Reparable and Non-reparable DNA Strand Breaks Induced by X-irradiation in CHO K1 Cells and the Radiosensitive Mutants xrs1 and xrs5

Abstract

Repair kinetics of X-ray-induced DNA lesions was measured for CHO K1, xrs1 and xrs5 cells using the alkaline unwinding technique. Cells were irradiated on ice with X-ray doses of 9, 30 and 90 Gy followed by repair incubation at 37°C. Repair was studied for up to 60 h to cover the kinetics of reparable and non-reparable DNA damage. The kinetics of single-strand break (ssb) repair was found to be the same in CHO K1 and xrs cells. In contrast, the number of double-strand breaks (dsbs) was shown to decline with half-times that were longer for xrs1 and xrs5 as compared with CHO K1 cells (12·2 and 15·0 h versus 4·9 h for 90 Gy). These differences are primarily due to differences in the fraction of non-reparable dsbs which was higher by a factor of 3–4 for xrs1 and xrs5 cells as compared with K1 cells (3·2 and 3·7% versus 1·0% for 90 Gy). However, the kinetics of those dsbs which were actually repaired did not show any significant differences for the three cell lines studied and were rejoined at a mean half-time of 3·8 h. It is suggested that the higher number of non-reparable breaks in xrs cells may not be attributable to a deficient enzymatic repair system. It is suggested that alterations in chromatin conformation might prevent rejoining of a portion of dsbs.