Design and novel synthetic approach supported with molecular docking and biological evidence for naphthoquinone-hydrazinotriazolothiadiazine analogs as potential anticancer inhibiting topoisomerase-IIB.

Abstract

A novel synthetic approach was developed for the synthesis of 3-hydrazinotriazolothiadiazines in just one step from Purpald and phenacyl bromides. They were then selectively tethered to naphthoquinone fragments through hydrazine moiety generating novel Naphthoquinone-hydrazinotriazolothiadiazine analogues. In vitro cytotoxicity for the synthesized chemical entities was validated against HepG2 and MCF-7 cell lines and recorded IC50 inhibitory profile range of 0.07-19.68µM and 1.19-67.32µM respectively. Among the synthesized series, compound 4c had maximal cytotoxicity against HepG2 and was therefore selected for further downstream biological investigations. Caspase 3 apoptotic marker was significantly upregulated in cells treated with compound 4c with induction of apoptosis at Pre-G1 phase and cell death at G2/M phase. Compounds 4a, 4c and 4d exhibited the most powerful inhibitory range (0.55-0.64µM) against Topo IIB. Molecular docking study revealed potential interactions of those compounds within the ATP catalytic binding domain of Topo-IIB with high scores. In conclusion, the novel Naphthoquinone-hydrazinotriazolothiadiazine analogues could serve as promising anticancer agents through inhibition of Topoisomerase-IIB.