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Isolation of Chalcomoracin as a Potential α-Glycosidase Inhibitor from Mulberry Leaves and Its Binding Mechanism

Yang Liu, Xue Zhou, Dan Zhou, Yongxing Jian, Jingfu Jia, Fahuan Ge

2022Molecules18 citationsDOIOpen Access PDF

Abstract

) as an antidiabetic herb in China, and we found that chalcomoracin, one of the specific Diels-Alder adducts in mulberry leaf, had prominent α-glucosidase inhibitory activity and has the potential to be a substitute for current hypoglycemic drugs such as acarbose, which have severe gastrointestinal side effects. In this study, chalcomoracin was effectively isolated from mulberry leaves, and its α-glucosidase inhibition was studied via enzymatic kinetics, isothermal titration (ITC) and molecular docking. The results showed that chalcomoracin inhibited α-glucosidase through both competitive and non-competitive manners, and its inhibitory activity was stronger than that of 1-doxymycin (1-DNJ) but slightly weaker than that of acarbose. ITC analysis revealed that the combination of chalcomoracin and α-glucosidase was an entropy-driven spontaneous reaction, and the molecular docking results also verified this conclusion. During the binding process, chalcomoracin went into the "pocket" of α-glucosidase via hydrophobic interactions, and it is linked with residues Val544, Asp95, Ala93, Gly119, Arg275 and Pro287 by hydrogen bonds. This study provided a potential compound for the prevention and treatment of diabetes and a theoretical basis for the discovery of novel candidates for α-glycosidase inhibitors.

Topics & Concepts

AcarboseChemistryDocking (animal)EnzymeBiochemistryNon-competitive inhibitionGlycoside hydrolaseIsothermal titration calorimetryStereochemistryNursingMedicineNatural Antidiabetic Agents StudiesPhytochemicals and Antioxidant ActivitiesEssential Oils and Antimicrobial Activity
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