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Literature DB >> 1986214

Expression of wild-type p53 is not compatible with continued growth of p53-negative tumor cells.

P Johnson¹, D Gray, M Mowat, S Benchimol.

Abstract

Inactivation of the cellular p53 gene is a common feature of Friend virus-induced murine erythroleukemia cell lines and may represent a necessary step in the progression of this disease. As well, frequent loss or mutation of p53 alleles in diverse human tumors is consistent with the view of p53 as a tumor suppressor gene. To examine the significance of p53 gene inactivation in tumorigenesis, we have attempted to express transfected wild-type p53 in three p53-negative tumor cell lines: murine DP16-1 Friend erythroleukemia cells, human K562 cells, and SKOV-3 cells. We found that aberrant p53 proteins, which differ from wild-type p53 by a single amino acid substitution, were expressed stably in these cells, whereas wild-type p53 expression was not tolerated. The inability of p53-negative tumor cell lines to support long-term expression of wild-type p53 protein is consistent with the view that p53 is a tumor suppressor gene.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 1991 PMID： 1986214 PMCID： PMC359576 DOI： 10.1128/mcb.11.1.1-11.1991

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

52 in total

1. Mutation is required to activate the p53 gene for cooperation with the ras oncogene and transformation.

Authors: P Hinds; C Finlay; A J Levine
Journal: J Virol Date: 1989-02 Impact factor: 5.103

2. The p53 proto-oncogene can act as a suppressor of transformation.

Authors: C A Finlay; P W Hinds; A J Levine
Journal: Cell Date: 1989-06-30 Impact factor: 41.582

3. Rearrangements in the p53 gene in Philadelphia chromosome positive chronic myelogenous leukemia.

Authors: Z Kelman; M Prokocimer; S Peller; Y Kahn; G Rechavi; Y Manor; A Cohen; V Rotter
Journal: Blood Date: 1989-11-15 Impact factor: 22.113

4. Alterations in the p53 gene and the clonal evolution of the blast crisis of chronic myelocytic leukemia.

Authors: H Ahuja; M Bar-Eli; S H Advani; S Benchimol; M J Cline
Journal: Proc Natl Acad Sci U S A Date: 1989-09 Impact factor: 11.205

5. A new technique for the assay of infectivity of human adenovirus 5 DNA.

Authors: F L Graham; A J van der Eb
Journal: Virology Date: 1973-04 Impact factor: 3.616

6. High incidence of lung, bone, and lymphoid tumors in transgenic mice overexpressing mutant alleles of the p53 oncogene.

Authors: A Lavigueur; V Maltby; D Mock; J Rossant; T Pawson; A Bernstein
Journal: Mol Cell Biol Date: 1989-09 Impact factor: 4.272

7. Mutations in the p53 gene occur in diverse human tumour types.

Authors: J M Nigro; S J Baker; A C Preisinger; J M Jessup; R Hostetter; K Cleary; S H Bigner; N Davidson; S Baylin; P Devilee
Journal: Nature Date: 1989-12-07 Impact factor: 49.962

8. Wild-type p53 can inhibit oncogene-mediated focus formation.

Authors: D Eliyahu; D Michalovitz; S Eliyahu; O Pinhasi-Kimhi; M Oren
Journal: Proc Natl Acad Sci U S A Date: 1989-11 Impact factor: 11.205

9. Chromosome 17 deletions and p53 gene mutations in colorectal carcinomas.

Authors: S J Baker; E R Fearon; J M Nigro; S R Hamilton; A C Preisinger; J M Jessup; P vanTuinen; D H Ledbetter; D F Barker; Y Nakamura; R White; B Vogelstein
Journal: Science Date: 1989-04-14 Impact factor: 47.728

10. Rearrangement and expression of p53 in the chronic phase and blast crisis of chronic myelogenous leukemia.

Authors: R Mashal; M Shtalrid; M Talpaz; H Kantarjian; L Smith; M Beran; A Cork; J Trujillo; J Gutterman; A Deisseroth
Journal: Blood Date: 1990-01-01 Impact factor: 22.113

25 in total

1. Identification of a minimal transforming domain of p53: negative dominance through abrogation of sequence-specific DNA binding.

Authors: E Shaulian; A Zauberman; D Ginsberg; M Oren
Journal: Mol Cell Biol Date: 1992-12 Impact factor: 4.272

Review 2. Cancer risks from germline p53 mutations.

Authors: T Frebourg; S H Friend
Journal: J Clin Invest Date: 1992-11 Impact factor: 14.808

3. Mutant p53 tumor suppressor alleles release ras-induced cell cycle growth arrest.

Authors: G G Hicks; S E Egan; A H Greenberg; M Mowat
Journal: Mol Cell Biol Date: 1991-03 Impact factor: 4.272

4. The tumor suppressor p53 regulates its own transcription.

Authors: A Deffie; H Wu; V Reinke; G Lozano
Journal: Mol Cell Biol Date: 1993-06 Impact factor: 4.272

5. Expression of simian virus 40 large T (tumor) oncogene in mouse chondrocytes induces cell proliferation without loss of the differentiated phenotype.

Authors: F Mallein-Gerin; B R Olsen
Journal: Proc Natl Acad Sci U S A Date: 1993-04-15 Impact factor: 11.205

9. Growth suppression of Friend virus-transformed erythroleukemia cells by p53 protein is accompanied by hemoglobin production and is sensitive to erythropoietin.

Authors: P Johnson; S Chung; S Benchimol
Journal: Mol Cell Biol Date: 1993-03 Impact factor: 4.272

10. Functional studies of a germ-line polymorphism at codon 47 within the p53 gene.

Authors: E Felley-Bosco; A Weston; H M Cawley; W P Bennett; C C Harris
Journal: Am J Hum Genet Date: 1993-09 Impact factor: 11.025