Detection and phase I metabolism of the 7‐azaindole‐derived synthetic cannabinoid 5F‐AB‐P7AICA including a preliminary pharmacokinetic evaluation

Detection and phase I metabolism of the 7‐azaindole‐derived synthetic cannabinoid 5F‐AB‐P7AICA including a preliminary pharmacokinetic evaluation

In June 2018, a 'research chemica'l labeled 'AB‐FUB7AICA' was purchased online and analytically identified as 5F‐AB‐P7AICA, the 7‐azaindole analog of 5F‐AB‐PINACA. Here we present data on structural characterization, suitable urinary consumption markers, and preliminary pharmacok...

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Veröffentlicht in:Drug testing and analysis 2020-01, Vol.12 (1), p.78-91
Hauptverfasser: Giorgetti, Arianna, Mogler, Lukas, Haschimi, Belal, Halter, Sebastian, Franz, Florian, Westphal, Folker, Fischmann, Svenja, Riedel, Jan, Pütz, Michael, Auwärter, Volker
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7‐azaindole derivatives
Chromatography
human liver microsomes
Mass spectrometry
Metabolites
new psychoactive substances
Pharmacokinetics
Scientific imaging
Urine
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container_issue 1
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container_title Drug testing and analysis
container_volume 12
creator Giorgetti, Arianna
Mogler, Lukas
Haschimi, Belal
Halter, Sebastian
Franz, Florian
Westphal, Folker
Fischmann, Svenja
Riedel, Jan
Pütz, Michael
Auwärter, Volker
description In June 2018, a 'research chemica'l labeled 'AB‐FUB7AICA' was purchased online and analytically identified as 5F‐AB‐P7AICA, the 7‐azaindole analog of 5F‐AB‐PINACA. Here we present data on structural characterization, suitable urinary consumption markers, and preliminary pharmacokinetic data. Structure characterization was performed by nuclear magnetic resonance spectroscopy, gas chromatography–mass spectrometry, infrared and Raman spectroscopy. Phase I metabolites were generated by applying a pooled human liver microsome assay (pHLM) to confirm the analysis results of authentic urine samples collected after oral self‐administration of 2.5 mg 5F‐AB‐P7AICA. Analyses of pHLM and urine samples were performed by liquid chromatography−time‐of‐flight mass spectrometry and liquid chromatography–tandem mass spectrometry (LC–MS/MS). An LC–MS/MS method for the quantification of 5F‐AB‐P7AICA in serum was validated. Ten phase I metabolites were detected in human urine samples and confirmed in vitro. The main metabolites were formed by hydroxylation, amide hydrolysis, and hydrolytic defluorination, though – in contrast with most other synthetic cannabinoids – the parent compound showed the highest signals in most urine samples. The compound detection window was more than 45 hours in serum. The concentration‐time profile was best explained by a two‐phase pharmacokinetic model. 5F‐AB‐P7AICA was detected in urine samples until 65 hours post ingestion. Monitoring of metabolite M07, hydroxylated at the alkyl chain, next to parent 5F‐AB‐P7AICA, is recommended to confirm the uptake of 5F‐AB‐P7AICA in urinalysis. It seems plausible that the shift of the nitrogen atom from position 2 to 7 (e.g. 5F‐AB‐PINACA to 5F‐AB‐P7AICA) leads to a lower metabolic reactivity, which might be of general interest in medicinal chemistry. Structural characterization, in vitro and in vivo metabolism and preliminary pharmacokinetics dataof the novel 7‐AI‐derived synthetic cannabinoid 5FAB‐P7AICA are presented.
doi_str_mv 10.1002/dta.2692
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subjects 7‐azaindole derivatives
Chromatography
human liver microsomes
Mass spectrometry
Metabolites
new psychoactive substances
Pharmacokinetics
Scientific imaging
Urine
title Detection and phase I metabolism of the 7‐azaindole‐derived synthetic cannabinoid 5F‐AB‐P7AICA including a preliminary pharmacokinetic evaluation
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