Design and synthesis of gefitinib derivatives as potential drugs for cancer treatment: antiproliferative activity, molecular docking, and ADMET prediction

Abstract

Background: Non-small cell lung cancer is one of the most common cancers worldwide, and targeted chemotherapy has become a kind of the main treatment. Gefitinib, the most widely studied targeted agent in non-small cell lung cancer, is an orally active tyrosine kinase inhibitor. However, gefitinib inevitably generates acquired drug resistance, leading to treatment failure. Objective: A new class of compounds containing 4-anilinoquinazoline lead structure was designed and synthesized by modifying the structure of gefitinib. These compounds are expected to exert better anticancer activity and better binding to the EGFR-TK domain, enrich the structure of 4-anilinoquinazoline derivatives and inspire further structural modifications. Method: The antiproliferative activity of nine derivatives was determined in three cancer cell lines (A549, PC9, and HepG2) using the MTT method. The ADMET profile of all compounds was predicted, and the binding affinity of the compounds (5 and 6) to EGFR was predicted by Schrödinger. In addition, the effect of these compounds (3-6) in inducing apoptosis in HepG2 cells was also studied. Results: Four (3, 5, 6 and 9) of the newly synthesized derivatives exhibited superior antiproliferative activity against A549 to gefitinib (IC50 = 12.64 ± 3.59 μM), with compound 5 having the best activity (IC50 = 7.39 ± 1.24 μM). Moreover, the ability of compounds (3-6) to induce HepG2 cell apoptosis was significantly better than that of gefitinib. Conclusion: Nine structures (compounds 2-10) were synthesized and characterized, and compound 5 had the best antiproliferative activity. Compound 3 possessed the best ability to induce HepG2 apoptosis. Also, ADMET calculations were performed in silico, and the results revealed that compound 3 has more suitable characteristics as a potential drug candidate.