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)

Previous studies by our group showed that infection of human and rodent cells by human adenovirus type 5 (Ad5) results in the induction of p53-independent apoptosis and cell death that are dependent upon transactivation of early region 4 (E4). To identify which E4 products are involved, studies were conducted with p53-deficient human SAOS-2 cells infected with various Ad5 E4 mutants. An E4orf6-deficient mutant was defective in cell killing, whereas another that expressed only E4orf6 and E4orf4 killed like wild-type virus, suggesting that E4orf6 may be responsible for cytotoxicity; however, a mutant expressing only E4orf4 induced high levels of cell death, indicating that this E4 product may also be able to induce cytotoxicity. To define the E4 cell death-inducing functions more precisely, cDNAs encoding individual E4 products were introduced into cells by DNA transfection in the absence of other Ad5 proteins. In cotransfections with a cDNA encoding firefly luciferase, enzymatic activity was high in all cases except with E4orf4, where luciferase levels were less than 20% of those in controls. In addition, drug selection of several cell types following transfection with retroviral vector DNA encoding individual E4 products as well as puromycin resistance yielded a large number of cell colonies except when E4orf4 was expressed. These data demonstrated that E4orf4 is the only E4 product capable of independent cell killing. Cell death induced by E4orf4 was due to apoptosis, as evidenced by 4',6-diamidino-2-phenylindole (DAPI) staining of cell nuclei in E4orf4-expressing cells. Thus, although E4orf6 may play some role, these results suggested that E4orf4 may be the major E4 product responsible for induction of p53-independent apoptosis.
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PMID:The early region 4 orf4 protein of human adenovirus type 5 induces p53-independent cell death by apoptosis. 969 8

p53 is a tumour suppressor gene which functions as a transcription factor to upregulate genes for growth arrest and apoptosis following DNA damage. p53 mutations are associated with Li-Fraumeni and Li-Fraumeni like syndromes. Recently mutations of the oligomerization domain have been isolated from an LFS and an LFL family affecting respectively codon 344 (Leu to Pro) and 337 (Arg to Cys). The present study was designed to determine the affect of these mutations on the function of p53 protein. p53 344 Leu to Pro existed only in a monomeric form and could not bind to DNA. It was inactive at inducing apoptosis, transactivating luciferase from a bax promoter and inhibiting cell growth. In contrast, p53 337 Arg to Cys could form tetramers and could bind to DNA. However, p53 337 Arg to Cys was not fully active and could only induce apoptosis, transactivate luciferase from a bax promoter and inhibit cell growth with approximately 60% of the ability of wild-type p53. Both mutant proteins had reduced ability to bind to MDM2, p53 337 Arg to Cys being more reduced than p53 344 Leu to Pro. These results indicate that point mutations in the oligomerization domain can disrupt p53 function. In addition, the value of LFS and LFL families for the further understanding of the biological and biochemical properties of p53 is demonstrated.
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PMID:Characterization of p53 oligomerization domain mutations isolated from Li-Fraumeni and Li-Fraumeni like family members. 970 30

Activation of the tumor suppressor p53 by stress and damage stimuli often correlates with induction of stress kinases, Jun-NH2 kinase (JNK). As JNK association with p53 plays an important role in p53 stability, in the present study we have elucidated the relationship between the JNK-signaling pathway and p53 stability and activity. Expression of a constitutively active form of JNKK upstream kinase, mitogen-activated protein kinase kinase kinase (DeltaMEKK1), increased the level of the exogenously transfected form of p53 in p53 null (10.1) cells as well as of endogenous p53 in MCF7 breast cancer cells. Increased p53 level by forced expression of DeltaMEKK1 coincided with a decrease in p53 ubiquitination in vivo and with prolonged p53 half-life. Computerized modeling of the JNK-binding site (amino acids 97-116; p7 region) enabled us to design mutations of exposed residues within this region. Respective mutations (p53(101-5-8)) and deletion (p53(Deltap7)) forms of p53 did not exhibit the same increase in p53 levels upon DeltaMEKK1 expression. In vitro phosphorylation of p53 by JNK abolished Mdm2 binding and targeting of p53 ubiquitination. Similarly, DeltaMEKK1 expression increased p53 phosphorylation by immunopurified JNK and dissociated p53-Mdm2 complexes. Transcriptional activity of p53, as measured via mdm2 promoter-driven luciferase, exhibited a substantial increase in DeltaMEKK1-expressing cells. Cotransfection of p53 and DeltaMEKK1 into p53 null cells potentiated p53-dependent apoptosis, suggesting that MEKK1 effectors contribute to the ability of p53 to mediate programmed cell death. Our results point to the role of MEKK1-JNK signaling in p53 stability, transcriptional activities, and apoptotic capacity as part of the cellular response to stress.
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PMID:MEKK1/JNK signaling stabilizes and activates p53. 972 39

The regulation of Werner's syndrome gene (WRN) expression was studied by characterizing the cis-regulatory elements in the promoter region and the trans-activating factors that bind to them. First, we defined the transcription initiation sites and the sequence of the 5' upstream region (2.8 kb) of WRN that contains a number of cis-regulatory elements, including 7 Sp1, 9 retinoblastoma control element (RCE), and 14 AP2 motifs. A region consisting of nucleotides -67 to +160 was identified as the principal promoter of WRN by reporter gene assays in HeLa cells, using a series of WRN promoter-luciferase reporter (WRN-Luc) plasmids that contained the 5'-truncated or mutated WRN upstream regions. In particular, two Sp1 elements proximal to the transcription initiation site are indispensable for WRN promoter activity and bind specifically to Sp1 proteins. The RCE enhances WRN promoter activity. Coexpression of the WRN-Luc plasmids with various dosages of plasmids expressing Rb or p53 in Saos2 cells lacking active Rb and p53 proteins showed that the introduced Rb upregulates WRN promoter activity a maximum of 2. 5-fold, while p53 downregulates it a maximum of 7-fold, both dose dependently. Consistently, the overexpressed Rb and p53 proteins also affected the endogenous WRN mRNA levels in Saos2 cells, resulting in an increase with Rb and a decrease with p53. These findings suggest that WRN expression, like that of other housekeeping genes, is directed mainly by the Sp1 transcriptional control system but is also further modulated by transcription factors, including Rb and p53, that are implicated in the cell cycle, cell senescence, and genomic instability.
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PMID:Sp1-mediated transcription of the Werner helicase gene is modulated by Rb and p53. 977 36

An assay system was constructed to identify chemicals that have a potential to induce p21/WAF1 gene, a target of the tumor suppressor p53 critical for negative growth regulation. Screening of about 1300 culture fluids of Streptomyces resulted in identification of active substances which induced the p21 gene in a p53-independent manner; one was a mixture of four members of the actinomycin group, and the other was trichostatin A. Transcriptional regulatory regions of p21 gene for induction by actinomycin D and trichostatin A were determined by transient expression of luciferase constructs in cells which are p53-deficient (Saos-2) or express a mutated form of p53 (TMK-1). The essential transcriptional elements for the response to these drugs localize within 210 bp of the 5'-upstream region of human p21 gene, and Sp1 elements were determined to be critical for the induction. DNA-binding activity of Sp1 was not increased in cells treated with these drugs, but kinase inhibitors such as staurosporin and wortmannin inhibited the induction.
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PMID:Identification of active substances from Streptomyces culture fluids using p53-independent expression of p21/WAF1/Cip1 gene and their mode of action. 978 35

The tumor suppressor protein p53 has been implicated in the response of cells to DNA damage. Studies to date have demonstrated a role for p53 in the transcriptional activation of target genes in the cellular response to DNA damage that results in either growth arrest or apoptosis. In contrast, here is demonstrated a role for p53 in regulating the basal level of expression of the cyclin-dependent kinase inhibitor p21 in the absence of treatment with DNA-damaging agents. Wild-type p53-expressing MCF10F cells had detectable levels of p21 mRNA and protein, whereas the p53-negative Saos-2 cells did not. Saos-2 cells were infected with recombinant retrovirus to establish a proliferating pool of cells with a comparable constitutive level of expression of wild-type p53 protein to that seen in untreated MCF10F cells. Restoration of wild-type but not mutant p53 expression recovered a basal level of expression of p21 in these cells. Constitutive expression of luciferase reporter constructs containing the p21 promoter was inhibited by co-transfection with the human MDM2 protein or a dominant-negative p53 protein and was dependent on the presence of p53 response elements in the reporter constructs. Furthermore, p53 in nuclear extracts of untreated cells was capable of binding to DNA in a sequence-specific manner. These results implicate a role for p53 in regulating constitutive levels of expression of p21 and demonstrate that the p53 protein is capable of sequence-specific DNA binding and transcriptional activation in untreated, proliferating cells.
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PMID:Constitutive expression of the cyclin-dependent kinase inhibitor p21 is transcriptionally regulated by the tumor suppressor protein p53. 978 25

p53 is a tumor suppressor which exerts its function through the regulation of genes mediating cell cycle arrest and the induction of apoptosis. Cellular survival and proliferation can be positively regulated through the action of cytokines. These signals act through the activation of cell surface receptors, and the phosphorylation of intracellular signaling components, e.g. members of the Stat family (signal transducers and activators of transcription). The signaling effects of p53 and the cytokine receptors on the cellular phenotype are counteracting. We investigated the influence of p53 on the transactivation potential of Stat5. p53 repressed the prolactin induction of the Stat5 mediated transcription of the beta-casein promoter-luciferase reporter gene, but did not affect IFN-gamma induced, Stat1 dependent transcription of the IRF-1 promoter. The inhibition was not due to a decrease in the cellular concentration of Stat5 or to interference with its specific DNA binding activity. No repression of the basal transcriptional activity of the beta-casein promoter was observed. p53 mutants defective in their DNA binding or oligomerization functions had only weak inhibitory effects, but a mutant of p53 in the transactivation domain, efficiently repressed Stat5 dependent induction. The repressive function of p53 on Stat5 activity is independent of the amino-terminal transactivation domain, but requires a functional DNA binding domain and the carboxyl-terminal domain. Our experiments show that p53 counteracts Stat5 mediated cytokine induction of gene transcription. The effect is specific for Stat5 and independent of p53 induced apoptosis.
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PMID:p53 suppresses cytokine induced, Stat5 mediated activation of transcription. 980 59

Multidrug resistance is a major obstacle to the success of cancer chemotherapy. The multidrug resistance-associated protein (MRP) has been shown to confer multidrug resistance. To study MRP gene expression at the transcriptional level, we have fused the MRP gene promoter with the luciferase reporter gene and studied its regulation. Cotransfection of MRP promoter constructs with p53 expression plasmids in p53-null human H1299 and mouse (10)1 cells demonstrated that the wild-type (wt) p53 markedly suppressed MRP promoter activity, whereas mutant p53 had little inhibitory effect. Transfections using 5' deletion mutant constructs of the MRP promoter showed that inhibition of the promoter activity by wt p53 mainly resided in the region from -91 to +103 bp, where several Sp1 transcription factor binding sites are localized. Cotransfection of the MRP promoter into Drosophila SL2 cells with an Sp1 expression vector increased the promoter activity in a dose-related manner up to approximately 200-fold. The stimulation of MRP promoter activity by Sp1 was attenuated by the cotransfection of a wt p53-expression plasmid. Furthermore, we have determined that endogenous MRP mRNA levels were down-regulated by restoration of wt p53-expression in a human lung cancer cell line. The relevance of MRP regulation in drug resistance was studied in a drug-resistant cell line, CEM/VM-1-5, that is approximately 140-fold more resistant to the epipodophyllotoxin, teniposide (VM-26), than the parental CEM cells. CEM/VM-1-5 cells express a much higher amount of MRP mRNA and protein than CEM cells, indicating that the resistant phenotype is at least partly due to increased MRP production. Transient transfection of the promoter constructs revealed that CEM/VM-1-5 cells had higher (7-fold) MRP promoter activity than CEM cells. Cotransfection of a wt p53-expression plasmid caused a reduction of MRP promoter activity in both CEM and CEM/VM-1-5 cells, but the inhibition was more than double in CEM/VM-1-5 cells compared with CEM cells. Our results demonstrated that wt p53 acts as a negative regulator of MRP gene transcription, at least in part by diminishing the effect of a powerful transcription activator Sp1. Therefore, a loss of wt p53 function and/or an increase in Sp1 activity in tumor cells could contribute to an up-regulation of the MRP gene.
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PMID:Transcriptional suppression of multidrug resistance-associated protein (MRP) gene expression by wild-type p53. 986 34

p21(WAF1) inhibits cyclin-cyclin-dependent kinase (Cdk) complexes, causing cell cycle arrest. p21(WAF1) contains p53-binding sites in its promoter and expression of p21(WAF1) is induced by functional p53. In the present work, we have studied the role of protein kinase C (PKC) in the induction of p21(WAF1) and show that induction of p21(WAF1) expression can occur by activation of PKC in cells having no p53. Human ovarian carcinoma cells, SKOV-3, lack p53 protein and PMA, a potent activator of PKC, did not induce p53. PMA increased the expression of p21(WAF1) mRNA both in these cells and in other cells which do not contain p53 (THP-1 and U937). Treatment of human embryonic fibroblasts, WI38, with PMA also induced the accumulation of p21(WAF1) without affecting p53 levels. However, PMA did not increase levels of p21(WAF1) mRNA in cells where either the PKC or the mitogen-activated protein kinase pathway was blocked. Furthermore, treatment of cells with various phorbol ester derivatives which activate PKC resulted in the induction of p21(WAF1) in SKOV-3 cells. In contrast, phorbol esters which do not activate PKC failed to induce p21(WAF1) expression. PMA increased the transcriptional rate of p21(WAF1) and activated the transcription of a luciferase reporter gene, controlled by the p21 promoter, in SKOV-3 cells with or without a p53 consensus-binding sequence. By contrast, PMA markedly stabilized p21(WAF1) mRNA; the half-life (t1/2) of p21(WAF1) in PMA-treated cells was >8 h compared with <1 h in untreated cells. These findings provide evidence that the PKC pathway induces expression of p21(WAF1) independently of p53. Our present study also suggests that the accumulation of p21(WAF1) transcripts by PMA occurs mainly at post-transcriptional level.
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PMID:p21WAF1 expression by an activator of protein kinase C is regulated mainly at the post-transcriptional level in cells lacking p53: important role of RNA stabilization. 989 8

The xeroderma pigmentosum (XP) variant (XPV) is a form of XP that has normal excision repair but shows defective DNA replication after UV irradiation. In developing various transformed fibroblast cell lines from these patients, we have found that there are significant phenotypic changes in transformed cells that seem to correlate with inactivation of p53. After transformation with SV40, XPV cell lines are only slightly UV sensitive, like their primary counterparts, but their sensitization with caffeine and the induction of sister chromatid exchanges (SCEs) by UV irradiation are greatly enhanced. After transformation by HPV16 E7, which targets the retinoblastoma cell cycle regulatory gene, there is no change in the UV sensitivity of XPV cells; but, when transformed by HPV16 E6 or E6 and E7 combined, there is a large increase in UV sensitivity and in the induction of SCEs. These changes are not associated with any detectable changes in the reactivation of an externally irradiated luciferase expression vector, the excision of cyclobutane pyrimidine dimers from bulk DNA, or unscheduled DNA synthesis and, therefore, do not involve excision repair. We suggest that if SCEs represent homologous recombination between sister chromatids, then in the absence of p53 function, the DNA chain arrest typical of UV-damaged XPV cells initiates strand exchange during recovery. In untransformed cells with normal p53, the preferred mode of recovery would then be replication bypass. The symptoms of elevated solar carcinogenesis in XPV patients may, therefore, be associated with increased genomic instability in cells of the skin in which p53 is inactivated by UV-induced mutations.
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PMID:Increased ultraviolet sensitivity and chromosomal instability related to P53 function in the xeroderma pigmentosum variant. 1007 Sep 69

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