Sun_2020_Bioorg.Chem_96_103637

Reference

Title : Protostane-type triterpenoids as natural soluble epoxide hydrolase inhibitors: Inhibition potentials and molecular dynamics - Sun_2020_Bioorg.Chem_96_103637
Author(s) : Sun CP , Zhang J , Zhao WY , Yi J , Yan JK , Wang YL , Morisseau C , Liu ZB , Hammock BD , Ma XC
Ref : Bioorg Chem , 96 :103637 , 2020
Abstract :

The inhibition of soluble epoxide hydrolase (sEH) is a promising therapeutic approach to treat inflammation and other disorders. In our present investigation on searching for sEH inhibitors from traditional Chinese medicines, we found that Alisma orientale displayed inhibition of sEH. We constructed a small library of protostane-type triterpenoids (1-25) isolated from A. orientale, and screened their inhibitory activities. Alismanin B (1), 11-deoxy-25-anhydro alisol E (4), 11-deoxy alisol B (5), and 25-O-ethyl alisol A (15) displayed concentration-dependently inhibitory activities against sEH with IC50 values from 3.40 +/- 0.57 muM to 9.57 +/- 0.88 muM. 11-Deoxy-25-anhydro alisol E (4) and 11-deoxy alisol B (5) were defined as mixed-type competitive inhibitors with Ki values of 12.6 and 3.48 muM, respectively, based on the result of inhibition kinetics. The potential interaction mechanism of 11-deoxy alisol B (5) with sEH was analyzed by molecular docking and molecular dynamics, revealing that amino acid residues Trp336 and Tyr466 were vital for its inhibitory activity.

PubMedSearch : Sun_2020_Bioorg.Chem_96_103637
PubMedID: 32032849

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Citations formats

Sun CP, Zhang J, Zhao WY, Yi J, Yan JK, Wang YL, Morisseau C, Liu ZB, Hammock BD, Ma XC (2020)
Protostane-type triterpenoids as natural soluble epoxide hydrolase inhibitors: Inhibition potentials and molecular dynamics
Bioorg Chem 96 :103637

Sun CP, Zhang J, Zhao WY, Yi J, Yan JK, Wang YL, Morisseau C, Liu ZB, Hammock BD, Ma XC (2020)
Bioorg Chem 96 :103637