Title : Requirements for mammalian carboxylesterase inhibition by substituted ethane-1,2-diones - Parkinson_2011_Bioorg.Med.Chem_19_4635 |
Author(s) : Parkinson EI , Hatfield MJ , Tsurkan L , Hyatt JL , Edwards CC , Hicks LD , Yan B , Potter PM |
Ref : Bioorganic & Medicinal Chemistry , 19 :4635 , 2011 |
Abstract :
Carboxylesterases (CE) are ubiquitous enzymes found in both human and animal tissues and are responsible for the metabolism of xenobiotics. This includes numerous natural products, as well as a many clinically used drugs. Hence, the activity of these agents is likely dependent upon the levels and location of CE expression. We have recently identified benzil is a potent inhibitor of mammalian CEs, and in this study, we have assessed the ability of analogues of this compound to inhibit these enzymes. Three different classes of molecules were assayed: one containing different atoms vicinal to the carbonyl carbon atom and the benzene ring [PhXC(O)C(O)XPh, where X=CH(2), CHBr, N, S, or O]; a second containing a panel of alkyl 1,2-diones demonstrating increasing alkyl chain length; and a third consisting of a series of 1-phenyl-2-alkyl-1,2-diones. In general, with the former series of molecules, heteroatoms resulted in either loss of inhibitory potency (when X=N), or conversion of the compounds into substrates for the enzymes (when X=S or O). However, the inclusion of a brominated methylene atom resulted in potent CE inhibition. Subsequent analysis with the alkyl diones [RC(O)C(O)R, where R ranged from CH(3) to C(8)H(1)(7)] and 1-phenyl-2-alkyl-1,2-diones [PhC(O)C(O)R where R ranged from CH(3) to C(6)H(1)(3)], demonstrated that the potency of enzyme inhibition directly correlated with the hydrophobicity (clogP) of the molecules. We conclude from these studies that that the inhibitory power of these 1,2-dione derivatives depends primarily upon the hydrophobicity of the R group, but also on the electrophilicity of the carbonyl group. |
PubMedSearch : Parkinson_2011_Bioorg.Med.Chem_19_4635 |
PubMedID: 21733699 |
Inhibitor | Dicyclohexylethanedione |
Parkinson EI, Hatfield MJ, Tsurkan L, Hyatt JL, Edwards CC, Hicks LD, Yan B, Potter PM (2011)
Requirements for mammalian carboxylesterase inhibition by substituted ethane-1,2-diones
Bioorganic & Medicinal Chemistry
19 :4635
Parkinson EI, Hatfield MJ, Tsurkan L, Hyatt JL, Edwards CC, Hicks LD, Yan B, Potter PM (2011)
Bioorganic & Medicinal Chemistry
19 :4635