, Guangzhou 510640, China
| | - Guanglei Zhao
- State Key Laboratory of Pulp and Paper Engineering, South China University of Technology, Guangzhou 510641, China
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Kakehashi H, Doi T, Wada M, Kamata T, Shima N, Miyake A, Nitta A, Asai R, Fujii S, Matsuta S, Sasaki K, Kamata H, Nishioka H, Miki A, Hasegawa H, Katagi M. Human and rat microsomal metabolites of N-tert-butoxycarbonylmethamphetamine and its urinary metabolites in rat. Forensic Toxicol 2021; 40:75-87. [DOI: 10.1007/s11419-021-00595-6] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/08/2021] [Accepted: 07/29/2021] [Indexed: 11/29/2022]
Abstract
Abstract
Purpose
N-tert-Butoxycarbonylmethamphetamine (BocMA), a masked derivative of methamphetamine (MA), converts into MA under acidic condition and potentially acts as a precursor to MA following ingestion. To investigate the metabolism and excretion of BocMA, metabolism tests were conducted using human liver microsomes (HLM), rat liver microsomes (RLM) and rat.
Methods
BocMA metabolites were analyzed after 1000-ng/mL BocMA incubation with microsomes for 3, 8, 13, 20, 30, and 60 min. Rats were administered intraperitoneal injections (20 mg/kg) of BocMA and their urine was collected in intervals for 72 h. Metabolites were detected by liquid chromatography–tandem mass spectrometry with five authentic standards.
Results
Several metabolites including 4-hydroxy-BocMA, N-tert-butoxycarbonylephedrine and N-tert-butoxycarbonyl-cathinone were detected for HLM and RLM. In the administration test, three glucuronides of hydroxylated metabolites were detected. The total recovery values of BocMA and the metabolites during the first 72 h accounted for only 0.3% of the administered dose. Throughout the microsomal and administration experiments, MAs were not detected.
Conclusion
Hydroxylation, carbonylation and N-demethylation were proposed as metabolic pathways. However, BocMA and phase I metabolites were hardly detected in urine. This study provides useful information to interpret the possibility of BocMA intake as the cause of MA detection in biological sample.
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Kavanagh P, Pechnikov A, Nikolaev I, Dowling G, Kolosova M, Grigoryev A. Detection of ADB-BUTINACA Metabolites in Human Urine, Blood, Kidney and Liver. J Anal Toxicol 2021; 46:641-650. [PMID: 34341821 DOI: 10.1093/jat/bkab088] [Citation(s) in RCA: 8] [Impact Index Per Article: 2.7] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/14/2021] [Revised: 06/12/2021] [Accepted: 08/02/2021] [Indexed: 01/20/2023] Open
Abstract
The N-butyl indazole derivative, ADB-BUTINACA (ADB-BINACA), currently a drug of abuse in Russia, is reported to have a cannabinoid receptor (CB1) potency and efficacy almost 3 times higher than JWH-018. ADB-BUTINACA was detected in blood from patients with suspected drug intoxications, as well as in blood, kidney and liver samples collected during postmortem investigations. Using liquid chromatography-time-of-flight-mass spectrometry, a number of ADB-BUTINACA metabolites were tentatively identified in urine samples. These include products of mono- and dihydroxylation, hydroxylation of the N-butyl side chain and dehydrogenation, formation of a dihydrodiol, hydrolysis of the terminal amide group, N-dealkylation of the indazole and a combination of these reactions. The dihydrodiol was found to be the predominant metabolite, with its chromatographic peak area exceeding those of other metabolites by almost an order of magnitude. For the routine analysis of blood, liver and kidney samples, the dihydrodiol and monohydroxylated metabolites along with the parent compound are recommended as target analytes. The same metabolites in free and glucuronidated forms are also recommended for analytical confirmation in urine samples.
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Affiliation(s)
- Pierce Kavanagh
- Department of Pharmacology and Therapeutics, School of Medicine, Trinity Centre for Health Sciences, Saint James's Hospital, Dublin D08 W9RT, Ireland
| | | | - Ivan Nikolaev
- Clinical and diagnostic Laboratory, Republican Narcological Dispensary, Pushkina str. 119, Ufa 450057, Russia
| | - Geraldine Dowling
- Department of Pharmacology and Therapeutics, School of Medicine, Trinity Centre for Health Sciences, Saint James's Hospital, Dublin D08 W9RT, Ireland
- School of Science, Institute of Technology Sligo, Ash Lane, Sligo F91 YW50, Ireland
| | - Mariia Kolosova
- Clinical and diagnostic Laboratory, Regional Narcological Dispensary, Kombaynostroiteley str. 5, Krasnoyarsk 660048, Russia
| | - Andrej Grigoryev
- Bureau of Forensic-Medical Expertises, Forensic-Chemical Division, 1th Vladimirskaya str. 33, build. 1, Moscow 111401, Russia
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Lopez K, Pinheiro S, Zamora WJ. Multiple linear regression models for predicting the n‑octanol/water partition coefficients in the SAMPL7 blind challenge. J Comput Aided Mol Des 2021; 35:923-931. [PMID: 34251523 PMCID: PMC8273033 DOI: 10.1007/s10822-021-00409-2] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/05/2021] [Accepted: 07/05/2021] [Indexed: 01/19/2023]
Abstract
A multiple linear regression model called MLR-3 is used for predicting the experimental n-octanol/water partition coefficient (log PN) of 22 N-sulfonamides proposed by the organizers of the SAMPL7 blind challenge. The MLR-3 method was trained with 82 molecules including drug-like sulfonamides and small organic molecules, which resembled the main functional groups present in the challenge dataset. Our model, submitted as "TFE-MLR", presented a root-mean-square error of 0.58 and mean absolute error of 0.41 in log P units, accomplishing the highest accuracy, among empirical methods and also in all submissions based on the ranked ones. Overall, the results support the appropriateness of multiple linear regression approach MLR-3 for computing the n-octanol/water partition coefficient in sulfonamide-bearing compounds. In this context, the outstanding performance of empirical methodologies, where 75% of the ranked submissions achieved root-mean-square errors < 1 log P units, support the suitability of these strategies for obtaining accurate and fast predictions of physicochemical properties as partition coefficients of bioorganic compounds.
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Affiliation(s)
- Kenneth Lopez
- School of Chemistry, University of Costa Rica, San Pedro, San José, Costa Rica
| | - Silvana Pinheiro
- Institute of Exact and Natural Sciences, Federal University of Pará, Belém, Pará, 66075-110, Brazil
| | - William J Zamora
- School of Chemistry, University of Costa Rica, San Pedro, San José, Costa Rica.
- Advanced Computing Lab (CNCA), National High Technology Center (CeNAT-CONARE), Pavas, San José, Costa Rica.
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Park C, Zuo J, Somayaji V, Lee BJ, Löbenberg R. Development of a novel cannabinoid-loaded microemulsion towards an improved stability and transdermal delivery. Int J Pharm 2021; 604:120766. [PMID: 34087415 DOI: 10.1016/j.ijpharm.2021.120766] [Citation(s) in RCA: 6] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/26/2021] [Revised: 05/20/2021] [Accepted: 05/30/2021] [Indexed: 02/07/2023]
Abstract
The aim of this study was to develop a stable microemulsion (ME) for transdermal delivery of tetrahydrocannabinolic acid (THCA) and cannabidiolic acid (CBDA). The lipid-based vehicles were selected by screening cannabinoid solubility and the emulsifying ability of surfactants. Pseudo-ternary phase diagrams were constructed by formulation of cannabinoids with Capryol® 90 as oil phase, Tween® 80, Solutol® HS15, Procetyl® AWS, and Cremophor® RH40 as surfactants, ethanol as cosurfactant, and distilled water as the aqueous phase. A significant improvement in transmembrane flux (Jss), permeability coefficient (Kp), and enhancement ratio (ER) was found in one system compared to other formulations. This ME consisted of 1.0% (w/w) of cannabinoids, 5% (w/w) of Capryol® 90, 44% (w/w) Smix (2:1, Procetyl® AWS and Ethanol) and 50.0% (w/w) of distilled water. Additionally, the effects of pH on the permeation of the cannabinoids were investigated. Based on the pH value THCA and CBDA-loaded ME exhibited the highest permeation at pH 5.17 and pH 5.25. After storing the pH-adjusted P2 ME and the optimized P2 ME for 180 days at 4℃ and 25℃, the content of cannabinoids was over 95%. Consequently, the cannabinoid-loaded ME system is a promising option for solubilizing and stabilizing lipophilic drugs like cannabinoids and utilize them for transdermal delivery.
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Affiliation(s)
- Chulhun Park
- Faculty of Pharmacy & Pharmaceutical Sciences, University of Alberta, Edmonton AB T6G 2E1, Canada; College of Pharmacy and Institute of Pharmaceutical Science and Technology, Ajou University, Suwon 16499, Republic of Korea.
| | - Jieyu Zuo
- Faculty of Pharmacy & Pharmaceutical Sciences, University of Alberta, Edmonton AB T6G 2E1, Canada.
| | - Vijay Somayaji
- Faculty of Pharmacy & Pharmaceutical Sciences, University of Alberta, Edmonton AB T6G 2E1, Canada.
| | - Beom-Jin Lee
- College of Pharmacy, Ajou University, Suwon 16499, South Korea; College of Pharmacy and Institute of Pharmaceutical Science and Technology, Ajou University, Suwon 16499, Republic of Korea.
| | - Raimar Löbenberg
- Faculty of Pharmacy & Pharmaceutical Sciences, University of Alberta, Edmonton AB T6G 2E1, Canada.
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Efeoglu Ozseker P, Daglioglu N, Gulmen MK, Tolunay I, Efeoglu F. Determination of AB-FUBINACA and 5F-NPB-22 in rats exposed to "Bonsai" via inhalation and analysis of seized product. Leg Med (Tokyo) 2021; 50:101869. [PMID: 33713938 DOI: 10.1016/j.legalmed.2021.101869] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/02/2020] [Revised: 01/05/2021] [Accepted: 02/27/2021] [Indexed: 10/22/2022]
Abstract
Synthetic cannabinoids (SCs) are the most rapidly growing class of recreational designer drugs. Illicit drug manufacturers began to produce herbal smoking materials under a variety of brands names, e.g. "Spice, K2, Bonsai, Yucatan Fire". They were appeared on the European market in 2008. In this study, types of SCs in the herbal product sold as "Bonsai" in Turkey were determined and the identification of these substances in biological samples collected from rats depending on the inhalation of different amounts of plant material were aimed. To determine the SC species in the content of the plant product, analysis was performed via gas chromatography-mass spectrometry. Liquid-liquid extraction methods were utilized for blood and organ samples, while solid-phase extraction with β-glucuronidase enzyme treatment was applied for urine sample preparation. The relationship between the amount of burned plant and the amount of SCs accumulated in the blood, urine and organ samples of rats exposed to the plant product by inhalation was examined by liquid chromatography-tandem mass spectrometry. AB-FUBINACA and 5F-NPB-22 were detected in the herbal product. A significant correlation was found between the amount of herbal product inhaled and the prevalence of SCs, especially in lung tissues while no SCs were detected in the blood and urine samples of rats. There is currently no study on biological samples of individuals exposed to herbal products containing SCs by inhalation. Regarding the findings obtained in this study, the overall increase in the amounts of herbal product inhaled was demonstrated to pose a potential risk to humans.
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Affiliation(s)
- Pinar Efeoglu Ozseker
- Department of Forensic Medicine, Faculty of Medicine, Cukurova University, Adana, Turkey.
| | - Nebile Daglioglu
- Department of Forensic Medicine, Faculty of Medicine, Cukurova University, Adana, Turkey
| | - Mete Korkut Gulmen
- Department of Forensic Medicine, Faculty of Medicine, Cukurova University, Adana, Turkey
| | - Ilknur Tolunay
- Adana City Education & Research Hospital, Child Intensive Care Department, Adana, Turkey
| | - Fehiman Efeoglu
- Department of Forensic Medicine, Faculty of Medicine, Cukurova University, Adana, Turkey
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A Systematic Study of the In Vitro Pharmacokinetics and Estimated Human In Vivo Clearance of Indole and Indazole-3-Carboxamide Synthetic Cannabinoid Receptor Agonists Detected on the Illicit Drug Market. Molecules 2021; 26:molecules26051396. [PMID: 33807614 PMCID: PMC7961380 DOI: 10.3390/molecules26051396] [Citation(s) in RCA: 7] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/18/2021] [Revised: 02/26/2021] [Accepted: 02/28/2021] [Indexed: 12/13/2022] Open
Abstract
In vitro pharmacokinetic studies were conducted on enantiomer pairs of twelve valinate or tert-leucinate indole and indazole-3-carboxamide synthetic cannabinoid receptor agonists (SCRAs) detected on the illicit drug market to investigate their physicochemical parameters and structure-metabolism relationships (SMRs). Experimentally derived Log D7.4 ranged from 2.81 (AB-FUBINACA) to 4.95 (MDMB-4en-PINACA) and all SCRAs tested were highly protein bound, ranging from 88.9 ± 0.49% ((R)-4F-MDMB-BINACA) to 99.5 ± 0.08% ((S)-MDMB-FUBINACA). Most tested SCRAs were cleared rapidly in vitro in pooled human liver microsomes (pHLM) and pooled cryopreserved human hepatocytes (pHHeps). Intrinsic clearance (CLint) ranged from 13.7 ± 4.06 ((R)-AB-FUBINACA) to 2944 ± 95.9 mL min−1 kg−1 ((S)-AMB-FUBINACA) in pHLM, and from 110 ± 34.5 ((S)-AB-FUBINACA) to 3216 ± 607 mL min−1 kg−1 ((S)-AMB-FUBINACA) in pHHeps. Predicted Human in vivo hepatic clearance (CLH) ranged from 0.34 ± 0.09 ((S)-AB-FUBINACA) to 17.79 ± 0.20 mL min−1 kg−1 ((S)-5F-AMB-PINACA) in pHLM and 1.39 ± 0.27 ((S)-MDMB-FUBINACA) to 18.25 ± 0.12 mL min−1 kg−1 ((S)-5F-AMB-PINACA) in pHHeps. Valinate and tert-leucinate indole and indazole-3-carboxamide SCRAs are often rapidly metabolised in vitro but are highly protein bound in vivo and therefore predicted in vivo CLH is much slower than CLint. This is likely to give rise to longer detection windows of these substances and their metabolites in urine, possibly as a result of accumulation of parent drug in lipid-rich tissues, with redistribution into the circulatory system and subsequent metabolism.
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Presley BC, Castaneto MS, Logan BK, Jansen-Varnum SA. Metabolic profiling of synthetic cannabinoid 5F-ADB and identification of metabolites in authentic human blood samples via human liver microsome incubation and ultra-high-performance liquid chromatography/high-resolution mass spectrometry. RAPID COMMUNICATIONS IN MASS SPECTROMETRY : RCM 2020; 34:e8908. [PMID: 32710798 DOI: 10.1002/rcm.8908] [Citation(s) in RCA: 9] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 05/18/2020] [Revised: 07/23/2020] [Accepted: 07/23/2020] [Indexed: 06/11/2023]
Abstract
RATIONALE Indazole carboxamide synthetic cannabinoids, a prevalent class of recreational drugs, are a major clinical, forensic and public health challenge. One such compound, 5F-ADB, has been implicated in fatalities worldwide. Understanding its metabolism and distribution facilitates the development of laboratory assays to substantiate its consumption. Synthetic cannabinoid metabolites have been extensively studied in urine; studies identifying metabolites in blood are limited and no data on the metabolic stability (half-life, clearance and extraction ratio) of 5F-ADB have been published prior to this report. METHODS The in vitro metabolism of 5F-ADB was elucidated via incubation with human liver microsomes for 2 h at 37°C. Samples were collected at multiple time points to determine its metabolic stability. Upon identification of metabolites, authentic forensic human blood samples underwent liquid-liquid extraction and were screened for metabolites. Extracts were analyzed via ultra-high-performance liquid chromatography/quadrupole time-of-flight mass spectrometry (UHPLC/QTOFMS) operated in positive electrospray ionization mode. RESULTS Seven metabolites were identified including oxidative defluorination (M1); carboxypentyl (M2); monohydroxylation of the fluoropentyl chain (M3.1/M3.2) and indazole ring system (M4); ester hydrolysis (M5); and ester hydrolysis with oxidative defluorination (M6). The half-life (3.1 min), intrinsic clearance (256.2 mL min-1 kg-1 ), hepatic clearance (18.6 mL min-1 kg-1 ) and extraction ratio (0.93) were determined for the first time. In blood, M1 was present in each sample as the most abundant substance; two samples contained M5; one contained 5F-ADB, M1 and M5. CONCLUSIONS 5F-ADB is rapidly metabolized in HLM. 5F-ADB, M1 and M5 are pharmacologically active at the cannabinoid receptors (CB1 /CB2 ) and M1 and M5 may contribute to a user's impairment profile. The results demonstrate that it is imperative that synthetic cannabinoid assays screen for pharmacologically active metabolites, especially for drugs with short half-lives. The authors propose that M1 and M5 are appropriate markers to include in laboratory blood tests screening for 5F-ADB.
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Affiliation(s)
- Brandon C Presley
- Department of Chemistry, Temple University, 1901 N. 13 St., Philadelphia, PA, 19122, USA
| | - Marisol S Castaneto
- Department of Pathology, Tripler Army Medical Center, 1 Jarrett White Rd., Honolulu, HI, 96859, USA
| | - Barry K Logan
- The Center for Forensic Science Research and Education at the Fredric Rieders Family Foundation, 2300 Stratford Ave, Willow Grove, PA, 19090, USA
| | - Susan A Jansen-Varnum
- Department of Chemistry, Temple University, 1901 N. 13 St., Philadelphia, PA, 19122, USA
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Comprehensive analysis of synthetic cannabinoids and metabolites in oral fluid by online solid-phase extraction coupled to liquid chromatography-triple quadrupole-mass spectrometry. Anal Bioanal Chem 2020; 412:7937-7953. [PMID: 32914400 DOI: 10.1007/s00216-020-02926-9] [Citation(s) in RCA: 5] [Impact Index Per Article: 1.3] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/02/2020] [Revised: 08/13/2020] [Accepted: 08/28/2020] [Indexed: 12/18/2022]
Abstract
The class of novel psychoactive substances known as synthetic cannabinoids (SC) includes illicit compounds that are sprayed on plant material and smoked or sold as liquids to be vaporized in e-cigarettes. In toxicological analysis of SC, fast analytical methods are needed for the detection and confirmation of parent drugs and metabolites at very low levels. While various analytical methods have been developed for SC in blood and urine, few are available for alternative matrices such as oral fluid (OF). There are numerous advantages to using OF as a sample matrix for SC analysis, including non-invasive collection, lesser risk of adulteration, and presence of both parent drug and metabolites. Here we report a validated online solid-phase extraction (online SPE) method coupled to LC-QqQ-MS for rapid confirmation and quantitation of 72 structurally diverse SC parent drugs and metabolites in OF with 2.5 min of preconcentration time and a total elution time of < 10 min. The use of online SPE for sample pretreatment facilitates rapid and consistent processing and greatly increases sample throughput. The method was fully validated according to relevant guidelines (ANSI/ASB Standard 036). Bias and precision values were within ± 20% for all compounds in human OF matrix. Method detection and quantitation limits ranged from 0.4 to 3.8 ng/mL and from 1.1 to 11.6 ng/mL, respectively. Recovery, matrix effects, process efficiency, carryover, and stability were also within acceptable limits for the majority of compounds. Successful application of the method was demonstrated using blank human OF fortified with SC in addition to a set of authentic OF specimens previously tested by another laboratory. Graphical abstract.
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Affiliation(s)
- Piotr Adamowicz
- Department of Forensic Toxicology, Institute of Forensic Research, Kraków, Poland
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