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Delayed Reactivation of p53 in the Progeny of Cells Surviving Ionizing Radiation¹

Laboratory of Radiation and Life Science, School of Pharmaceutical Sciences, Nagasaki University, Nagasaki 852-8521, Japan

Ionizing radiation induces genomic instability, which is transmitted through many generations after irradiation in the progeny of surviving cells. To detect delayed activation of p53, we constructed a reporter plasmid containing the p53-responsible promoter and the bacterial ß-galactosidase (ß-gal) gene and introduced it into human fibrosarcoma (HT1080) cells, which retain wild-type p53 function. The resultant clones induce ß-gal protein after X-irradiation, and the induction kinetics were similar to those of p21^WAF1/CIP1 protein. More than 90% of the cells were stained blue when the cells were incubated with X-gal 4 h after 6 Gy of X-rays, whereas very few control cells were ß-gal positive. The primary colonies formed after 6 Gy of X-rays were collected, and they were subjected to secondary colony formation. We observed that a significant number of surviving colonies contained ß-gal-positive cells, suggesting that delayed activation of p53 occurred in the progeny of irradiated cells. We also found higher frequency of phosphorylation of p53, NBS1, and CHK2/Cds1 in the progeny of surviving cells. Furthermore, foci formation of phosphorylated histone H2AX was detected in the progeny of surviving cells. These findings provide the possibility that the observed instability results from these DNA breaks, i.e., the breaks lead to delayed chromosome rearrangements, delayed cell death, and so forth, many generations after irradiation and that activation of p53 function may eliminate cells that have potentially accumulated genomic alterations.

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