6533b82efe1ef96bd12927ba

RESEARCH PRODUCT

Primary mouse fibroblasts deficient for c-Fos, p53 or for both proteins are hypersensitive to UV light and alkylating agent-induced chromosomal breakage and apoptosis

subject

description

The important regulatory proteins, c-Fos and p53 are induced by exposure of cells to a variety of DNA damaging agents. To investigate their role in cellular defense against genotoxic compounds, we comparatively analysed chromosomal aberrations and apoptosis induced by ultraviolet (UV-C) light and the potent alkylating agent methyl methanesulfonate (MMS) in primary diploid mouse fibroblasts knockout for either c-Fos or p53, or double knockout for both genes. We show that c-Fos and p53 deficient fibroblasts are more sensitive than the corresponding wild-type cells as to the induction of chromosomal aberrations and apoptosis. Double knockout fibroblasts lacking both c-Fos and p53 are viable and were even more sensitive, showing additivity of the chromosomal breakage effects observed in the single knockouts. Regarding the endpoint apoptosis, double knockout fibroblasts displayed a sensitivity similar to c-Fos and p53 deficient cells. The data indicate that (a) both c-Fos and p53 are involved in cellular protection against the clastogenic effect of genotoxic agents, (b) p53 is not required for induction of apoptosis by UV light and MMS, but rather prevents fibroblasts from undergoing apoptotic cell death upon DNA damage, and (c) c-Fos and p53 seem to act independently in determining genotoxic resistance, which is hypothesized to be achieved by impaired DNA repair or differential cell cycle check point control.