Abstract
[Cu(phen)2]2+ (phen=1,10‐phenanthroline) is the first and still one of the most efficient artificial nucleases. In general, when the phen ligand is modified, the nucleolytic activity of its CuII complex is significantly reduced. This is most likely due to higher steric bulk of such ligands and thus lower affinity to DNA. CuII complexes with phen ligands having fluorinated substituents (F, CF3, SF5, SCF3) surprisingly showed excellent DNA cleavage activity—in contrast to the unsubstituted [Cu(phen)2]2+—in the absence of the otherwise required classical, bioabundant external reducing agents like thiols or ascorbate. This nucleolytic activity correlates well with the half‐wave potentials E 1/2 of the complexes. Cancer cell studies show cytotoxic effects of all complexes with fluorinated ligands in the low μm range, whereas they were less toxic towards healthy cells (fibroblasts).
Highlights
Abstract: [Cu(phen)2]2+ is the first and still one of the most efficient artificial nucleases
A few decades ago, Sigman et al discovered the nucleolytic activity of bis(1,10-phenanthroline)copper(II) [Cu(phen)2]2+ towards dsDNA in the presence of O2 and 3-mercaptopropionic
Reducing agents are mandatory for initiating the generation of reactive oxygen species (ROS), which are required for exerting oxidative damage to DNA.[1]
Summary
Reducing agents are mandatory for initiating the generation of reactive oxygen species (ROS), which are required for exerting oxidative damage to DNA.[1] Different groups have tried to enhance and manipulate this nucleolytic activity, for example, via substitution of hydrogen atoms on the ligand scaffold. The CuII complexes with fluorinated phen ligands showed remarkable changes of half-wave potentials E1/2 depending on the substituents of their ligands (Table 1, Figure S-4).
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