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Clinical Cancer Research, Vol 3, Issue 8 1371-1381, Copyright © 1997 by American Association for Cancer Research
ARTICLES |
TS Bracey, AC Williams and C Paraskeva
Cancer Research Campaign Colorectal Tumor Biology Research Group, Department of Pathology, School of Medical Sciences, University of Bristol, University Walk, Bristol BS8 1TD, United Kingdom.
We have previously identified a p53-independent apoptotic response that is delayed until 48-72 h after irradiation of colorectal adenoma and carcinoma cells. Because the delay appears to be in part due to a transient G2 cell cycle arrest, the importance of this checkpoint in the mechanism of ionizing radiation (IR)-induced death of colorectal tumor cells was investigated. An adenoma cell line with (282Arg-->Trp) mutant p53 (S/RG/C2) and a carcinoma cell line (PC/JW/FI) lacking p53 protein treated with 5 Gy IR in the presence of 1.5 mm caffeine (CAF) reduced IR-induced G2 arrest and increased the level of apoptosis (1.5-1.6-fold) 24 h after treatment. Increased IR apoptotic cell death with CAF significantly reduced IR cell survival over a 7-day period in S/RG/C2 and PC/JW/FI. To investigate whether CAF radiosensitization correlated with lack of wild-type (wt) p53, we studied transfected derivatives of an adenoma-derived cell line (PC/AA/C1), in which the endogenous wt p53 activity was disrupted by the expression of a dominant negative (273Arg-->His) p53 mutant protein (designated AA/273p53/B). This p53-defective cell line was also radiosensitized by CAF, whereas the vector control (AA/PCMV/D), which retained wt p53 activity, was not. In addition, as with the S/RG/C2 and PC/JW/FI cell lines, the 7-day IR cell survival was reduced significantly in AA/273p53/B compared with the vector control cell line. This suggests that radiosensitization by CAF and increased cell death is dependent on loss of wt p53 function. Interestingly, radiosensitization of the AA/273p53/B cell line was not associated with accelerated apoptosis but correlated with increased polyploid giant cells, which have been associated with disruption of cell cycle checkpoints and genomic instability. These results demonstrate that G2 checkpoint inhibition with CAF leads to preferential IR cell killing in cell lines in which wt p53 is inactivated and that this increased cell killing is not necessarily dependent on increased IR-induced apoptosis.
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