Aneugenic effects of the genistein glycosidic derivative substituted at C7 with the unsaturated disaccharide

Genistein, due to its recognized chemopreventive and antitumour potential, is a molecule of interest as a lead compound in drug design. Recently, we found that the novel genistein derivative, [7-O-(2,3,4,6-tetra-O-acetyl-β-D-galactopyranosyl)-(1?→?4)-(6-O-acetyl-hex-2-ene-α-D-erythro pyranosyl)genistein, named G21, induced aberrations in mitotic spindle formation. In the presented study, we investigated the properties of G21 relevant to its genotoxic activity. The inhibition of topoisomerase IIα activity was evaluated in decatenation assay and immunoband depletion assay, the covalent DNA-topoisomerase IIα complexes and histone ?H2AX were detected immunofluorescently. Genotoxic effects of the tested compounds were assessed in micronucleation assay. The presence of centromeres in the micronuclei and the multiplication of centrosomes were evaluated in fluorescence immunolabelled specimens. The inhibition of tubulin polymerization was measured spectrophotometrically. We found that both tested drugs were able to inhibit topoisomerase II activity; however, G21, in contrast to genistein, blocked this enzyme at the concentration far exceeding cytotoxic IC(50). We also found that both compounds caused micronucleation in DU 145 prostate cancer cells, but in contrast to genistein, G21 exhibited aneugenic activity, manifested by the presence of centromeres in micronuclei formed in cells treated with the drug. Aneugenic properties of G21 resulted from the inhibition of tubulin polymerization and centrosome disruption, not observed in the presence of genistein. The study supports and extends our previous observations that the mechanisms of cytotoxicity of genistein and its new glycosidic derivative-G21 are significantly different.