Assessment of NSAIDs as potential inhibitors of the fatty acid amide hydrolase I (FAAH-1) using three different primary fatty acid amide substrates in vitro

Julius T. Dongdem, Gideon K. Helegbe, Kwame Opare-Asamoah, Cletus A. Wezena, Augustine Ocloo

Research output: Contribution to journalArticlepeer-review

8 Citations (Scopus)

Abstract

Background: Pain relief remains a major subject of inadequately met need of patients. Therapeutic agents designed to treat pain and inflammation so far have low to moderate efficiencies with significant untoward side effects. FAAH-1 has been proposed as a promising target for the discovery of drugs to treat pain and inflammation without significant adverse effects. FAAH-1 is the primary enzyme accountable for the degradation of AEA and related fatty acid amides. Studies have revealed that the simultaneous inhibition of COX and FAAH-1 activities produce greater pharmacological efficiency with significantly lowered toxicity and ulcerogenic activity. Recently, the metabolism of endocannabinoids by COX-2 was suggested to be differentially regulated by NSAIDs. Methods: We analysed the affinity of oleamide, arachidonamide and stearoylamide at the FAAH-1 in vitro and investigated the potency of selected NSAIDs on the hydrolysis of endocannabinoid-like molecules (oleamide, arachidonamide and stearoylamide) by FAAH-1 from rat liver. NSAIDs were initially screened at 500 μM after which those that exhibited greater potency were further analysed over a range of inhibitor concentrations. Results: The substrate affinity of FAAH-1 obtained, increased in a rank order of oleamide < arachidonamide < stearoylamide with resultant Vmax values in a rank order of arachidonamide > oleamide > stearoylamide. The selected NSAIDs caused a concentration-dependent inhibition of FAAH-1 activity with sulindac, carprofen and meclofenamate exhibiting the greatest potency. Michaelis-Menten analysis suggested the mode of inhibition of FAAH-1 hydrolysis of both oleamide and arachidonamide by meclofenamate and indomethacin to be non-competitive in nature. Conclusion: Our data therefore suggest potential for study of these compounds as combined FAAH-1-COX inhibitors.

Original languageEnglish
Article number1
JournalBMC Pharmacology and Toxicology
Volume23
Issue number1
DOIs
Publication statusPublished - Dec 2022

Keywords

  • Affinity
  • Arachidonamide
  • Arachidonamide
  • FAAH-1
  • Hydrolysis
  • Inhibition
  • Mode
  • NSAIDs
  • Oleamide
  • Stearoylamide

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