UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The reversibility of a differentiation program termed dedifferentiation, redifferentiation, or retrodifferentiation opens a spectrum of new possibilities for cellular development. During differentiation and retrodifferentiation, the expression of gene products associated with a differentiated phenotype and cell cycle regulation demonstrate inverse patterns. This effect requires a coordinated network that simultaneously controls cell growth and differentiation. In particular, crosstalk between induction of differentiation and G0/G1 cell cycle exit can be initiated and sustained by activated serine/threonine kinases and tyrosine kinases. Phosphorylation signals are relayed to certain genes or transcription factors such as Fos/Jun, EGR-1, NF-kappa B, MyoD, or the Myc/Max gene family. However, the precise regulation of these transcription factors to confer signals to differentiation-associated and cell cycle-regulatory genes remains unclear. Cell cycle exit into a transient G0'-arrest cycle or a terminal G0 phase is determined by a network of phosphorylation signals involving the retinoblastoma protein and a variety of factors such as the E2F family, cyclins, and cyclin-dependent kinases. In this context, a variety of differentiation-induced cell lines, including monocytic, neuronal, or muscle cells, can progress through the G0'-arrest cycle, whereby a certain population retains the capacity to retrodifferentiate and reenter the cell cycle. In contrast, the rest of the differentiated population enters the irreversible G0 phase (terminal commitment) that finally results in programmed cell death. The expression of growth arrest-specific (gas and gadd) genes is associated with the G0'-arrest cycle, and other factors, including c-myc, p53, mdm2, and bcl2/bclx, contribute to the regulation of the cell death program. Although the precise signaling cascade determining retrodifferentiation or cell death remains unclear, a coordinated inter- and intracellular regulation could establish a certain biological balance between these exclusive pathways. Consequently, a retrodifferentiation process may provide a potential for cell type conversion or transdifferentiation, whereby retrodifferentiated cells can be induced to develop via a different pathway according to tissue-specific requirements.
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PMID:Retrodifferentiation and cell death. 771 Nov 13

Exposure to ionizing radiation leads to induction of the immediate-early gene, early growth response-1 (Egr-1). Previous studies have suggested distinct cell type- and inducer-specific roles for EGR-1 protein in cellular growth inhibition. The present study was undertaken to determine the functional role of EGR-1 in growth inhibition caused by exposure of tumor cells to ionizing radiation. Exposure to ionizing radiation caused induction of EGR-1 protein in human melanoma cells A375-C6. Inhibition of either the function of EGR-1 protein by stable transfection with a dominant-negative mutant or the expression of EGR-1 by transient transfection with an antisense oligomer resulted in a diminished growth-inhibitory response to ionizing radiation. Because previous studies have suggested that mutations in the tumor-suppressor gene p53 confer radio-resistance, we examined the p53 status of A375-C6 cells. Interestingly, both the parental and the transfected A375-C6 cells showed trisomy for wild-type p53 alleles. Exposure to ionizing radiation resulted in induction of p53 protein that localized to the nucleus in A375-C6 cells. These data suggest that inhibition of EGR-1 function confers radio resistance despite the induction of wild-type nuclear p53. Thus, EGR-1 is required for the growth-inhibitory response to ionizing radiation in A375-C6 cells.
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PMID:EGR-1 induction is required for maximal radiosensitivity in A375-C6 melanoma cells. 891 May 82

Serial analysis of gene expression (SAGE) allows for a quantitative, representative, and comprehensive profile of gene expression. We have utilized SAGE technology to contrast the differential gene expression profile in rat embryo fibroblast cells producing temperature-sensitive p53 tumor suppressor protein at permissive or non-permissive temperatures. Analysis of approximately 15,000 genes revealed that the expression of 14 genes (P < 0.001, > or = 0.03% abundance) was dependent on functional p53 protein, whereas the expression of three genes was significantly higher in cells producing non-functional p53 protein. Those genes whose expression was increased by functional p53 include RAS, U6 snRNA, cyclin G, EGR-1, and several novel genes. The expression of actin, tubulin, and HSP70 genes was elevated at the non-permissive temperature for p53 function. Interestingly, the expression of several genes was dependent on a non-temperature-sensitive mutant p53 suggesting altered transcription profiles dependent on specific p53 mutant proteins. These results demonstrate the utility of SAGE for rapidly and reproducibly evaluating global transcriptional responses within different cell populations.
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PMID:SAGE transcript profiles for p53-dependent growth regulation. 928 62

Although cloned as an "immediate-early gene," recent studies show that EGR-1 functions in growth regulation and suppression of transformation by transactivation of the transforming growth factor beta-1 (TGF-beta1) gene and cooperation with Sp1, Jun-B, p21WAF1/Cip1, and stimulates apoptosis by transactivation of the p53 gene.
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PMID:Suppression of growth and transformation and induction of apoptosis by EGR-1. 947 63

The cytogenetic contribution to the poor prognosis when myelodysplastic syndrome (MDS) progresses to acute myeloid leukemia (AML) is not well understood. We present a 66-year-old male who had thrombocytopenia with dysplastic features in peripheral blood neutrophils (hypogranular, hyposegmented neutrophils) comprising the Pelger-Huet anomaly, increased blasts in the marrow, and markers consistent with AML. Diagnostic marrow cytogenetics showed a complex karyotype including del(5q), a novel unbalanced dicentric translocation, t(17;20), resulting in both del(20q) and del(17p). Fluorescence in situ hybridization (with probe TP53) showed deletion of 17p13 on the dicentric chromosome, completing the criteria for the 17p- syndrome. Fluorescence in situ hybridization with probes for two tumor suppressor genes on chromosome 5q also showed deletion (CSF1R [at 5(q33.2-q33.4) and EGR-1 [5(q31-q32)]). Remission was difficult to achieve and cytogenetic relapse occurred 6 months postdiagnosis, and clinical relapse approximately one month later. Our case provides a novel mechanism for the 17p- syndrome, and highlights the difficulty of attributing prognostic significance to a particular cytogenetic abnormality in AML.
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PMID:17p- syndrome arising from a novel dicentric translocation in a patient with acute myeloid leukemia. 1074 99

In this study, we sought to investigate the mechanism of the proapoptotic function of Egr-1 in relation to p53 status in normal isogenic cell backgrounds by using primary MEF cells established from homozygous (Egr-1(-/-)) and heterozygous (Egr-1(+/-)) Egr-1 knock-out mice. Ionizing radiation caused significantly enhanced apoptosis in Egr-1(+/-) cells (22.8%; p < 0.0001) when compared with Egr-1(-/-) cells (3.5%). Radiation elevated p53 protein in Egr-1(+/-) cells in 3-6 h. However, in Egr-1(-/-) cells, the p53 protein was down-regulated 1 h after radiation and was completely degraded at the later time points. Radiation elevated the p53-CAT activity in Egr-1(+/-) cells but not in Egr-1(-/-) cells. Interestingly, transient overexpression of EGR-1 in p53(-/-) MEF cells caused marginal induction of radiation-induced apoptosis when compared with p53(+/+) MEF cells. Together, these results indicate that Egr-1 may transregulate p53, and both EGR-1 and p53 functions are essential to mediate radiation-induced apoptosis. Rb, an Egr-1 target gene, forms a trimeric complex with p53 and MDM2 to prevent MDM2-mediated p53 degradation. Low levels of Rb including hypophosphorylated forms were observed in Egr-1(-/-) MEF cells before and after radiation when compared with the levels observed in Egr-1(+/-) cells. Elevated amounts of the p53-MDM2 complex and low amounts of Rb-MDM-2 complex were observed in Egr-1(-/-) cells after radiation. Because of a reduction in Rb binding to MDM2 and an increase in MDM2 binding with p53, p53 is directly degraded by MDM2, and this leads to inactivation of the p53-mediated apoptotic pathway in Egr-1(-/-) MEF cells. Thus, the proapoptotic function of Egr-1 may involve the mediation of Rb protein that is essential to overcome the antiapoptotic function of MDM2 on p53.
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PMID:Ionizing radiation down-regulates p53 protein in primary Egr-1-/- mouse embryonic fibroblast cells causing enhanced resistance to apoptosis. 1103 41

Changes in gene expression were examined in p53(-/-) and p53(+/+) mouse cells after ultraviolet (UV) irradiation. Differential display was used to identify differentially expressed gene(s) in UV-treated p53(-/-) and p53(+/+) cells. One of the differentially expressed genes was EGR-1 (early growth response gene-1), which was shown to be induced only in p53(-/-) cells. The induction of this gene by UV was detected as early as 0.5 h, peaked at 2 h, and returned to normal levels by 4 h. De novo protein synthesis was not required for UV-induced EGR-1 expression in p53(-/-) cells. Pretreatment of p53(-/-) cells with suramin, an inhibitor of growth factor receptors, completely suppressed UV-induced EGR-1 expression, suggesting that the induction may be mediated via the growth factor receptors. The presence of wild-type p53 suppressed the induction of EGR-1 after UV treatment. Overexpression of EGR-1 promoted the UV-induced transformation in p53(+/+) cells, but not in p53(-/-) cells. These data suggested that EGR-1 may be an important player in the UV responses of mammalian cells and may influence UV-induced transformation.
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PMID:EGR-1, a UV-inducible gene in p53(-/-) mouse cells. 1133 21

This study was undertaken to determine whether the transcription factor EGR-1 expression: (1) in the primary tumor, correlates with radiation response in terms of complete local tumor control with no evidence of disease or recurrence and no evidence of metastasis; (2) in the postirradiated biopsies correlates with residual tumor; and (3) correlates with the expression of Egr-1 target genes such as TP53, pRB, and Bax. The authors analyzed: (1) 25 pretreated surgically resected paraffin-embedded primary adenocarcinomas of the prostate for the presence of EGR-1 expression and mutation, and correlated this with clinical endpoints such as serum prostate-specific antigen levels and current clinical status; (2) 27 postirradiated biopsies of prostate for the presence of EGR-1 expression, and correlated these findings to the residual tumor status; and (3) 12 prospective prostate tumor specimens for EGR-1 expression and its target genes. EGR-1 expression was determined by immunohistochemistry and mutations were screened in two regions of the Egr-1 gene (trinucleotide AGC repeats in transactivation domain [TD] and poly A tract in 3'UTR) by polymerase chain reaction-single strand conformational polymorphism analysis. Of 25 patients, 18 patients showed expression of EGR-1. EGR-1 overexpression correlated with treatment failure. No correlation with EGR-1 overexpression and its target genes was found, which may indirectly suggest that overexpressed EGR-1 may lack transactivation function. In summary, EGR-1 overexpression in the mutant form may provide an indication of clinical failure (local recurrence or metastasis).
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PMID:Early growth response-1 gene: potential radiation response gene marker in prostate cancer. 1158 4

The proliferation of most primary cells in culture is limited by replicative senescence and crisis, p53-dependent events. However, the regulation of p53 itself has not been defined. We find that deletion of the early growth response 1 (EGR1) transcription factor leads to a striking phenotype, including complete bypass of senescence and apparent immortal growth consistent with loss of a suppressor gene. EGR1-null mouse embryo fibroblasts (MEFs) exhibit decreased expression of p53, p21(Cip1/Waf1), and other p53 "marker" proteins. Precrisis WT but not EGR1-null cells exhibit irradiation-induced arrest. WT MEFs that emerge from crisis exhibit a mutated p53 (sequence confirmed), colony formation, and tumorigenicity. In contrast, high-passage EGR1-null MEFs retain the WT p53 sequence but with much reduced expression, remain untransformed, and grow continuously. An EGR1-expressing retrovirus restores p53 expression and sencescence to EGR1-null but not p53-null MEFs or postcrisis WT cells. Taken together, the results establish EGR1 as a major regulator of cell senescence and previously undescribed upstream "gatekeeper" of the p53 tumor suppressor pathway.
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PMID:Early growth response 1 protein, an upstream gatekeeper of the p53 tumor suppressor, controls replicative senescence. 1262 5

BACKGROUND: The aim of this work was to investigate in vitro the putative role of EGR-1 in the growth of glioma cells. EGR-1 expression was examined during the early passages in vitro of 17 primary cell lines grown from 3 grade III and from 14 grade IV malignant astrocytoma explants. The explanted tumors were genetically characterized at the p53, MDM2 and INK4a/ARF loci, and fibronectin expression and growth characteristics were examined. A recombinant adenovirus overexpressing EGR-1 was tested in the primary cell lines. RESULTS: Low levels of EGR-1 protein were found in all primary cultures examined, with lower values present in grade IV tumors and in cultures carrying wild-type copies of p53 gene. The levels of EGR-1 protein were significantly correlated to the amount of intracellular fibronectin, but only in tumors carrying wild-type copies of the p53 gene (R = 0,78, p = 0.0082). Duplication time, plating efficiency, colony formation in agarose, and contact inhibition were also altered in the p53 mutated tumor cultures compared to those carrying wild-type p53. Growth arrest was achieved in both types of tumor within 1-2 weeks following infection with a recombinant adenovirus overexpressing EGR-1 but not with the control adenovirus. CONCLUSIONS: Suppression of EGR-1 is a common event in gliomas and in most cases this is achieved through down-regulation of gene expression. Expression of EGR-1 by recombinant adenovirus infection almost completely abolishes the growth of tumor cells in vitro, regardless of the mutational status of the p53 gene.
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PMID:Inhibition of cell growth by EGR-1 in human primary cultures from malignant glioma. 1471 80

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