Cytotoxic activity of substituted chalcones in terms of molecular electronic properties.

Global chemical reactivity descriptors and lipophilicity (logP) were evaluated via density functional theory in order to clarify the structure-cytotoxic activity relationships of substituted chalcones. Stepwise multiple regression was employed to establish correlation between descriptors and cytotoxic activity against three cancer cell lines (HL-60, NALM-6 and WM-115) for 11 compounds. Regression analysis revealed that electrophilicity index and chemical potential significantly contributed in explaining of chalcones cytotoxic potential. Moreover, the established structure-activity relationships based on electronic structure properties allow indicating the substructures responsible for their cytotoxic activity. The study has also been supported by crystallographic data of 2-chloro-2'-hydroxychalcone.