Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inducer-mediated murine erythroleukemia cell (MELC) differentiation provides a model for examining factors determining terminal cell differentiation. The nuclear protein, p53, has been implicated as a potential determinant of cell cycle progression and cell differentiation. In this study p53 content and synthesis, during inducer-mediated MELC differentiation, has been examined with monoclonal antibodies to p53. A decrease in p53 synthesis and content was demonstrated during induced differentiation. As determined by cell cycle fractionation, the decrease in p53 is manifest at all stages of the cell cycle. Hemin, which induces globin mRNA accumulation but not terminal cell division, fails to decrease p53 content. A MELC variant resistant to inducer-mediated commitment to terminal cell division also fails to decrease p53 levels in response to inducers. These experiments suggest that p53 is implicated in MELC cell proliferation and that an induced decrease in p53 may be responsible for G1 phase prolongation and terminal G1 arrest.
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PMID:Protein p53 and inducer-mediated erythroleukemia cell commitment to terminal cell division. 635 Oct 70

The process of cell differentiation in Friend-erythroleukemia cells was accompanied by 80-90% inhibition of p53 synthesis. This decrease was found to be linked to changes in cell-cycle distribution characteristics of the growth arrest program during differentiation rather than to the induction of the globin genes. The shut-off in the expression of p53 always preceded the specific arrest of cells in the G0/G1 phase. Interferon did not modulate down the expression of p53 if added to transformed non-induced Friend-erythroleukemia cells; however, it slightly enhanced the extent of reduction in p53 synthesis if added during cell differentiation, thus suggesting a differential effect of interferon between cells at different stages of differentiation.
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PMID:Reduction in p53 synthesis during differentiation of Friend-erythroleukemia cells. Correlation with the commitment to terminal cell division. 635 48

Study of inducer-mediated differentiation of murine erythroleukemia cells provides insights into the cellular and molecular mechanisms implicated in cell differentiation. The loss of proliferative capacity is revealed to be a complex multistep process during which the cells progress through a series of stages, including a precommitment "initiation" stage, a stage suggestive of the accumulation of commitment-related factors, and, finally, a stage of expression of the characteristics of the differentiated state. Cell cycle arrest in G1 phase of the cell cycle may, in part at least, be related to down-regulation of protein p53 synthesis. Expression of induced differentiation is accompanied by an acceleration of transcription at the globin loci, and possibly by posttranscriptional modulation of globin mRNA accumulation, as well. Cells at the stage of erythroid cell development represented by the transformed, differentiation-arrested MELC, have acquired a unique DNA structure and chromatin configuration around the globin genes which distinguish them from other, nonerythroid cells; additional complex changes in chromatin configuration accompany, and probably precede, inducer-mediated acceleration of globin gene transcription during terminal differentiation. Passage through G1 and early S phase of the cell cycle, in the presence of inducer, is critical for subsequent globin gene expression and may be important in establishing the chromatin reconfiguration required for gene expression.
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PMID:Induced differentiation of murine erythroleukemia cells: cellular and molecular mechanisms. 639 54

The emergence of leukemic cells in Friend virus complex-induced erythroleukemia is associated with two recurrent genetic alterations, namely the inactivation of the p53 tumor suppressor gene and the overexpression of Spi-1, a member of the Ets family of transcriptional regulators. In order to determine the role of these genetic alterations on the proliferation and differentiation control of erythroblasts, we expressed Spi-1 and the temperature sensitive mutant p53(V135A) in avian primary erythroid progenitors. We show that enforced expression of Spi-1 in erythroblasts obtained from bone marrow cells by expression of the ts-Sea tyrosine kinase inhibits the execution of the differentiation program normally induced in these cells in response to Epo and insulin and following inactivation of ts-Sea function. In contrast, overexpression of p53(V135A) is without effect on the ability of these cells to differentiate into erythrocytes. However, expression of p53(V135A) in erythroid progenitors obtained from bone marrow cells in the presence of SCF, TGF alpha and estradiol, was found to relieve these cells from their absolute TGF alpha requirement for long term proliferation. This phenotype is dependent upon the expression of the mutant form of p53(V135A) as it is not observed at a temperature at which p53(V135A) regains wild type p53 function. Our results show that each of the genetic alterations which characterize Friend erythroleukemic cells affect in a distinct manner the proliferation and differentiation control of primary erythroid progenitors.
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PMID:Spi-1 and mutant p53 regulate different aspects of the proliferation and differentiation control of primary erythroid progenitors. 747 42

Oncogenesis is a process resulting from genetic events which cause loss of growth control or inhibition of appropriate cell death. The Bcl-XL protein is a recently discovered member of the bcl-2 family which has been shown to protect cells from some forms of programmed cell death, but has not yet been implicated in the genesis of human carcinomas. In this report we explore the role of Bcl-XL overexpression in protecting cancer cells from p53-mediated apoptosis. Increased levels of Bcl-XL were found in a subset of primary human breast carcinomas, as well as in the breast cancer line, T47D. T47D cells were then transfected with a temperature-sensitive mutant of the tumor suppressor p53 (p53ts). Although many tumor cell lines undergo apoptosis when p53 is expressed, the T47D transfectants remained viable at temperatures permitting wild-type p53 phenotype. This suggested that endogenous Bcl-XL could protect cancer cells from p53-mediated apoptosis. To test this hypothesis, murine erythroleukemia cells were transfected with bcl-XL and p53ts. While cell lines expressing p53 alone rapidly died, those cells co-expressing Bcl-XL survived. These results demonstrate that Bcl-XL is capable of protecting cells from p53-mediated apoptosis, and suggest a possible mechanism by which tumors expressing Bcl-XL are able to partly overcome the tumor suppressor functions of p53.
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PMID:Bcl-XL protects cancer cells from p53-mediated apoptosis. 747 61

Fas/APO-1 is a cell surface protein known to trigger apoptosis upon specific antibody engagement. Because wild-type p53 can activate transcription as well as induce apoptosis, we queried whether p53 might upregulate Fas/APO-1. To explore this possibility, we examined human p53-null (H358 non-small-cell lung adenocarcinoma and K562 erythroleukemia) and wild-type p53-containing (H460 non-small-cell lung adenocarcinoma) cell lines. When H358 or H460 cells were transduced with a replication-deficient adenovirus expression construct containing the human wild-type p53 gene but not with vector alone, a marked upregulation (approximately a three-to fourfold increase) of cell surface Fas/APO-1 was observed by flow cytometry. Similarly, K562, cells stably transfected with a plasmid vector containing the temperature-sensitive human p53 mutant Ala-143 demonstrated a four- to sixfold upregulation of Fas/APO-1 by flow-cytometric analysis at the permissive temperature of 32.5 degrees C. Temperature-sensitive upregulation of Fas/APO-1 in K562 Ala-143 cells was verified by immunoprecipitation and demonstrated to result from enhanced mRNA production by nuclear run-on and Northern (RNA) analyses. Stably transfected K562 cells expressing temperature-insensitive, transcriptionally inactive p53 mutants (His-175, Trp-248, His-273, or Gly-281) failed to upregulate Fas/APO-1 at either 32.5 degrees or 37.5 degrees C. The temperature-sensitive transcription of Fas/APO-1 occurred in the presence of cycloheximide, indicating that de novo protein synthesis was not required and suggested a direct involvement of p53. Collectively, these observations argue that Fas/APO-1 is a target gene for transcriptional activation by p53.
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PMID:Wild-type human p53 and a temperature-sensitive mutant induce Fas/APO-1 expression. 753 2

Murine erythroleukemia cells that lack endogenous p53 expression were transfected with a temperature-sensitive p53 allele. The temperature-sensitive p53 protein behaves as a mutant polypeptide at 37 degrees C and as a wild-type polypeptide at 32 degrees C. Three independent clones expressing the temperature-sensitive p53 protein were characterized with respect to p53-mediated G1 cell cycle arrest, apoptosis, and differentiation. Clone ts5.203 responded to p53 activation at 32 degrees C by undergoing G1 arrest, apoptosis, and differentiation. Apoptosis was seen in cells representative of all phases of the cell cycle and was not restricted to cells arrested in G1. The addition of a cytokine (erythropoietin, c-kit ligand, or interleukin-3) to the culture medium of ts5.203 cells blocked p53-mediated apoptosis and differentiation but not p53-mediated G1 arrest. These observations indicate that apoptosis and G1 arrest can be effectively uncoupled through the action of cytokines acting as survival factors and are consistent with the idea that apoptosis and G1 arrest represent separate functions of p53. Clones ts15.15 and tsCB3.4 responded to p53 activation at 32 degrees C by undergoing G1 arrest but not apoptosis. We demonstrate that tsCB3.4 secretes a factor with erythropoietin-like activity and that ts15.15 secretes a factor with interleukin-3 activity and suggest that autocrine secretion of these cytokines blocks p53-mediated apoptosis. These data provide a framework in which to understand the variable responses of cells to p53 overexpression.
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PMID:Cytokines inhibit p53-mediated apoptosis but not p53-mediated G1 arrest. 756 57

To better understand the molecular basis of radiation-induced cell death, we studied the role of the bcl-2 oncogene and the p53 tumor suppressor gene in this process. A temperature-sensitive mutant of murine p53 (p53Val-135) and/or bcl-2 was transfected into murine erythroleukemia cells (MEL, DP16-1, which are null in p53). We demonstrate that radiation-induced cell death occurs by both p53-dependent and -independent pathways and overexpression of bcl-2 modulates both pathways. When viability was measured 24 h post-radiation, cells that had been briefly exposed to wtp53 immediately after X-ray irradiation had decreased survival as compared to unirradiated cells expressing wtp53 or X-ray irradiated DP16-1 cells. However, at later times X-ray irradiated parental DP16-1 cells also had decreased survival compared to the unirradiated control. This decrease in survival began 48 h following radiation. Bcl-2 prevented radiation-induced cell death in DP16-1 cells expressing wtp53 and delayed radiation-induced cell death in DP16-1 cells without wtp53. X-ray irradiated cells expressing wtp53 displayed microscopic and biochemical characteristics consistent with cell death due to apoptosis. DP16-1 cells which were untransfected or co-transfected with wtp53 and bcl-2 displayed characteristics of cells undergoing necrosis. These results suggest that radiation-induced cell death occurs by both p53-dependent and p53-independent pathways. The p53-dependent pathway results in cell death via apoptosis and occurs approximately 24 h following radiation. The p53-independent pathway does not appear to involve apoptosis and occurs at a later time, starting 48 h after X-ray exposure. Thus, bcl-2 protects cells from p53-dependent radiation-induced apoptotic cell death and attenuates p53-independent radiation-induced cell death.
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PMID:Bcl-2 protects murine erythroleukemia cells from p53-dependent and -independent radiation-induced cell death. 763 1

Two different erythroleukemia cell lines have been established from the splenic lesions of transgenic mice possessing the Friend spleen focus-forming virus (F-SFFV) gp55 gene. One showed a near-diploid karyotype and a temperature-sensitive (ts) p53 mutation, and the other, a hyper-triploid karyotype with double p53 mutations found by single-strand conformation polymorphism (SSCP) analysis. The cell lines both retained No.11 chromosomes on which p53 genes are localized. Another p53 allele in the cell line with the ts-p53 mutation appeared intact in the SSCP analysis of the genomic exon 5. The cells with the ts-mutant p53 gene showed no apparent change with temperature shift in their growth or dimethylsulfoxide-induced differentiation, although the wild-type p53 gene on the other allele was not expressing. This ts-p53Val-135 gene made p53-deficient fibroblasts anchorage-independent at 37 degrees C but not at 32 degrees C. This non-virus-producing, mouse erythroleukemia cell line will be useful for the study of mutated p53 function during the induction of erythrodifferentiation or apoptotic change.
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PMID:A mouse erythroleukemia cell line possessing friend spleen focus-forming virus gp55 transgene and temperature-sensitive mutant p53 gene. 774 99

Expression of p21 has been shown to be up-regulated by the p53 tumor suppressor gene in vitro in response to DNA-damaging agents. However, p21 expression can be regulated independently of p53, and here we show that expression of p21 in various tissues during development and in the adult mouse occurs in the absence of p53 function. However, most tissues tested did require p53 for p21 induction following exposure of the whole animal to gamma irradiation. These results show that normal tissue expression of p21 to high levels is not dependent on p53 and confirm that induction of p21 by DNA-damaging agents does require p53. p21 is expressed upon differentiation of p53-deficient murine erythroleukemia (MEL) cells, and the kinetics of induction of p21 in this system suggest that it may be involved in the growth arrest that precedes terminal differentiation. The gene is up-regulated in mouse fibroblasts in response to serum restimulation but the kinetics and levels of induction differ between wild-type and mutant cells. Expression of p21 message following serum restimulation is superinducible by cycloheximide in wild-type but not in p53-deficient cells. The increases in p21 mRNA are reflected in changes in p21 protein levels. p21 expression also appears to be regulated at the post-transcriptional level because moderate increases in mRNA expression, during differentiation of MEL cells and upon serum restimulation of fibroblasts, are followed by large increases in protein levels. Regulation of the mouse p21 promoter by p53 depends on two critical p53-binding sites located 1.95 and 2.85 kb upstream from the transcriptional initiation site. The sequences mediating serum responsiveness of the promoter map to a region containing the proximal p53 site. p53 appears to play a critical role in p21 induction following DNA damage. Moreover, p21 can be regulated independently of p53 in several situations including during normal tissue development, following serum stimulation, and during cellular differentiation.
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PMID:p53-dependent and independent expression of p21 during cell growth, differentiation, and DNA damage. 777 11


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