Human metabolism and basic pharmacokinetic evaluation of AP-238: A recently emerged acylpiperazine opioid.
Ascanio SirignanoDiletta BerardinelliArianna GiorgettiHannes Max SchwelmBelal HaschimiSusi PelottiFrancesco Paolo BusardòVolker AuwärterPublished in: Drug testing and analysis (2023)
As a consequence of recently implemented legal restrictions on fentanyl analogs, a new generation of acylpiperazine opioids appeared on the illicit drug market. AP-238 was the latest opioid in this series to be notified by the European Early Warning System in 2020 and was involved in an increasing number of acute intoxications. AP-238 metabolism was investigated to provide useful markers of consumption. For the tentative identification of the main phase I metabolites, a pooled human liver microsome assay was performed. Further, four whole blood and two urine samples collected during post-mortem examinations and samples from a controlled oral self-administration study were screened for anticipated metabolites. In total, 12 AP-238 phase I metabolites were identified through liquid chromatography-quadrupole time-of-flight mass spectrometry in the in vitro assay. All of these were confirmed in vivo, and additionally, 15 phase I and five phase II metabolites were detected in the human urine samples, adding up to a total of 32 metabolites. Most of these metabolites were also detected in the blood samples, although mostly with lower abundances. The main in vivo metabolites were built by hydroxylation combined with further metabolic reactions such as O-methylation or N-deacylation. The controlled oral self-administration allowed us to confirm the usefulness of these metabolites as proof of intake in abstinence control. The detection of metabolites is often crucial to documenting consumption, especially when small traces of the parent drug can be found in real samples. The in vitro assay proved to be suitable for the prediction of valid biomarkers of novel synthetic opioid intake.
Keyphrases
- ms ms
- chronic pain
- liquid chromatography
- transcription factor
- clinical trial
- phase ii
- mass spectrometry
- endothelial cells
- high throughput
- dna methylation
- gene expression
- intensive care unit
- high performance liquid chromatography
- atomic force microscopy
- liver failure
- tandem mass spectrometry
- respiratory failure
- molecular docking
- pluripotent stem cells
- weight gain
- high speed
- single molecule
- sensitive detection