In vitro metabolic profiling of new synthetic cannabinoids, ADB-FUBIATA, AFUBIATA, CH-FUBIATA, and CH-PIATA.
Shimpei WatanabeHiroshi YamaneTakahiro IwaiRitsuko MatsushitaToshio NakanishiPublished in: Archives of toxicology (2023)
In the recreational drug market, synthetic cannabinoids with a new acetamide linker structure emerged, most likely to circumvent the law. As the knowledge of drug metabolites is vital for proving drug consumption, the phase I metabolism of the newly emerging cannabinoids, ADB-FUBIATA, AFUBIATA, CH-FUBIATA, and CH-PIATA, was investigated. Each drug (10 μmol/L) was incubated with human liver microsomes for 1 h, and the samples, after dilution, were analyzed by liquid chromatography-high-resolution mass spectrometry. All drugs were metabolized via hydroxylation and N-dealkylation, while AFUBIATA and CH-PIATA additionally underwent ketone formation. The metabolites AF7 (hydroxylated at the indole/adjacent methylene) of ADB-FUBIATA, A16 (hydroxylated at the adamantane) of AFUBIATA, CF15 (hydroxylated at the cyclohexane) of CH-FUBIATA, and CP9 (hydroxylated at the pentane) of CH-PIATA were the most abundant metabolites by considering the peak areas on the chromatograms, and are recommended for urinalysis. The structure-metabolism relationship was also discussed, which generally agreed well with previously reported metabolic pathways of other synthetic cannabinoids. However, the preferred hydroxylation site of ADB-FUBIATA, the indole/adjacent methylene, clearly differed from that of ADB-FUBICA, the 3,3-dimethylbutanamide moiety, despite their structures differing only by a methylene group, emphasizing that metabolic predictions of new drugs should not replace in vitro experimental analyses, albeit helpful.