标题:Role of Mitochondrial DNA in Cells Exposed to Irradiation: Generation of Reactive Oxygen Species (ROS) is Required for G2 Checkpoint upon Irradiation
摘要:Mitochondria have their own genome encoding subunits of the electron transport chain. Using cells lacking mitochondrial DNA (mtDNA, ρ 0 cells), we studied the role of mtDNA in irradiation. Loss of mtDNA inhibited cell growth and reduced the level of reactive oxygen species (ROS) as compared to ρ + cells. ρ + cells were more resistant to irradiation than ρ 0 cells. Upon irradiation, ρ 0 cells showed delayed G2 arrest and decreased ability of a cell to recover from the G2 checkpoint compared to ρ + cells. Irradiation increased the generation of ROS even more in ρ + cells. Irradiation markedly increased the levels of phosphorylated forms of extracellular-regulated kinases, p42 and p44 (ERK1/2) in ρ + cells, whereas phosphorylated levels of the kinases were affected slightly in ρ 0 cells. Furthermore, inhibition of the ERK pathway led to a delayed G2 arrest and a delayed recovery from the arrest in irradiated ρ + cells, and treatment with NAC also induced dysfunction of the G2 checkpoint in irradiated ρ + cells. These results suggest that the accumulation of ROS potentiated ERK1/2 kinases after irradiation in ρ + cells, leading to less sensitivity to irradiation. Thus, mtDNA is important for the generation of ROS that act as second messenger.
Loading...
