Literature DB >> 6287239

Regulation of the cellular p53 tumor antigen in teratocarcinoma cells and their differentiated progeny.

M Oren, N C Reich, A J Levine.   

Abstract

F9 embryonal carcinoma cells express high levels of a 53,000-molecular-weight cellular tumor antigen called p53. When F9 cell cultures are treated with retinoic acid and dibutyryl adenosine 3',5'-phosphate, they differentiate, predominantly into endoderm-like cells. This differentiation is accompanied by a marked decrease in the levels of p53. The mechanism(s) responsible for this decline in the level of p53 in differentiated cells was investigated. The results demonstrate that the high levels of p53 in F9 cells relative to their differentiated progeny were not due to alterations in the stability or turnover of this protein. Rather, the regulation during differentiation involved a marked decrease in the amount of in vitro translatable p53 mRNA detected in the differentiated cell cultures. This mechanism is unlike the one operating during the simian virus 40 infection or transformation, where the increased levels of p53 are largely due to the increased stability of the p53 protein.

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Year:  1982        PMID: 6287239      PMCID: PMC369808          DOI: 10.1128/mcb.2.4.443-449.1982

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  22 in total

1.  The SV40 A gene product is required for the production of a 54,000 MW cellular tumor antigen.

Authors:  D I Linzer; W Maltzman; A J Levine
Journal:  Virology       Date:  1979-10-30       Impact factor: 3.616

2.  Evidence for non-spliced SV40 RNA in undifferentiated murine teratocarcinoma stem cells.

Authors:  S Segal; A J Levine; G Khoury
Journal:  Nature       Date:  1979-07-26       Impact factor: 49.962

3.  T antigen is bound to a host protein in SV40-transformed cells.

Authors:  D P Lane; L V Crawford
Journal:  Nature       Date:  1979-03-15       Impact factor: 49.962

4.  The induction of differentiation in teratocarcinoma stem cells by retinoic acid.

Authors:  S Strickland; V Mahdavi
Journal:  Cell       Date:  1978-10       Impact factor: 41.582

5.  An efficient mRNA-dependent translation system from reticulocyte lysates.

Authors:  H R Pelham; R J Jackson
Journal:  Eur J Biochem       Date:  1976-08-01

6.  Differentiation as a requirement for simian virus 40 gene expression in F-9 embryonal carcinoma cells.

Authors:  S Segal; G Khoury
Journal:  Proc Natl Acad Sci U S A       Date:  1979-11       Impact factor: 11.205

7.  Characterization of a 54K dalton cellular SV40 tumor antigen present in SV40-transformed cells and uninfected embryonal carcinoma cells.

Authors:  D I Linzer; A J Levine
Journal:  Cell       Date:  1979-05       Impact factor: 41.582

8.  Detection of a transformation-related antigen in chemically induced sarcomas and other transformed cells of the mouse.

Authors:  A B DeLeo; G Jay; E Appella; G C Dubois; L W Law; L J Old
Journal:  Proc Natl Acad Sci U S A       Date:  1979-05       Impact factor: 11.205

9.  Characterization of different tumor antigens present in cells transformed by simian virus 40.

Authors:  A E Smith; R Smith; E Paucha
Journal:  Cell       Date:  1979-10       Impact factor: 41.582

10.  Alkaline phosphatase activity in mouse teratoma.

Authors:  E G Berstine; M L Hooper; S Grandchamp; B Ephrussi
Journal:  Proc Natl Acad Sci U S A       Date:  1973-12       Impact factor: 11.205
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  29 in total

1.  Transgenic mouse model for studying the transcriptional activity of the p53 protein: age- and tissue-dependent changes in radiation-induced activation during embryogenesis.

Authors:  E Gottlieb; R Haffner; A King; G Asher; P Gruss; P Lonai; M Oren
Journal:  EMBO J       Date:  1997-03-17       Impact factor: 11.598

2.  Characterization of the human p53 gene promoter.

Authors:  S P Tuck; L Crawford
Journal:  Mol Cell Biol       Date:  1989-05       Impact factor: 4.272

3.  Stabilization of the p53 transformation-related protein in mouse fibrosarcoma cell lines: effects of protein sequence and intracellular environment.

Authors:  O Halevy; A Hall; M Oren
Journal:  Mol Cell Biol       Date:  1989-08       Impact factor: 4.272

4.  Regulation of ES cell differentiation by functional and conformational modulation of p53.

Authors:  K Sabapathy; M Klemm; R Jaenisch; E F Wagner
Journal:  EMBO J       Date:  1997-10-15       Impact factor: 11.598

5.  Expression of wild-type and mutant p53 proteins by recombinant vaccinia viruses.

Authors:  D Ronen; Y Teitz; N Goldfinger; V Rotter
Journal:  Nucleic Acids Res       Date:  1992-07-11       Impact factor: 16.971

6.  In vitro expressed HPV 8 E6 protein does not bind p53.

Authors:  G Steger; H Pfister
Journal:  Arch Virol       Date:  1992       Impact factor: 2.574

7.  The cancer treatment revolution.

Authors:  David G Nathan
Journal:  Trans Am Clin Climatol Assoc       Date:  2007

8.  Transcriptional activation by wild-type but not transforming mutants of the p53 anti-oncogene.

Authors:  L Raycroft; H Y Wu; G Lozano
Journal:  Science       Date:  1990-08-31       Impact factor: 47.728

9.  Linking incomplete reprogramming to the improved pluripotency of murine embryonal carcinoma cell-derived pluripotent stem cells.

Authors:  Gang Chang; Yi-Liang Miao; Yu Zhang; Sheng Liu; Zhaohui Kou; Junjun Ding; Da-Yuan Chen; Qing-Yuan Sun; Shaorong Gao
Journal:  PLoS One       Date:  2010-04-26       Impact factor: 3.240

10.  Molecular cloning of a cDNA specific for the murine p53 cellular tumor antigen.

Authors:  M Oren; A J Levine
Journal:  Proc Natl Acad Sci U S A       Date:  1983-01       Impact factor: 11.205
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