Barnych_2020_Eur.J.Med.Chem_193_112206

Reference

Title : Development of potent inhibitors of the human microsomal epoxide hydrolase - Barnych_2020_Eur.J.Med.Chem_193_112206
Author(s) : Barnych B , Singh N , Negrel S , Zhang Y , Magis D , Roux C , Hua X , Ding Z , Morisseau C , Tantillo DJ , Siegel JB , Hammock BD
Ref : Eur Journal of Medicinal Chemistry , 193 :112206 , 2020
Abstract :

Microsomal epoxide hydrolase (mEH) hydrolyzes a wide range of epoxide containing molecules. Although involved in the metabolism of xenobiotics, recent studies associate mEH with the onset and development of certain disease conditions. This phenomenon is partially attributed to the significant role mEH plays in hydrolyzing endogenous lipid mediators, suggesting more complex and extensive physiological functions. In order to obtain pharmacological tools to further study the biology and therapeutic potential of this enzyme target, we describe the development of highly potent 2-alkylthio acetamide inhibitors of the human mEH with IC50 values in the low nanomolar range. These are around 2 orders of magnitude more potent than previously obtained primary amine, amide and urea-based mEH inhibitors. Experimental assay results and rationalization of binding through docking calculations of inhibitors to a mEH homology model indicate that an amide connected to an alkyl side chain and a benzyl-thio function as key pharmacophore units.

PubMedSearch : Barnych_2020_Eur.J.Med.Chem_193_112206
PubMedID: 32203787
Gene_locus related to this paper: human-EPHX1 , mouse-EPHX1

Related information

Inhibitor 62-mEH
Gene_locus human-EPHX1    mouse-EPHX1

Citations formats

Barnych B, Singh N, Negrel S, Zhang Y, Magis D, Roux C, Hua X, Ding Z, Morisseau C, Tantillo DJ, Siegel JB, Hammock BD (2020)
Development of potent inhibitors of the human microsomal epoxide hydrolase
Eur Journal of Medicinal Chemistry 193 :112206

Barnych B, Singh N, Negrel S, Zhang Y, Magis D, Roux C, Hua X, Ding Z, Morisseau C, Tantillo DJ, Siegel JB, Hammock BD (2020)
Eur Journal of Medicinal Chemistry 193 :112206