Published in:
Open Access
01-12-2006 | Primary research
Lack of p53 function promotes radiation-induced mitotic catastrophe in mouse embryonic fibroblast cells
Authors:
Fiorenza Ianzini, Alessandro Bertoldo, Elizabeth A Kosmacek, Stacia L Phillips, Michael A Mackey
Published in:
Cancer Cell International
|
Issue 1/2006
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Abstract
Background
We have demonstrated that in some human cancer cells both chronic mild heat and ionizing radiation exposures induce a transient block in S and G2 phases of the cell cycle. During this delay, cyclin B1 protein accumulates to supranormal levels, cyclin B1-dependent kinase is activated, and abrogation of the G2/M checkpoint control occurs resulting in mitotic catastrophe (MC).
Results
Using syngenic mouse embryonic fibroblasts (MEF) with wild-type or mutant p53, we now show that, while both cell lines exhibit delays in S/G2 phase post-irradiation, the mutant p53 cells show elevated levels of cyclin B1 followed by MC, while the wild-type p53 cells present both a lower accumulation of cyclin B1 and a lower frequency of MC.
Conclusion
These results are in line with studies reporting the role of p53 as a post-transcriptional regulator of cyclin B1 protein and confirm that dysregulation of cyclin B1 promote radiation-induced MC. These findings might be exploited to design strategies to augment the yield of MC in tumor cells that are resistant to radiation-induced apoptosis.