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Characterization of recent non-fentanyl synthetic opioids via three different in vitro µ-opioid receptor activation assays

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An In vitro systems to this article was published on 31 July 2020

Abstract

New synthetic opioids (NSOs) are one of the fastest growing groups of new psychoactive substances. Amid this dynamic landscape, insight into the pharmacology of NSOs is important to estimate the harm potential of newly emerging drugs. In this work, we determined the µ-opioid receptor (MOR) affinity and activation potential of seven poorly characterized non-fentanyl NSOs (N-ethyl-U-47700, 3,4-difluoro-U-47700, U-47931E/bromadoline, 2,4-difluoro-U-48800, U-62066/spiradoline, 2F-viminol, ketobemidone) and a panel of nine reference opioids. MOR affinity was determined via [3H]-DAMGO binding in rat brain tissue homogenates, and was found to correlate well with different functional parameters. MOR activation potential was studied at different levels of receptor signaling using three distinct assays (NanoBiT® MOR-β-arrestin2/mini-Gαi and AequoScreen®). The most active compounds were ketobemidone (EC50 32.8–528 nM; Emax 105–271%, relative to hydromorphone) and N-ethyl-U-47700 (EC50 241–767 nM; Emax 139–247%). The same opioids showed the strongest MOR affinity. As most of the other NSOs only weakly activated MOR in the three assays (EC50 values in the high nM–µM range), they likely do not pose a high overdose risk. 2F-viminol (EC50 2.2–4.5 µM; Emax 21.2–61.5%) and U-47931E/bromadoline (EC50 0.55–2.9 µM; Emax 52.8–85.9%) were partial agonists compared to hydromorphone, and maximum receptor activation was not reached for 2,4-difluoro-U-48800 (EC50 > 22 µM). We further highlight the importance of considering specific assay characteristics upon interpretation of potencies, efficacies and biased agonism. As absolute values may greatly differ between assays with varying experimental set-ups, a comparison of functional parameters to those of well-characterized reference agonists is considered the most informative.

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Funding

This work was supported by the Research Foundation-Flanders (FWO) (Grant Number [1S81522N] to M.M.V. and [G069419N] to C.P.S.) and the Ghent University Special Research Fund (BOF) (Grant Number [01J15517] to C.P.S.). D.W. and M.H.B. are generously supported by the Intramural Research Program (IRP) of the National Institute on Drug Abuse (NIDA), National Institutes of Health (NIH) (Grant Number [DA 000523-13]). Some part of the research was funded by The Strategic Research Area in Forensic Sciences at Linköping University.

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Correspondence to Christophe P. Stove.

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Vandeputte, M.M., Persson, M., Walther, D. et al. Characterization of recent non-fentanyl synthetic opioids via three different in vitro µ-opioid receptor activation assays. Arch Toxicol 96, 877–897 (2022). https://doi.org/10.1007/s00204-021-03207-9

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  • DOI: https://doi.org/10.1007/s00204-021-03207-9

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