A series of quinazolin-4(3H)-one-morpholine hybrids as anti-lung-cancer agents: Synthesis, molecular docking, molecular dynamics, ADME prediction and biological activity studies.

In this study, we synthesized 15 novel quinazoline-morpholinobenzylideneamino hybrid compounds from methyl anthranilate and we assessed their cytotoxicity via in vitro assays against A549 and BEAS-2B cell lines. Molecular docking studies were conducted to evaluate the protein-ligand interactions and inhibition mechanisms on nine different molecular targets, while molecular dynamics (MD) simulations were carried out to assess the stability of the best docked ligand-protein complexes. Additionally, ADME prediction was carried out to determine physicochemical parameters and drug likeness. According to the cytotoxicity assays, compound 1 (IC = 2.83 μM) was found to be the most active inhibitor against A549 cells. While the selectivity index (SI) of compound 1 is 29, the SI of the reference drugs paclitaxel and sorafenib, used in this study, are 2.40 and 4.92, respectively. Among the hybrid compounds, 1 has the best docking scores against VEGFR1 (-11.744 kcal/mol), VEGFR2 (-12.407 kcal/mol) and EGFR (-10.359 kcal/mol). During MD simulations, compound 1 consistently exhibited strong hydrogen bond interactions with the active sites of VEGFR1 and 2, and these interactions were maintained for more than 90% of the simulation time. Additionally, the RMSD and RMSF values of the ligand-protein complexes exhibited high stability at their minimum levels around 1-2 Å. In conclusion, these findings suggest that compound 1 may be a potent and selective inhibitor candidate for lung cancer treatment and inhibition of VEGFR2, especially.