The influence of β-cyclodextrin on the interaction of hesperetin and its bismuth (III) complex with calf thymus DNA

Abstract

The interaction between hesperetin (Hes)/hesperetin–Bi (III) complex (Bhes) and β-cyclodextrin (β-CD) was analyzed in the solid and the solution phase. The interaction of hesperetin [5,7,3′-trihydroxyl-4′-methoxyl-flavanone] and its bismuth complex with calf thymus DNA (ctDNA) in the absence and the presence of β-CD was studied by absorption and fluorescence techniques. Docking of Hes with β-CD/DNA was carried out to study the binding theoretically. Hyperchromic and fluorescence enhancement was observed for the interaction between Hes/Bhes and β-CD. Hes interact with β-CD to form 1:2 complexes whereas Bhes shows 1:1 complexation. The effect of β-CD on the binding strength of Hes/Bhes with ctDNA was observed. Hyperchromic effect and fluorescence quenching were observed for the binding of Hes/Bhes and ctDNA in the absence and the presence of β-CD. Significant enhancement in the fluorescence intensity of Hes–ctDNA and Bhes–ctDNA was noticed in the β-CD solution. The fluorescence study showed that the quenching of Hes–ctDNA interaction was of static type, whereas Bhes–ctDNA is of dynamic type. Low Stern–Volmer quenching constant of β-CD-bound-Hes, in comparison with Hes was observed which might be due to cleavage of Hes from DNA by inclusion complexation between Hes and β-CD. The similar order of magnitude of Stern–Volmer quenching of Bhes in the aqueous and the β-CD solutions might be due to electrostatic interaction between the Bi and DNA predominantly. The study on the interaction of Hes/Bhes with ctDNA in competition with methylene blue (MB) supported the existence of electrostatic interaction.