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)

Unknown mechanisms govern degradation of the p19Arf tumor suppressor, an activator of p53 and inhibitor of ribosomal RNA processing. Kinetic metabolic labeling of cells with [3H]-leucine indicated that p19Arf is a relatively stable protein (half-life approximately 6 h) whose degradation depends upon the ubiquitin-proteasome pathway. Although p19Arf binds to the Mdm2 E3 ubiquitin protein ligase to activate p53, neither of these molecules regulates p19Arf turnover. In contrast, the nucleolar protein nucleophosmin/B23, which binds to p19Arf with high stoichiometry, retards its turnover, and Arf mutants that do not efficiently associate with nucleophosmin/B23 are unstable and functionally impaired. Mouse p19Arf, although highly basic (22% arginine content), contains only a single lysine residue absent from human p14ARF, and substitution of arginine for lysine in mouse p19Arf had no effect on its rate of degradation. Mouse p19Arf (either wild-type or lacking lysine) and human p14ARF undergo N-terminal polyubiquitination, a process that has not as yet been documented in naturally occurring lysine-less proteins. Re-engineering of the p19Arf N terminus to provide consensus sequences for N-acetylation limited Arf ubiquitination and decelerated its turnover.
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PMID:N-terminal polyubiquitination and degradation of the Arf tumor suppressor. 1528 58

The importance of coordinating cell growth with proliferation has been recognized for a long time. The molecular basis of this relationship, however, is poorly understood. Here we show that the ribosomal protein L23 interacts with HDM2. The interaction involves the central acidic domain of HDM2 and an N-terminal domain of L23. L23 and L11, another HDM2-interacting ribosomal protein, can simultaneously yet distinctly interact with HDM2 together to form a ternary complex. We show that, when overexpressed, L23 inhibits HDM2-induced p53 polyubiquitination and degradation and causes a p53-dependent cell cycle arrest. On the other hand, knocking down L23 causes nucleolar stress and triggers translocation of B23 from the nucleolus to the nucleoplasm, leading to stabilization and activation of p53. Our data suggest that cells may maintain a steady-state level of L23 during normal growth; alternating the levels of L23 in response to changing growth conditions could impinge on the HDM2-p53 pathway by interrupting the integrity of the nucleolus.
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PMID:Inhibition of HDM2 and activation of p53 by ribosomal protein L23. 1531 74

The ARF tumor suppressor is widely regarded as an upstream activator of p53-dependent growth arrest and apoptosis. However, recent findings indicate that ARF can also regulate the cell cycle in the absence of p53. In search of p53-independent ARF targets, we isolated nucleophosmin (NPM/B23), a protein we show is required for proliferation, as a novel ARF binding protein. In response to hyperproliferative signals, ARF is upregulated, resulting in the nucleolar retention of NPM and concomitant cell cycle arrest. The Mdm2 oncogene outcompetes NPM/B23 for ARF binding, and introduction of Mdm2 reverses ARF's p53-independent properties: in vitro, NPM is released from ARF-containing protein complexes, and in vivo S phase progression ensues. ARF induction by oncogenes or replicative senescence does not alter NPM/B23 protein levels but rather prevents its nucleocytoplasmic shuttling without inhibiting rRNA processing. By actively sequestering NPM in the nucleolus, ARF utilizes an additional mechanism of tumor suppression, one that is readily antagonized by Mdm2.
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PMID:ARF impedes NPM/B23 shuttling in an Mdm2-sensitive tumor suppressor pathway. 1548 2

Protein B23/nucleophosmin is a multifunctional protein that plays roles in ribosome biogenesis, control of centrosome duplication, and regulation of p53 expression. A yeast two-hybrid screen was performed in a search for interaction partners of B23. The complementary DNA for a highly acidic protein, nucleoplasmin 3 (NPM3), was found in multiple positive clones. Protein NPM3 and its interaction with B23 were further characterized. Endogenous B23 was able to be co-immunoprecipitated with NPM3, and this complex was resistant to ribonuclease treatment and high concentrations of salt. The N-terminal 35-90 amino acids of B23 were found to be required for their interaction. Separate co-immunoprecipitation studies of B23 and NPM3 suggested the existence of two different complexes, one containing B23 and 28 S ribosomal RNA (rRNA) and another composed of B23, NPM3, and other proteins, but no RNA. NPM3 was localized in the nucleolus, and its nucleolar localization depended on active rRNA transcription. In the cells overexpressing NPM3, there were decreased rates of pre-rRNA synthesis and processing. Overexpression of a mutant of NPM3 that did not interact with B23 did not alter pre-rRNA synthesis and processing, suggesting that the interaction of NPM3 with B23 plays a role in the ribosome biogenesis.
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PMID:Protein NPM3 interacts with the multifunctional nucleolar protein B23/nucleophosmin and inhibits ribosome biogenesis. 1559 47

The mouse p19(Arf) protein has both p53-dependent and p53-independent tumor-suppressive activities. Arf triggers sumoylation of many cellular proteins, including Mdm2 and nucleophosmin (NPM/B23), with which p19(Arf) physically interacts in vivo, and this occurs equally well in cells expressing or lacking functional p53. In an Arf-null NIH 3T3 cell derivative (MT-Arf cells) engineered to reexpress an Arf transgene driven by a zinc-inducible metallothionein promoter, sumoylation of endogenous Mdm2 and NPM proteins was initiated as p19(Arf) was induced and was observed before p53-dependent cell cycle arrest. Predominately nucleoplasmic molecules visualized by immunofluorescence with antibodies to small ubiquitin-like modifier (SUMO) 1 localized to nucleoli as p19(Arf) accumulated there. Two Arf mutants, one of which binds to Mdm2 and NPM but is excluded from nucleoli and the other of which enters nucleoli but is handicapped in binding to Mdm2 and NPM, were defective in inducing sumoylation of these two target proteins and did not localize bulk sumoylated molecules to nucleoli. The CELO adenovirus protein, Gam1, which inhibits the SUMO activating enzyme (E1) and leads to down-regulation of the SUMO conjugating enzyme (E2/Ubc9), had no overt effect on the ability of p19(Arf) to activate p53 or the p53-responsive genes encoding Mdm2 and p21(Cip1), despite the fact that Arf-induced sumoylation of Mdm2 was blocked. Reduction of Ubc9 levels with short hairpin RNAs rendered similar results. We suggest that Arf's p53-independent effects on gene expression and tumor suppression might depend on Arf-induced sumoylation.
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PMID:Sumoylation induced by the Arf tumor suppressor: a p53-independent function. 1589 63

The Rev peptide that binds to nucleophosmin/B23 with the highest affinity exhibited the greatest cytotoxicity on Ras-3T3 cells and inhibited tumor growth most effectively in nude mice. The efficiency of colony formation in soft agar of Ras-3T3 cells was significantly inhibited by treatment with Rev peptide. In addition, Rev peptide could potentiate the doxorubicin-induced decrease of cellular viability in U1 bladder cancer cells and inhibition of tumor growth in nude mice. Treatment of Rev peptide increased protein expression and transcriptional activity of p53 and inhibited the nucleophosmin/B23-mediated PCNA promoter activation. Peptides having high affinity of binding to molecular targets such as nucleophosmin/B23 represent a potentially useful approach to anti-cancer biotherapeutics.
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PMID:Nucleophosmin/B23-binding peptide inhibits tumor growth and up-regulates transcriptional activity of p53. 1595 Jan 82

Nucleophosmin (NPM or B23) plays key roles in ribosome biogenesis, centrosome duplication, and maintenance of genomic integrity. Mutations affecting the carboxylterminal domain of NPM occur in a significant percentage of adult patients with acute myeloid leukemia (AML), and these alterations create an additional nuclear export signal that relocalizes much of the protein from its normal nucleolar stores to the cytoplasm. When induced by oncogenic stress, the Arf tumor suppressor protein accumulates within the nucleolus, where it is physically associated with, and stabilized by, NPM. Ectopic overexpression of an NPM cytoplasmic mutant (NPMc) relocalized p19Arf and the endogenous NPM protein to the cytoplasm. NPMc-dependent export of p19Arf from the nucleus inhibited its functional interaction with the p53 negative regulator, Mdm2, and blunted Arf-induced activation of the p53 transcriptional program. Cytoplasmic NPM relocalization also attenuated Arf-induced sumoylation of Mdm2 and NPM and prevented wild type NPM from inhibiting p19Arf protein turnover. However, despite the ability of NPMc to interfere with these p53-dependent and independent activities of Arf, NPMc exhibited anti-proliferative activity in Arf-null NIH-3T3 cells. Overexpression of wild type NPM, but not NPMc, overcame premature senescence of Atm-null cells, a phenotype that can be rescued by inactivation of Arf or p53. Therefore, perturbation of Arf function appears to be insufficient to explain the oncogenic effects of the NPMc mutation. We favor the idea that NPMc also contributes to AML by dominantly perturbing other functions of the wild type NPM protein.
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PMID:Myeloid leukemia-associated nucleophosmin mutants perturb p53-dependent and independent activities of the Arf tumor suppressor protein. 1620 18

The ARF tumour suppressor is a product of the INK4a/ARF locus; a sequence that is frequently altered in human cancer. ARF is upregulated by oncogenic stimuli and is a critical regulator of p53 stability through interactions with the mdm2 and ARF-BP1/Mule ubiquitin ligases. Cellular stress signals liberate ARF from the nucleolus where it is bound to B23/nucleophosmin. This nucleolar location of ARF may serve as a reservoir for the rapid induction of p53, but may also serve to co-ordinate effects on cell cycle, survival and growth. The biological functions of ARF interactions with other binding partners remain uncertain, but ARF-mediated sumoylation may represent a unifying effector pathway.
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PMID:The ARF tumour suppressor. 1660 Jun 63

The p53-mediated pathway cell cycle arrest and apoptosis is central to cancer and an important point of focus for therapeutics development. The p14ARF ("ARF") tumor suppressor induces the p53 pathway in response to oncogene activation or DNA damage. However, ARF is predominantly nucleolar in localization and engages in several interactions with nucleolar proteins, whereas p53 is nucleoplasmic. This raises the question as to how ARF initiates its involvement in the p53 pathway. We have found that UV irradiation of cells disrupts the interaction of ARF with two of its nucleolar binding partners, B23 (NPM, nucleophosmin, NO38, numatrin) and topoisomerase I, and promotes an immediate and transient subnuclear redistribution of ARF to the nucleoplasm, where it can engage the p53 pathway (Lee et al, Cancer Res 65:9834-42; 2005). The results support a model in which the nucleolus serves as a p53 upstream sensor of cellular stress, and add to a growing body of evidence that nucleolar sequestration of ARF prevents activation of p53. The results also have therapeutic implications for therapies based on exploiting p53 and other cellular stress response pathways to suppress cancer.
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PMID:Regulation of p14ARF through subnuclear compartmentalization. 1662 91

The Ink4a-Arf locus, which encodes two distinct tumor suppressor proteins, is inactivated in many cancers. Whereas p16Ink4a is an inhibitor of cyclin D-dependent kinases, p19Arf (p14ARF in humans) antagonizes the E3 ubiquitin protein ligase activity of Mdm2 to activate p53. We now recognize that Arf functions in both p53-dependent and -independent modes to counteract hyper-proliferative signals originating from proto-oncogene activation, but its p53-independent activities remain poorly understood. Arf proteins are highly basic (> 20% arginine content, pl > 12) and predominantly localize within nucleoli in physical association with an abundant acidic protein, nucleophosmin (NPM/B23). When bound to NPM, Arf proteins are relatively stable with half-lives of 6-8 hours. Although mouse p19Arf contains only a single lysine residue and human p14ARF has none, both proteins are N-terminally ubiquitinated and degraded in proteasomes. Through as yet uncharacterized mechanisms, p19Arf induces p53-independent sumoylation of a variety of cellular target proteins with which it interacts, including both Mdm2 and NPM. A naturally occurring NPM mutant (NPMc) expressed in myeloid leukemia cells redirects both wild-type NPM and p19Arf to the cytoplasm, inhibits Arf-induced sumoylation, and attenuates p53 activity. Thus, ubiquitination and sumoylation can each influence Arf tumor suppressor activity.
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PMID:Ubiquitination of, and sumoylation by, the Arf tumor suppressor. 1667 60

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