The Role of Oxygen in Photoinduced DNA Damage

We have shown that photoexcitation of daunomycin leads to substantial levels of guanine specific oxidation that is dependent on molecular oxygen. ...
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The Role of Oxygen in Photoinduced DNA Damage Maha Zewail Foote, Department of Chemistry and Biochemistry, Southwestern University We investigated the mechanism of photoinduced DNA damage by the anthracycline antibiotic daunomycin. We have shown that photoexcitation of daunomycin leads to substantial levels of guanine specific oxidation that is dependent on molecular oxygen. In addition, we were able to identify that the oxygen species involved is the superoxide radical. From these results, we conclude that photoexcitation leads to a charge transfer mechanism where activated daunomycin abstracts an electron from the base guanine base and, in turn, reduces oxygen to form superoxide. Production of reactive oxygen species derived from superoxide could also contribute to the DNA damage pathway. DNA

O

UV light

dG•+ + DM•-

O

OH

O2

dG•+

O2•-

DM

CH3 OH

Me O

O

OH

Me

O

O NH2

Anaerobic

ROS

dG + DM

Oxidative DNA damage

HO

Daunomycin

R. Kainthla and M. Zewail-Foote, J. Photochem. Photobiol. A: Chem, 198, 200-204, 2008.