Hydrogen Peroxide Dependent Oxidative Degradation of DNA by Copper Epinephrine

The hydrogen peroxide dependent oxidation of the epinephrinecopper complex to adrenochrome is mediated by free copper ions. The oxidation is enhanced by chloride ions and by the presence of serum albumin. The reaction is not inhibited by SOD or by hydroxyl radical scavengers.

The 2:1 epinephrine or dopamine:Cu(II) complexes are able to bind to DNA and to catalyze its oxidative destruction in the presence of hydrogen peroxide. The DNA-epinephrine-Cu(II) terenary complex has characteristic spectral properties. It has the capacity to catalyze the reduction of oxygen or H₂O₂ and it preserves the capacity over a wide range of comp1ex:DNA ratios. The rate of DNA cleavage is proportional to the rate of epinephrine oxidation and the rate determining step of the reaction Seems to be the reduction of free Cu(II) ions. The ability to form redox active stable DNA ternary complexes, suggests that under specific physiological conditions, when “free” copper ions are available. catecholamina may induce oxidative degradation of DNA and other biological macromolecules.