Effects of hyperoxia on DNA synthesis in cultured porcine aortic endothelial cells

Abstract

The mode of action of hyperoxia on the inhibition of DNA synthesis from thymidine (dThd) was studied in primary cultures of porcine aortic endothelial cells (EC) at confluence. A significant effect of hyperoxia on dThd uptake was detected only after a 48-h exposure to 95% O2. On the other hand, decrease in dThd kinase activity was already observed after a 12-h exposure, and the time course of its reduction followed closely that of the inhibition of dThd incorporation into DNA. The incorporation of dThd triphosphate into DNA in permeabilized EC was unaffected by hyperoxia. Determination of DNA alpha- and beta-polymerase activities showed that hyperoxia reduced the activity of the alpha-polymerase and increased that of the beta-polymerase. We conclude that most of the O2 effects on DNA synthesis from dThd can be attributed to dThd kinase inhibition. The increased activity of DNA beta-polymerase, an enzyme involved in DNA repair, also supports the view that hyperoxia could damage DNA.