Abstract
A series of 3-benzylideneindolin-2-one compounds was designed and synthesized based on combretastatin A-4 and compound IC261, a dual casein kinase (CK1)/tubulin polymerization inhibitor, taking into consideration the pharmacophore required for EGFR-tyrosine kinase inhibition. The new molecular entities provoked significant growth inhibition against PC-3, MCF-7 and COLO-205 at a 10 μM dose. Compounds 6-chloro-3-(2,4,6-trimethoxybenzylidene) indolin-2-one, 4b, and 5-methoxy-3-(2,4,6-trimethoxybenzylidene)indolin-2-one, 4e, showed potent activity against the colon cancer COLO-205 cell line with an IC50 value of 0.2 and 0.3 μM. A mechanistic study demonstrated 4b’s efficacy in inhibiting microtubule assembly (IC50 = 1.66 ± 0.08 μM) with potential binding to the colchicine binding site (docking study). With an IC50 of 1.92 ± 0.09 μg/mL, 4b inhibited CK1 almost as well as IC261. Additionally, 4b and 4e were effective inhibitors of EGFR-TK with IC50s of 0.19 μg/mL and 0.40 μg/mL compared to Gifitinib (IC50 = 0.05 μg/mL). Apoptosis was induced in COLO-205 cells treated with 4b, with apoptotic markers dysregulated. Caspase 3 levels were elevated to more than three-fold, while Cytochrome C levels were doubled. The cell cycle was arrested in the pre-G1 phase with extensive cellular accumulation in the pre-G1 phase, confirming apoptosis induction. Levels of cell cycle regulating proteins BAX and Bcl-2 were also defective. The binding interaction patterns of these compounds at the colchicine binding site of tubulin and the Gifitinib binding site of EGFR were verified by molecular docking, which adequately matched the reported experimental result. Hence, 4b and 4e are considered promising potent multitarget agents against colon cancer that require optimization.
Highlights
Nowadays, cancer is considered to be the second leading cause of death after cardiovascular diseases [1,2,3]
Synthesis of the designed substituted oxindole derivatives, 3a-f and 4a-f, started with the condensation of various oxindoles 1a-f with 3,4,5 or 2,4,6 trimethoxy benzaldehyde 2a or 2b in the presence of piperidine as a catalyst, Scheme 1. 1H NMR showed a signal for the benzylidine proton at 7.38–7.49 ppm along with NH and other aromatic protons, demonstrating the success of the condensation process
A possible explanation for such results is the presence of a τ-τ stacking interaction between the phenyl ring and the electron rich indole ring
Summary
Cancer is considered to be the second leading cause of death after cardiovascular diseases [1,2,3]. Alarming predictions claim that cancer deaths may reach 13 million per year by 2030 [5]. Several anticancer agents have been developed to encounter this rapid, uncontrolled, and pathological proliferation of abnormal cells, but many barriers are still present and need to be overcome. Obstacles such as high toxicity, low efficacy, high cost, and acquired drug resistance have a great impact on the normal life of patients [6]. Designing novel potent, selective and safe anticancer compounds is a major challenge in modern cancer research [7]
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