Synthesis, chemical nuclease activity, and in vitro cytotoxicity of benzimidazole-based Cu（Ⅱ）/Co（Ⅱ） complexes

In this study, novel mono/di-nuclear Cu（p-2-bmb）（OH）（Cl O4）（1） and Co2（p-2-bmb）2Cl4（2）（p-2-bmb = 1-（（2-（pyridin-2-yl）-benzoimidazol-1-yl）methyl）-1H-benzotriazole） complexes with the nitrogen heterocyclic benzimidazole-based ligand were synthesized and characterized. The two complexes showed antiproliferative effects in various carcinoma cell lines, especially complex 1 in the SMMC7721 tumor cell line. Complex 1 was also able to pass through the cell membrane and enter the nucleus and mitochondrion. An analysis of in vitro chemical nuclease activity revealed that complex 1 partially intercalated to calf thymus DNA and exhibited strong unwinding activity against p BR322 superhelical plasmid DNA. The comet assay and flow cytometry analysis confirmed that 1 caused extensive DNA damage and arrested SMMC7721 tumor cells at G2/M phase of the cell cycle, leading to loss of mitochondrial membrane potential and apoptosis. These results suggest that these benzimidazole-based metal complexes could be potential anti-cancer agents.