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)

Type I and type II interferons (IFNs) are known to exert antitumor effects on a variety of tissues and cell types. We have previously shown that the type I IFN IFN alpha induces the expression of the cyclin-dependent kinase inhibitor p21WAF1 and inhibits the cell cycle of the human prostate adenocarcinoma cell line, DU145, that carries mutations in the tumor suppressor gene products p53 and pRB. We now show that the type II IFN IFN gamma similarly induces the expression of p21WAF1 and inhibits the cell cycle of DU145 cells. In addition, we show that while both IFNs exert antiproliferative activity, only IFN gamma induced phenotypic changes in these cells that accompanied the antiproliferative effect. For example, IFN gamma, but not IFN alpha, caused a significant reduction in epidermal growth factor receptor expression as well as an increase in the adhesion molecules intercellular adhesion molecule-1 and integrin alpha3. These phenotypic changes in DU145 cells are suggestive of the acquisition of a non-tumorigenic state. Consistent with these findings, IFN gamma showed a significantly lower invasive ability in in vitro assays using invasion chambers. Thus, IFN gamma inhibits both the cell cycle and the metastatic potential of DU145 cells independent of the p53 and RB status, and our data describe a mechanism for mediating the antitumor capabilities of IFN gamma that bypasses tumor suppressor genes like p53.
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PMID:IFNgamma induction of p21WAF1 in prostate cancer cells: role in cell cycle, alteration of phenotype and invasive potential. 963 5

The INK4a-ARF locus encodes two proteins, p16(INK4a) and p19(ARF), that restrain cell growth by affecting the functions of the retinoblastoma protein and p53, respectively. Disruption of this locus by deletions or point mutations is a common event in human cancer, perhaps second only to the loss of p53. Using insect cells infected with baculovirus vectors and NIH 3T3 fibroblasts infected with ARF retrovirus, we determined that mouse p19(ARF) can interact directly with p53, as well as with the p53 regulator mdm2. ARF can bind p53-DNA complexes, and it depends upon functional p53 to transcriptionally induce mdm2 and the cyclin-dependent kinase inhibitor p21(Cip1), and to arrest cell proliferation. Binding of p19(ARF) to p53 requires the ARF N-terminal domain (amino acids 1-62) that is necessary and sufficient to induce cell cycle arrest. Overexpression of p19(ARF) in wild type or ARF-null mouse embryo fibroblasts increases the half-life of p53 from 15 to approximately 75 min, correlating with an increased p53-dependent transcriptional response and growth arrest. Surprisingly, when overexpressed at supra-physiologic levels after introduction into ARF-null NIH 3T3 cells or mouse embryo fibroblasts, the p53 protein is handicapped in inducing this checkpoint response. In this setting, reintroduction of p19(ARF) restores p53's ability to induce p21(Cip1) and mdm2, implying that, in addition to stabilizing p53, ARF modulates p53-dependent function through an additional mechanism.
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PMID:Functional and physical interactions of the ARF tumor suppressor with p53 and Mdm2. 965 80

The tumor-suppressor protein p53 has been implicated in cell cycle arrest and apoptotic cell death in dividing cells (Yonish-Rouach et al. [1991] Nature 352:342-347. To elucidate possible functions of p53 in the regulation of cell division and cell death during development of the rat central nervous system, we compared the spatial and temporal expressions of p53 mRNA and protein with those of its transcriptional targets Bax, p21Waf1, and cyclin G1 and with the cyclin-dependent kinase inhibitors p27Kip1, p57Kip2, and p16Ink4a. From embryonic day 14 until the second postnatal week, p53 mRNA and protein were found predominantly in proliferating zones, including the cells of the emerging external granular layer of the cerebellum, and the ventricular and the subventricular zones of the forebrain. At all postnatal ages, there was a high expression of p53 mRNA and protein in cells of the rostral migratory stream, a well-defined pathway along which precursor cells of olfactory interneurons migrate from the ventricular and subventricular zones toward the olfactory bulb. In addition to its expression in proliferating cell populations, p53 was expressed in postmitotic cells of the cerebral cortex and hippocampus at embryonic and early postnatal stages. p53, p27Kip1, p16Ink4a, and bax alpha mRNA colocalized in the ventricular and subventricular zones at embryonic and early postnatal stages, but the distribution of p53 differed from that of its transcriptional targets cyclin G1 and p21Waf1 and from that of the cyclin-dependent kinase inhibitor p57Kip2, which were predominantly expressed in fully differentiated neurons. Double-labeling studies showed that p53 mRNA and protein were absent in cells undergoing developmental cell death, as identified by the presence of single- or double-stranded nuclear DNA breaks. Protein levels of p53 decreased during development in all brain areas studied. These results indicate a role for p53 in the control of cell division and early differentiation rather than in the control of cell death during rat brain development. The nonoverlapping temporal and spatial expression patterns of p53 and its transcriptional targets Bax, cyclin G1 and p21Waf1 suggest that each of these gene products fulfill independent roles in brain morphogenesis.
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PMID:Tumor-suppressor p53 is expressed in proliferating and newly formed neurons of the embryonic and postnatal rat brain: comparison with expression of the cell cycle regulators p21Waf1/Cip1, p27Kip1, p57Kip2, p16Ink4a, cyclin G1, and the proto-oncogene Bax. 965 83

Exposure of colorectal cancer (CRC) cells to ionizing radiation results in a cell-cycle arrest in G1 and G2. The G1 arrest is due to p53-mediated induction of the cyclin-dependent kinase inhibitor p21WAF1/CIP1/SDI1, but the basis for the G2 arrest is unknown. Through a quantitative analysis of gene expression patterns in CRC cell lines, we have discovered that 14-3-3sigma is strongly induced by gamma irradiation and other DNA-damaging agents. The induction of 14-3-3sigma is mediated by a p53-responsive element located 1.8 kb upstream of its transcription start site. Exogenous introduction of 14-3-3sigma into cycling cells results in a G2 arrest. As the fission yeast 14-3-3 homologs rad24 and rad25 mediate similar checkpoint effects, these results document a molecular mechanism for G2/M control that is conserved throughout eukaryotic evolution and regulated in human cells by p53.
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PMID:14-3-3sigma is a p53-regulated inhibitor of G2/M progression. 965 98

p27Kip1 is a cyclin-dependent kinase inhibitor that regulates the decision to enter S phase or withdraw from the cell cycle. In resting cells, the level of p27Kip1 provides an inhibitory threshold above which G1 cyclin D/E/cyclin-dependent kinases accumulate before activation; however, in cycling cells, p27Kip1 protein is sequestered by high levels of active cyclin D/cyclin-dependent kinase 4 complexes. As a group, the cyclin-dependent kinase inhibitors have been proposed to act as tumor suppressor genes, and several members have been implicated in the pathogenesis of a variety of human cancers. We examined p27Kip1 expression in 116 non-Hodgkin's lymphomas including 50 cases of MCL (40 typical and 10 blastic variants), 21 follicular lymphomas, 20 diffuse large B-cell lymphomas, 16 chronic lymphocytic leukemias, 8 marginal zone B-cell lymphomas, and 1 splenic marginal zone lymphoma, and correlated its expression with that of the proliferation marker Ki67 (MiB1) and with p53. p27Kip1 gene structure was analyzed by Southern blot in the group of MCLs. In all cases of non-Hodgkin's lymphoma other than MCL, p27Kip1 expression was inversely related to the proliferation index as measured by Ki67. In contrast, in typical MCL, p27Kip1 expression was negative in 35 of 40 (88%) cases, irrespective of the proliferative rate (median 15%; range 2 to 90%). Paradoxically, in the blastic variant of MCL, 8 of 10 (80%) cases showed expression of p27Kip1, despite a high proliferation rate (median 60%; range 32 to 100%). However, the staining in most of the cases was less intense than in the reactive T lymphocytes. Deletions of p27Kip1 gene were not found in any of the 25 cases examined. p53 expression was found in 15 of 50 cases of MCL: 7 of 10 (70%) in the blastic variant and 8 of 40 (20%) in the typical MCL (70% vs. 20%, P < 0.0045). These results demonstrate that MCLs, in contrast to other non-Hodgkin's lymphomas and normal lymphoid tissue, fail to correlate p27Kip1 expression with the proliferation rate. This peculiar uncoupling of p27Kip1 protein expression from the proliferation rate may be related to the high levels of cyclin D1 expressed in MCL and is likely to have profound effects on cell cycle regulation and contribute to the pathogenesis of MCL.
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PMID:Mantle cell lymphomas lack expression of p27Kip1, a cyclin-dependent kinase inhibitor. 966 78

There are two response elements for p53 in the promoter of the gene for the cyclin-dependent kinase inhibitor p21. The binding of p53 to the 5' site was enhanced by incubation with monoclonal antibody 421, whereas the binding of p53 to the 3' site was inhibited. Mutational analysis showed that a single-base change caused one element to behave like the other. A response element in the human cdc25C promoter is bound by p53 with properties similar to the 3' site. These results identify two classes of p53-binding sites and suggest a mechanism for target gene selectivity by p53.
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PMID:Identification of a novel class of genomic DNA-binding sites suggests a mechanism for selectivity in target gene activation by the tumor suppressor protein p53. 967 54

The p53 tumour suppressor gene is frequently mutated in oral squamous cell carcinomas. However, the downstream mechanism of p53 during oral carcinogenesis is not fully understood. The cyclin-dependent kinase inhibitor p21WAF1/CIP1 (p21), which can be induced by wild-type p53, functions as a downstream mediator of the antiproliferative and apoptosis-inducing actions of wild-type p53. To learn more about the roles of the p53 gene and its downstream mechanism, we evaluated p53 gene mutation and immunohistochemical expression of p53 and p21 in 20 cases of oral squamous cell carcinoma. p53 gene mutations were observed in 7 cases (35%). Overexpression of p53 was found in 4 of 13 cases with wild-type p53, and in 6 of 7 cases with p53 mutations. p21 expression was detected in 15 of 20 cases (75%). The expression of p21 correlated neither with mutated p53 mutation nor with p53 protein overexpression. p21 was expressed even in carcinomas in which molecular analysis revealed a nonsense mutation. In normal oral mucosa, p21 expression was limited in the differentiating spinous cell layer. However, dysplastic or hyperplastic epithelium adjacent to the tumour demonstrated the increased expression of p21 even in the proliferating basal cell layer. These molecular and immunohistochemical data did not show any correlation with various clinico-pathologic parameters. These results suggest that p53 gene mutations and altered expression of p21 are commonly involved in oral carcinogenesis, but do not correlate with each other or with the clinico-pathologic parameters. They also suggest that p21 expression in oral squamous cell carcinomas may be induced by a p53-independent pathway.
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PMID:Expression of p21WAF1/CIP1 is unrelated to p53 tumour suppressor gene status in oral squamous cell carcinomas. 969 54

Cells expressing the R273H mutant of p53, which lacks sequence specific DNA binding capacity, do not undergo cell cycle arrest in G1 following exposure to ionizing or UV radiation because of their inability to induce p21Waf1/Cip1, a cyclin-dependent kinase inhibitor and downstream mediator of p53-dependent DNA damage-induced growth arrest. Following UV-irradiation or treatment with an inhibitor of RNA pol II, we observed a rapid induction of the apoptotic process, as evidenced by DNA fragmentation and the proteolytic cleavage of poly(ADP-ribose) polymerase. Using mimosine, a p21Waf1/Cip1 inducer that bypasses the requirement for transcriptional transactivation by p53, we demonstrated that a G1 cell cycle arrest can prevent apoptosis following UV-irradiation or treatment with an RNA polymerase 11 inhibitor. Serum starvation, which also synchronized cells in G1 but did not induce p21Waf1/Cip1, did not protect cells from apoptosis. These results demonstrate that restoring a late G1 checkpoint by inducing p21Waf1/Cip1 expression can protect cells from DNA damage induced apoptosis. Our results suggest that p21Waf1/Cip1 can interrupt the apoptotic process at a point downstream from p53 accumulation but upstream from caspase-3 activation.
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PMID:p21-induced cycle arrest in G1 protects cells from apoptosis induced by UV-irradiation or RNA polymerase II blockage. 969 54

The p21 cyclin-dependent kinase inhibitor blocks cell cycle transition and replication in response to DNA damage. Although required for p53-mediated cell cycle arrest, p21 expression can also be initiated via p53-independent pathways. This study examines the postirradiation expression of p21 in squamous cell carcinoma (SCC) of the esophagus to determine whether this p21 production is p53-dependent or independent. We sequenced p53 exons 5-8 and the exon-intron junctions of four esophageal SCC lines, KYSEs 30, 150, 410, and 960. We exposed these same lines to increasing doses of radiation (3 to 24 Gy) and subsequently extracted their total protein. The p21 content of the protein was then determined via p21 ELISA. The same cell lines were also irradiated for determination of clonogenic survival over the course of 7 days. Cells were counted via a Coulter machine. KYSE 30 and 410 were found to have mutations in their p53 genes, while KYSEs 150 and 960 had wild-type p53 genomes. All cell lines produced basal levels of p21 (from 3.2 to 7.8 ng/ml) and all lines increased production in response to radiation (6.4 to 16.8 ng/ml at 3 Gy, P < 0.05 for all lines vs. their controls). Cells displayed dose-dependent mortality in response to radiation, with only minor differences in survival between two of the lines. All of the esophageal SCC lines studied produced basal p21 and increased p21 with irradiation. p21 production was independent of p53 status. Previous reports have failed to detect elevation of p21 expression in esophageal SCC, and this is the first report of radiation-induced p21 expression in esophageal cell lines.
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PMID:p21 expression is increased by irradiation in esophageal squamous cell carcinoma. 969 13

The cyclin-dependent kinase inhibitor p21/WAF1 is regulated by p5S3-dependent and p53-independent pathways. In addition, p21/WAF1 binds with proliferating cell nuclear antigen (PCNA) and inhibits the action of PCNA. To investigate the possible role of p21/WAF1 in human hepatocellular carcinomas (HCCs), we examined the expression of p21/WAF1 and its relation with PCNA and p53 expression in 97 surgically resected HCCs by immunohistochemistry and with the mutation status of p53 in 26 HCCs. p53 mutation status was examined by direct DNA sequencing using 3 sets of primers covering exons 5-9. Six of the 26 tumors showed p53 point mutations and only 33% of these HCCs demonstrated p21/WAF1 expression. In contrast, 75% of HCCs without p53 mutations showed p21/WAF1 expression. Of all 97 HCCs, p21/WAF1 expression was significantly higher in the tumors than in corresponding non-tumorous liver. When the tumors were stratified into 2 groups by the median tumor p21/WAF1 score, those with higher expression were found to have a lower incidence of multiple tumor nodules (p = 0.008) and tumor microsatellite formation (p = 0.050). The tumor p21/WAF1 score was positively associated with tumor PCNA expression (p = 0.036) but not with tumor p53 expression. Thus, in HCC, expression of p21/WAF1 is in part dependent on p53 status, but a p53-independent pathway also plays a significant role in the regulation of p21/WAF1 expression. High p21/WAF1 expression is significantly associated with solitary tumor nodules and, to a lesser extent, tumor microsatellites but may not be enough to suppress tumor progression.
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PMID:p21/WAF1, p53 and PCNA expression and p53 mutation status in hepatocellular carcinoma. 969 37

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