Design, Synthesis, Physicochemical Properties, and Biological Activity of Thymidine Compounds Attached to 5,8-Quinolinedione Derivatives as Potent DT-Diaphorase Substrates.

After heart disease, cancer is the second-leading cause of death worldwide. The most effective method of cancer treatment is target therapy. One of the potential goals of therapy could be DT-diaphorase, which reduces quinone moiety to hydroquinone, and reactive oxygen species are create as a byproduct. The obtaining of hybrid compounds containing the quinone moiety and other bioactive compounds leads to new derivatives which can activate DT-diaphorase. The aim of this research was the synthesis and characterization of new hybrids of 5,8-quinolinedione with thymidine derivatives. The analysis of the physicochemical properties shows a strong relationship between the structure and properties of the tested compounds. The enzymatic assay shows that hybrids are good substrates of NQO1 protein. The analysis of the structure-activity relationship shows that the localization of nitrogen atoms influences the enzymatic conversion rate. The analysis was supplemented by a molecular docking study. Comparing the results of the enzymatic assay and the molecular docking presents a strong correlation between the enzymatic conversion rate and the scoring value.