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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Teratocarcinoma
cells provide us with a model system for the study of differentiation and development. One of the best characterized cell lines, the embryonal carcinoma stem cell line F9, differentiates after treatment with retinoic acid (RA) and dibutyryl cyclic AMP into parietal endoderm. This differentiation process is accompanied by the induction of several genes, for example, those encoding collagen IV, plasminogen activator and intermediate filaments like laminin. In contrast, a marked reduction of stable messenger RNA has been observed for the gene encoding
p53
and for c-myc. Both cellular oncogenes seem to be involved in the regulation of cellular proliferation and neoplastic transformation. For growth-arrested 3T3 fibroblasts, growth-factor-induced changes of myc RNA are controlled at the level of transcription. In contrast, F9 cells provide a differentiation system in which cells are able to change from a tumorigenic state into non-dividing, non-tumorigenic endodermal cells. The latter process enabled us to study the regulation of myc and
p53
genes in the same cells at different stages of growth, tumorigenicity and differentiation. Here we report that down-regulation of stable myc and
p53
RNA during irreversible differentiation of F9 cells occurs at the post-transcriptional level. Using an in vitro nuclear transcription assay, we found that the polymerase II density on both genes remains constant during differentiation. In agreement with this interpretation, we detected myc RNA as stable transcripts in differentiated F9 cells after treatment of the cells with cycloheximide. The post-transcriptional regulatory mechanisms controlling
p53
and myc stability follow different kinetics. Whereas the down-regulation of myc seems to be an early event of F9 differentiation occurring within the first 24 h, the post-transcriptional regulation of
p53
occurs at a later stage (two to three days), possibly as a consequence of cell cycle changes.
...
PMID:Post-transcriptional control of myc and p53 expression during differentiation of the embryonal carcinoma cell line F9. 241 65
Teratocarcinomas
are tumors that arise from primordial germ cells and are readily curable with DNA-damaging chemotherapeutic drugs.
Teratocarcinoma
cells ex vivo in tissue culture are also relatively chemosensitive and undergo apoptotic death in response to DNA damage. We have previously hypothesized that the observed sensitivity of this tumor type to DNA damage is related to high basal expression of wild-type
p53 protein
. We have now addressed this issue by characterizing the DNA damage response of isogenic teratocarcinoma cells that differ only in their level of expression of wild-type
p53 protein
. We find a clear
p53
dose-response relationship in these cells for rapid apoptosis following DNA damage that correlates with diminished colony formation in clonogenic survival assays. These results suggest that strategies to increase basal wild-type
p53 protein
expression prior to treatment with DNA-damaging drugs may improve curability in other tumor types.
...
PMID:A p53 dose-response relationship for sensitivity to DNA damage in isogenic teratocarcinoma cells. 1142 Jul 11
