Title
Enhanced anti-cancer efficacy to cancer cells by a novel monofunctional mononuclear platinum(II) complex containing a mixed S,N,S-donor ligand
Author
Zhanfen Chen, Shuping Zhang, Jian Zhang, Zhenzhu Zhu
Year
2017
Journal
New Journal of Chemistry
Abstract
A novel mononuclear platinum(II) complex, [PtLCl]Cl (1, where L = N-(4-(benzo[d]oxazol-2-yl)phenyl)-2-(bis(2-ethylthioethyl)amino)acetamide), was synthesized containing an S,N,S-donor monochloroplatinum(II) moiety tethered to a planar 2-(4-aminophenyl)benzoxazole unit by an amidic bond. [PtL′Cl]Cl (2, where L′ = bis(2-ethylthioethyl)amine), the tridentate chelating PtII motif of 1, was also synthesized. Complex 1 exhibited a cytotoxicity comparable to that of cisplatin against MCF-7 cell lines and slightly higher activities against HeLa and A-549 cell lines. Compared to the activities of 2, L, and L′, the potent cytotoxicity of 1 should result from two aspects: the platinum moiety and the 2-(4-aminophenyl)benzoxazole unit. DNA binding experiments demonstrated that 1 could bind to DNA in a dual binding mode, i.e., intercalation plus monofunctional platination, and 2-(4-aminophenyl)benzoxazole unit in 1's structure should act as an intercalating group. Investigations of the reaction of 1 with 5′-GMP showed that 1 could coordinate with N7-GMP to form the Pt–GMP adduct. Thus, 1 has the potential to form monofunctional Pt–DNA adducts in vivo. Similarly, the glutathione (GSH) ligand could also be coordinated to the Pt(II) center to form a monodentate Pt–GS complex. However, the reaction towards GSH was indeed retarded by the bulky ligand of 1, implying that the side-effects related to GSH might be reduced in vivo. The competition experiments of 1 with 5′-GMP and GSH showed that 1 reacted much faster with GSH than with 5′-GMP, but this did not prevent the formation of a certain amount of the Pt–GMP adduct.
Instrument
J-810
Keywords
Circular dichroism, DNA structure, Ligand binding, Biochemistry, Inorganic chemistry