Novel coumarin-piperazine-2(5H)-furanone hybrids as potential anti-lung cancer agents: Synthesis, biological evaluation and molecular docking studies

Abstract

Novel coumarin-piperazine-2(5H)-furanone hybrids 5a–l were efficiently synthesized by introducing a furanone scaffold into coumarin using piperazine as a linker. The cytotoxicity of all hybrids 5a–l were evaluated by MTT assay on human lung cancer A549 cells and normal human lung fibroblast WI-38 cells with cytarabine (CAR) as a positive control. Hybrid 5 l (IC50 = 11.28 μM) was the most toxic to A549 cells, 18-fold more toxic than the reference CAR (IC50 = 202.57 μM). Moreover, hybrid 5 l (IC50 = 411.93 μM) was less toxic to WI-38 cells, with a much higher selectivity (5 l, SI ≈ 37, WI-38/A549) than CAR (SI ≈ 2). Structure–activity relationship analysis showed that both the cytotoxicity against A549 cells and selectivity (WI-38/A549) were greatly improved when the bornyl group was incorporated in the hybrids (5c, 5f, 5i and 5 l). Further, hybrid 5 l was more toxic and selective against four types of human lung cancer cells (A549, Calu-1, PC-9 and H460; IC50 = 5.72–45.46 μM; SI ≈ 9–72) than three other types of human cancer cells (SK-BR-3, 786-O and SK-OV-3, IC50 = 39.07–130.82 μM; SI ≈ 0–2), showing remarkable specificity. In particular, hybrid 5 l (IC50 = 5.72 μM) showed the highest cytotoxicity against H460 cells with the highest selectivity of up to 72 (WI-38/H460). Flow cytometric analysis showed that hybrid 5 l induced apoptosis in H460 cells in a concentration-dependent manner. Molecular docking studies revealed a high binding affinity of hybrid 5 l with CDK2 protein. Hybrid 5 l is expected to be a leading candidate for anti-lung cancer agents.