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)

Wild type p53 accumulates in the cytoplasm in a subset of tumors such as neuroblastomas and breast carcinomas through an unknown mechanism. Exclusion of p53 from the nucleus may lead to inactivation of p53 during tumor development. We present evidence that MDM2 plays a significant role in promoting the degradation of nuclear p53 in tumor cells with a cytoplasmic p53 phenotype. Inhibition of MDM2 expression using antisense oligonucleotide, inhibition of MDM2 function by the tumor suppressor ARF or a MDM2 deletion mutant result in the accumulation of nuclear p53. p53 point mutants deficient in MDM2 binding have increased nuclear localization. Inhibition of nuclear export by leptomycin B also results in retention of nascent p53 in the nucleus, suggesting that cytoplasmic distribution of p53 results from efficient export of nuclear p53 in combination with MDM2-mediated degradation. These results suggest that MDM2 is an important determinant of p53 subcellular distribution and may contribute to p53 inactivation without overexpression.
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PMID:Nuclear exclusion of p53 in a subset of tumors requires MDM2 function. 1064 1

The INK4a/ARF locus encodes two cell cycle-regulatory proteins, p16INK4a andp14ARF, which share an exon using different reading frames. p14ARF antagonizes MDM2-dependent p53 degradation. However, no point mutations in p14ARF not altering p16INK4a have been described in primary tumors. We report that p14ARF is epigenetically inactivated in several colorectal cell lines, and its expression is restored by treatment with demethylating agents. In primary colorectal carcinomas, p14ARF promoter hypermethylation was found in 31 of 110 (28%) of the tumors and observed in 13 of 41 (32%) colorectal adenomas but was not present in any normal tissues. p14ARF methylation appears in the context of an adjacent unmethylated p16INK4a promoter in 16 of 31 (52%) of the carcinomas methylated at p14ARF. Although p14ARF hypermethylation was slightly overrepresented in tumors with wild-type p53 compared to tumors harboring p53 mutations [19 of 55 (34%) versus 12 of 55 (22%)], this difference did not reach statistical significance. p14ARF aberrant methylation was not related to the presence of K-ras mutations. Our results demonstrate that p14ARF promoter hypermethylation is frequent in colorectal cancer and occurs independently of the p16INK4a methylation status and only marginally in relation to the p53 mutational status.
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PMID:Hypermethylation-associated inactivation of p14(ARF) is independent of p16(INK4a) methylation and p53 mutational status. 1064 64

The ARF protein encoded by the alternative transcript of the INK4a gene inhibits cell growth by stabilization of p53. ARF is induced by activated oncogenes sucll as c-myc, E1A and E2F-1. We show here that ARF protein expression is also induced by serum deprivation in the human tumor cell line MDA-MB-157 and in the SV40 large T-immortalized keratinocyte line Rhek. This increase of expression was reversed by the addition of serum. ARF mRNA levels also increased after serum starvation, suggesting that ARF upregulation is mediated, at least in part, by increased transcription and/or mRNA stability. These results indicate that ARF responds not only to oncogenic hyper-proliferative signals but also to suboptimal growth conditions.
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PMID:Induction of the human ARF protein by serum starvation. 1065 76

Identification of Mdm2 and JNK as proteins that target degradation of wt p53 prompted us to examine their effect on mutant p53, which exhibits a prolonged half-life. Of five mutant p53 forms studied for association with the targeting molecules, two no longer bound to Mdm2 and JNK. Three mutant forms, which exhibit high expression levels, showed lower affinity for association with Mdm2 and JNK in concordance with greater affinity to p14(ARF), which is among the stabilizing p53 molecules. Monitoring mutant p53 stability in vitro confirmed that, while certain forms of mutant p53 are no longer affected by either JNK or Mdm2, others are targeted for degradation by JNK/Mdm2, albeit at lower efficiency when compared with wt p53. Expression of wt p53 in tumor cells revealed a short half-life, suggesting that the targeting molecules are functional. Forced expression of mutant p53 in p53 null cells confirmed pattern of association with JNK/Mdm2 and prolonged half-life, as found in the tumor cells. Over-expression of Mdm2 in either tumor (which do express endogenous functional Mdm2) or in p53 null cells decreased the stability of mutant p53 suggesting that, despite its expression, Mdm2/JNK are insufficient (amount/affinity) for targeting mutant p53 degradation. Based on both in vitro and in vivo analyses, we conclude that the prolonged half-life of mutant p53 depends on the nature of the mutation, which either alters association with targeting molecules, ratio between p53 and targeting/stabilizing molecules or targeting efficiency.
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PMID:Analysis of JNK, Mdm2 and p14(ARF) contribution to the regulation of mutant p53 stability. 1065 7

The INK4a-ARF locus encodes 2 separate proteins through differential splicing of alternative first exons to produce p16INK4a (exon 1alpha) and p14ARF (exon 1beta) products in human cells. The p16INK4a protein inhibits the cyclin D-dependent kinases (CDK) that control the phosphorylation of the Rb protein and cell proliferation. The p14ARF gene product can complex with and sequester the MDM2 protein within the nucleus, thus modulating the activity of the p53 protein. Loss of p16INK4a expression would disrupt the retinoblastoma (Rb)/p16INK4a/cyclin D-dependent kinase (CDK4) pathway, whereas loss of p14ARF expression would inactivate both the Rb and p53/ MDM2/p14ARF pathways through MDM2, which can complex with either Rb or p53. Loss of the p16INK4a gene on 9p21 has been documented in a wide range of human tumors, including one third of glioblastomas. However, in tumors showing homozygous loss of exon 2 of the p16INK4a gene, loss of exon 1beta of the p14ARF gene has not been established. In this study, we have assessed deletion of the p14ARF gene in 29 pediatric and 107 adult high-grade astrocytomas and 9 glioma cell lines, using multiplex PCR analysis for exon 1beta. We found homozygous deletions for exon 1alpha and exon 1beta in 3 of 29 (10%) of the pediatric cases (2 grade III, 1 grade IV), 25 of 107 (23%) of the adult cases (6 grade III and 19 grade IV), and 8 of 9 (89%) of the glioma cell lines. Therefore, loss of the INK4a-ARF locus in high-grade astrocytomas may contribute to the highly malignant behavior and treatment resistance of these tumors through elimination of multiple checkpoint cell cycle control proteins.
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PMID:Incidence of p14ARF gene deletion in high-grade adult and pediatric astrocytomas. 1066 22

The ARF tumor suppressor connects pathways regulated by the retinoblastoma protein and p53. ARF inactivation reduces p53-dependent apoptosis induced by oncogenic signals. Nucleolar relocalization of Mdm2 by ARF connotes a novel mechanism for preventing p53 turnover and provides a framework for understanding how stress signals cooperate to regulate p53 function.
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PMID:The ARF/p53 pathway. 1067 83

The INK4A locus encodes two independent but overlapping genes, p16INK4A and p19ARF, and is frequently inactivated in human cancers. The unusual structure of this locus has lead to ambiguity regarding the biological role of each gene. Here we express, in primary mouse embryonic fibroblasts (MEFs), antisense RNA constructs directed specifically towards either p16INK4A or p19 ARF. Such constructs induce extended lifespan in primary MEFs; this lifespan extension is reversed upon subsequent elimination of the p16INK4A or p19ARF antisense constructs. In immortal derivatives of cell lines expressing antisense p16INK4A or p19ARF RNA, growth arrest induced by recovery of p16INK4A expression is bypassed by compromising the function of the retinoblastoma protein (Rb), whereas growth arrest induced by re-expression of p19ARF is overcome only by simultaneous inactivation of both the Rb and the p53 pathways. Thus, the physically overlapping p16INK4A and p19ARF genes act in partly overlapping pathways.
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PMID:p16INK4A and p19ARF act in overlapping pathways in cellular immortalization. 1070 99

The ARF tumor suppressor protein stabilizes p53 by antagonizing its negative regulator, Mdm2 (Hdm2 in humans). Both mouse p19(ARF) and human p14(ARF) bind to the central region of Mdm2 (residues 210 to 304), a segment that does not overlap with its N-terminal p53-binding domain, nuclear import or export signals, or C-terminal RING domain required for Mdm2 E3 ubiquitin ligase activity. The N-terminal 37 amino acids of mouse p19(ARF) are necessary and sufficient for binding to Mdm2, localization of Mdm2 to nucleoli, and p53-dependent cell cycle arrest. Although a nucleolar localization signal (NrLS) maps within a different segment (residues 82 to 101) of the human p14(ARF) protein, binding to Mdm2 and nucleolar import of ARF-Mdm2 complexes are both required for cell cycle arrest induced by either the mouse or human ARF proteins. Because many codons of mouse ARF mRNA are not recognized by the most abundant bacterial tRNAs, we synthesized ARF minigenes containing preferred bacterial codons. Using bacterially produced ARF polypeptides and chemically synthesized peptides conjugated to Sepharose, residues 1 to 14 and 26 to 37 of mouse p19(ARF) were found to interact independently and cooperatively with Mdm2, while residues 15 to 25 were dispensable for binding. Paradoxically, residues 26 to 37 of mouse p19(ARF) are also essential for ARF nucleolar localization in the absence of Mdm2. However, the mobilization of the p19(ARF)-Mdm2 complex into nucleoli also requires a cryptic NrLS within the Mdm2 C-terminal RING domain. The Mdm2 NrLS is unmasked upon ARF binding, and its deletion prevents import of the ARF-Mdm2 complex into nucleoli. Collectively, the results suggest that ARF binding to Mdm2 induces a conformational change that facilitates nucleolar import of the ARF-Mdm2 complex and p53-dependent cell cycle arrest. Hence, the ARF-Mdm2 interaction can be viewed as bidirectional, with each protein being capable of regulating the subnuclear localization of the other.
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PMID:Cooperative signals governing ARF-mdm2 interaction and nucleolar localization of the complex. 1071 75

p53 is activated by a variety of cellular stresses, including DNA damage, hypoxia, and mitogenic oncogenes, but the extent to which each signal engages p53 as a tumour suppressor remains unknown. In non-immortal cells, the adenovirus E1A oncogene activates p53 to promote apoptosis, whereas oncogenic ras activates p53 to promote cellular senescence. Inactivation of p53 prevents E1A-induced apoptosis or Ras-induced senescence, allowing proliferation to continue unabated. In each instance, the ability of the oncogene to activate p53 involves the same functions as are required for their transforming potential, implying that p53 activation acts as a fail-safe mechanism to counter hyperproliferative signals. Furthermore, p19(ARF) is strictly required for oncogene signalling to p53. The fact that ARF--itself a tumour suppressor--acts as an intermediary in this response argues that the tumour suppressor activity of p53 can arise from its ability to eliminate oncogene-expressing cells.
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PMID:Activation of p53 by oncogenes. 1073 86

Two distinct products are specified by the CDKN2A locus, the p16INK4a cyclin dependent kinase inhibitor and a protein termed ARF. ARF has been shown to bind to the Mdm2-p53 complex, resulting in stabilisation of both proteins, and a feedback loop exists through which ARF levels are negatively regulated by p53. Significantly, ARF expression is positively regulated by members of the E2F family of transcription factors. This provides a link between the Rb and p53 pathways and a mechanism whereby inactivation of Rb and release of E2F will lead to the stabilisation and functional activation of p53. The alternative exon encoding the functional amino terminal portion of ARF presumably represents an independent gene that has become co-localized with p16INK4a in order to exploit a common regulatory mechanism or purpose.
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PMID:Alternative product of the p16/CKDN2A locus connects the Rb and p53 tumor suppressors. 1074 Aug 16

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