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Design, synthesis, and structure–activity relationship study of <scp><i>O</i>‐prenylated</scp> 3‐acetylcoumarins as potent inhibitors of soybean <scp>15‐lipoxygenase</scp>

Sara Zerangnasrabad, Atena Jabbari, Elahe Khavari Moghadam, Hamid Sadeghian, Seyed Mohammad Seyedi

2021Drug Development Research12 citationsDOI

Abstract

Abstract In this work, the design, synthesis, and structure–activity relationships of a novel array of geranyloxy and farnesyloxy 3‐acetylcoumarin s were reported as potent soybean 15‐lipoxygenase inhibitors. Among the prepared coumarins, 7‐farnesyloxy‐3‐acetylcoumarin ( 12b ) was found to be the most potent inhibitor by IC 50 = 0.68 μM while O ‐geranyl substituents at positions 5 and 6 of 3‐acetylcoumarin ( 10a and 11a ) were not inhibitors. Using docking studies, the binding affinity and the preferred pose of synthetic compounds were considered. It was found that lipoxygenase inhibitory activity and prenyl length chain were directly related. The hydrophobic cavity of the enzyme was more effectively occupied by the farnesyl moiety of the potent inhibitor 12b rather than other derivatives. Also, with this pose of farnesyl chain in 7‐farnesyloxy‐3‐acetylcoumarins, the acetyl group could be directed to the hydrophilic pocket in the active site.

Topics & Concepts

PrenylationChemistryStereochemistryMoietyLipoxygenaseDocking (animal)IC50Structure–activity relationshipEnzymeEnzyme inhibitorBiochemistryIn vitroNursingMedicineSynthesis of Organic CompoundsBioactive Compounds and Antitumor AgentsSynthesis and biological activity
Design, synthesis, and structure–activity relationship study of <scp><i>O</i>‐prenylated</scp> 3‐acetylcoumarins as potent inhibitors of soybean <scp>15‐lipoxygenase</scp> | Litcius