Design, synthesis, biological evaluation and multi spectroscopic studies of novel 2-styrylquinoline-carboxamide derivatives as potential DNA intercalating anticancer agents.

In this study, novel 2-styrylquinoline derivatives possessing a planar aromatic system and a flexible side chain with an amino substituent were designed and synthesized as DNA-intercalating antitumor agents. The cytotoxic activity of the synthesized compounds was evaluated against four cancer cell lines including MCF-7 (breast cancer cells), A549 (lung epithelial cancer cells), HCT116 (colon cancer cells) and normal cell line L929 (mouse fibroblast cell line). The results displayed that the anti-cancer activity of the target quinolines is sensitive to the lipophilic nature of the C-6 and C-7 quinoline substituents. The anticancer activity of most of the target quinolines against MCF-7 and A549 cells was more than those of HCT116. Compound 3h possessing two methyl groups at the C-6 and C-7 of quinoline ring displayed the most cytotoxicity with IC value of 5.7 µM against A549 cancer cells. Interaction of compound 3h with calf thymus DNA (ctDNA) was investigated by means of UV absorption spectrophotometry, fluorescence spectroscopy, circular dichroism (CD), Resonance light scattering (RLS), viscos metric techniques and also by docking and molecular dynamic studies. RLS intensity, fluorescence quenching of ctDNA and fluorescence quenching EtBr-ctDNA and AO-ctDNA complexes augmented with increasing of compound 3h concentration, significant increasing in viscosity and melting point of ctDNA in the presence of compound 3h, absorbance increasing of ctDNA-compound 3h complex by increasing of NaCl and KI concentrations, higher K value for dsctDNA (3.03 × 10 M) compared to ssctDNA (1.31 × 10 M), circular dichroism (CD) studies, docking and molecular dynamic studies revealed that compound 3h can interact with ctDNA through intercalation into DNA.