Reduction in free-radical-induced DNA strand breaks and base damage through fast chemical repair by flavonoids

Abstract

This paper provides evidence that dietary flavonoids can repair a range of oxidative radical damages on DNA, and thus give protection against radical-induced strand breaks and base alterations. We have irradiated dilute aqueous solutions of plasmid DNA in the absence and presence of flavonoids (F) in a “constant ^·OH radical scavenging environment”, k of 1.5 × 10⁷ s^-1 by decreasing the concentration of TRIS buffer in relation to the concentration of added flavonoids. We have shown that the flavonoids can reduce the incidence of single-strand breaks in double-stranded DNA as well as residual base damage (assayed as additional single-strand breaks upon post-irradiation incubation with endonucleases) with dose modification factors of up to 2.0 ± 0.2 at [F] < 100 μM by a mechanism other than through direct scavenging of ^·OH radicals. Pulse radiolysis measurements support the mechanism of electron transfer or H^· atom transfer from the flavonoids to free radical sites on DNA which result in the fast chemical repair of some of the oxidative damage on DNA resulting from ^·OH radical attack. These in vitro assays point to a possible additional role for antioxidants in reducing DNA damage.