DNA-PK activation by ionizing radiation-induced DNA single-strand breaks

Abstract

To assess the ability of 60Co gamma-radiation-induced plasmid DNA single-strand breaks (gamma-ssb) to activate the DNA-dependent protein kinase (DNA-PK) in vitro. Plasmid DNA was gamma-irradiated under aerobic conditions to yield 0-6 gamma-ssb and <0.1 double-strand breaks (dsb) per plasmid molecule. The irradiated DNA was used to stimulate DNA-PK in crude HF19 fibroblast nuclear extracts and/or purified HeLa cell DNA-PK protein, and the activation compared with that obtained with a single enzymatically generated plasmid DNA ssb (GpII endonuclease) or dsb (EcoRI endonuclease). Gamma-Irradiated plasmid DNA activates DNA-PK in both crude and purified preparations and the kinase activity increases linearly with dose. As significant DNA-PK activation was detectable using irradiated plasmids which contain <0.1 dsb/molecule, it was concluded that this activation is due to gamma-ssb. However, using purified DNA-PK, this activation is relatively weak as approximately 3 approximately-ssb is equivalent to one GpII-generated DNA ssb or one end of an EcoRI-generated dsb in DNA-PK assays. As gamma-ssb are in a approximately 20-fold excess of approximately-dsb in vivo for low LET radiation, gamma-ssb may contribute significantly to DNA-PK signalling of gamma-radiation-induced DNA damage in vivo.