Abstract

This study is a complementary study to our previous study that included the synthesis and characterization of some maleanilic acid derivatives ligands (L 1-4 ) and their metal carbonyl complexes (2-4) a-d as effective compounds for cancer cell inhibition against three cancer cell lines: HCT-116 (colon cancer), HepG-2 cells (Hepatocellular cancer) and MCF-7 (breast cancer). The activity data manifested that p-nitrophenyl maleanilic acid ligand (L2) and its chromium complex (2b) showed higher inhibitory than the other complexes against the tested cancer cells. Additionally, DFT and TD-DFT studies were performed to investigate their frontier molecular orbital (FMO), optical properties, and the correlation between the structure and biological activity. The calculated optical energy gap ( E g ) was in the range of 1.78- 2.13 eV, and electron cloud delocalization of HOMO/LUMO levels revealed that all complexes show effective charge separation. DFT results show a great relation between E g values of the carbonyl complexes and their experimental biological activity. Where it was obvious that complex ( 2b ) with the lowest ( E g ) value exhibits the highest inhibition potency against cancer cells. In contrast, complex ( 2d ) with the highest ( E g ) value exhibits the lowest inhibition potency. These results translate the reverse relationship between E g values of the complexes and the inhibition potency against cancer cells.

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