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)

Several clinical and histopathologic features of 65 CD30+ cutaneous lymphoproliferations were evaluated for their diagnostic value between CD30+ primary versus secondary cutaneous lymphomas and for their prognostic significance. Primary cutaneous disease, spontaneous regression, and absence of extracutaneous spreading (but not age < or =60 years) were associated with a better prognosis. Epithelial membrane antigen, BNH9, CD15 or CBF.78 antigen were expressed in all types of cutaneous lymphoproliferations. However, epithelial membrane antigen immunoreactivity was more frequently expressed in CD30+ secondary cutaneous large-cell lymphoma. Among CD30+ primary cutaneous large-cell lymphoma, CD15 expression was only seen in localized skin lesions. P53 expression was not associated with spontaneous regression, extracutaneous spreading, or survival. Nested reverse transcriptase-polymerase chain reaction allowed the detection of NPM-ALK transcripts in 10 of 26 CD30+ primary and in 3 of 11 secondary cutaneous large-cell lymphomas. The ALK protein was detected in only 1 of 50 primary and in 4 of 15 secondary cutaneous CD30+ lymphoproliferations. In CD30+ primary cutaneous lymphoproliferation, NPM-ALK transcripts might be expressed by very rare normal or tumoral cells that are undetectable by immunohistochemistry. However, the expression of either NPM-ALK transcripts or ALK-protein was not correlated with prognosis or age in CD30+ cutaneous lymphoproliferations.
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PMID:Statistical evaluation of diagnostic and prognostic features of CD30+ cutaneous lymphoproliferative disorders: a clinicopathologic study of 65 cases. 977 81

The human p14(ARF) protein is encoded by an alternative transcript from the INK4a/ARF locus on chromosome 9p21, a locus frequently afflicted in human tumors. By use of two novel specific antisera against p14(ARF) we show that the protein is localized mainly in nucleoli but also in the nucleoplasm. Transfection of full-length and deletion mutant GFP-p14(ARF) fusion proteins confirmed this subcellular localization and assigned the nucleolar localization signal to the exon 2-encoded C-terminal region. In order to determine p14(ARF) expression in human tumor cells, we examined p14(ARF) in 32 tumor cell lines by immunofluorescence staining. Nucleolar p14(ARF) was detected in 10 lines, all of which lacked functional p53. Double immunostaining with p14(ARF) and B23/nucleophosmin or fibrillarin antibodies using 3D microscopy revealed that p14(ARF) is located mainly in the granular component of the nucleolus. p14(ARF) was also found in distinct granular aggregates scattered throughout the nucleoplasm. RNase digestion or selective inhibition of rRNA transcription by low doses of actinomycin D caused nucleoplasmic translocation of p14(ARF). This indicates that the nucleolar localization of p14(ARF) is dependent on ongoing transcriptional activity in intact functional nucleoli.
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PMID:Immunolocalization of human p14(ARF) to the granular component of the interphase nucleolus. 1077 13

Nucleophosmin/B23 was rapidly up-regulated after UV irradiation as p53, PCNA and c-Jun. UV induction of nucleophosmin/B23 was evidently increased at 3 h post-irradiation, and reached a maximum at 12 h, and remained high for at least 24 h. Over-expression of nucleophosmin/B23 made cells more resistant to UV-induced cell growth inhibition and death as compared with control vector-transfected cells through three main observations: cell growth/death percentage determination; clonogenic survival assay; and flow cytometric analysis. Moreover, nucleophosmin/B23 over-expressed cells had a greater capacity to repair UV-damaged reporter plasmid, indicating a higher nucleotide excision repair (NER) activity. Furthermore, PCNA, an essential component for DNA repair machinery, was correlated with nucleophosmin/B23 expression. Both protein level and promoter activity of PCNA were higher in nucleophosmin/B23 over-expressed cells than in control vector-transfected cells. On the other hand, treatment of cells with nucleophosmin/B23 antisense oligonucleotides decreased nucleophosmin/B23 and PCNA proteins, and potentiated the UV-induced cell killing. The effect of PCNA up-regulation may be one of the reasons that nucleophosmin/B23 over-expression made cells resistant to UV-induced growth inhibition and cell-killing.
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PMID:Resistance to UV-induced cell-killing in nucleophosmin/B23 over-expressed NIH 3T3 fibroblasts: enhancement of DNA repair and up-regulation of PCNA in association with nucleophosmin/B23 over-expression. 1175 29

P2P-R is a nuclear protein that can bind both p53 and Rb1. Its functions include roles in the control of RNA metabolism, apoptosis, and p53-dependent transcription. The expression of P2P-R also is repressed in G1 arrested terminally differentiated cells. The current studies therefore evaluated if P2P-R undergoes cell cycle-associated changes in its abundance and/or localization. Western blots show that relative to G0 quiescent cells, P2P-R protein levels are higher in populations of G2/M cells prepared by the physiological parasynchronization technique of serum deprivation followed by serum stimulation. More striking is the > 10-fold enrichment of P2P-R protein in specimens of highly purified mitotic cells prepared by the mitotic shake-select technique, or by synchrony with the mitotic spindle disruption agents nocodazole or vinblastine. These changes in P2P-R protein occur without a concomitant change in P2P-R mRNA expression suggesting that P2P-R immunoreactivity increases during mitosis. Confocal microscopy next established the localization of P2P-R to nucleoli in interphase cells and at the periphery of chromosomes in mitotic cells that lack nucleoli. The high levels of P2P-R localized to the periphery of chromosomes in mitotic cells suggest that P2P-R shares characteristics with other nucleolar proteins that associate with the periphery of chromosomes during mitosis. These include: nucleolin, B23, Ki67, and fibrillarin.
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PMID:P2P-R protein localizes to the nucleolus of interphase cells and the periphery of chromosomes in mitotic cells which show maximum P2P-R immunoreactivity. 1206 57

Centrosome hyperamplification occurs frequently in human cancers, and is the major contributing factor for chromosomal instability and aneuploidy. We examined centrosome hyperamplification in bladder cancer cell lines. Samples were incubated with antibodies to the centrosome protein gamma-tubulin. The cell line (RT-4), which has a wild-type p53 status, showed a well-regulated centrosome replication cycle. On the other hand, centrosome hyperamplification was observed in HT-1197 and HT-13r cancer cells by discontinuous sucrose gradient fractionation. We used sucrose gradient fractions enriched for centrosomes by the immunoblot analysis for the presence of gamma-tubulin, a major component of centrosomes. The fractions were then immunoblotted with anti-nucleophosmin/B23 (NPM) antibody. NPM is a primary target of CDK2-cyclin E in the initiation of centrosome duplication. The profile of NPM closely paralleled that of gamma-tubulin, suggesting the association of NPM with the centrosome. Identification of the mechanism underlying the replication of the centrosome should lead to the understanding of the mechanism of chromosomal instability in bladder cancer, and enable us to develop cancer therapeutics targeted to centrosome replication.
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PMID:[Centrosome isolation from cultured bladder cancer cells--p53 mutation and centrosome hyperamplification]. 1269 85

The tumor suppressor ARF induces a p53-dependent and -independent cell cycle arrest. Unlike the nucleoplasmic MDM2 and p53, ARF localizes in the nucleolus. The role of ARF in the nucleolus, the molecular target, and the mechanism of its p53-independent function remains unclear. Here we show that ARF interacts with B23, a multifunctional nucleolar protein involved in ribosome biogenesis, and promotes its polyubiquitination and degradation. Overexpression of B23 induces a cell cycle arrest in normal fibroblasts, whereas in cells lacking p53 it promotes S phase entry. Conversely, knocking down B23 inhibits the processing of preribosomal RNA and induces cell death. Further, oncogenic Ras induces B23 only in ARF null cells, but not in cells that retain wild-type ARF. Together, our results reveal a molecular mechanism of ARF in regulating ribosome biogenesis and cell proliferation via inhibiting B23, and suggest a nucleolar role of ARF in surveillance of oncogenic insults.
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PMID:Tumor suppressor ARF degrades B23, a nucleolar protein involved in ribosome biogenesis and cell proliferation. 1463 74

The tumor suppressor ARF induces a p53-dependent and -independent cell cycle arrest. Unlike nucleoplasmic localized MDM2 and p53, ARF localizes in the nucleolus. The role of ARF in the nucleolus and the molecular target and mechanism of ARF's p53-independent function remain both controversial and a fertile field of research. Recent study has identified the nucleolar protein B23 as a target of ARF for implementing its growth inhibitory function. The ability of ARF to block cell cycle progression through the MDM2-p53 pathway and to suppress ribosomal biogenesis through B23 suggest a role for ARF in coordinating inhibitions of growth and proliferation.
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PMID:The ARF-B23 connection: implications for growth control and cancer treatment. 1472 81

The Arf tumor suppressor inhibits cell cycle progression through both p53-dependent and p53-independent mechanisms, including interference with rRNA processing. Using tandem-affinity-tagged p19(Arf), we purified Arf-associated proteins from mouse NIH 3T3 fibroblasts undergoing cell cycle arrest. Tagged p19(Arf) associated with nucleolar and ribosomal proteins, including nucleophosmin/B23 (NPM), a protein thought to foster the maturation of preribosomal particles. NPM is an abundant protein, only a minor fraction of which binds to p19(Arf); however, a significant proportion of p19(Arf) associates with NPM. The interaction between p19(Arf) and NPM requires amino acid sequences at the Arf amino terminus, which are also required for Mdm2 binding, as well as the central acidic domain of NPM and an adjacent segment that regulates NPM oligomerization. The interaction between p19(Arf) and NPM occurs in primary mouse embryonic fibroblasts, including those lacking both Mdm2 and p53. In an NIH 3T3 derivative cell line (MT-Arf) engineered to conditionally express an Arf transgene, induced p19(Arf) associates with NPM and colocalizes with it in high-molecular-weight complexes (2 to 5 MDa). An NPM mutant lacking its carboxyl-terminal nucleic acid-binding domain oligomerizes with endogenous NPM, inhibits p19(Arf) from entering into 2- to 5-MDa particles, and overrides the ability of p19(Arf) to retard rRNA processing.
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PMID:Physical and functional interactions of the Arf tumor suppressor protein with nucleophosmin/B23. 1472 47

Nucleophosmin (NPM, B23) is an abundant nucleolar phosphoprotein involved in ribosome biogenesis, and interacts with tumor suppressor proteins p53 and Rb. Here we show that NPM is a UV damage response protein that undergoes nucleoplasmic redistribution and regulates p53 and HDM2 levels and their interaction. By utilizing RNAi approaches and analyses of endogenous and ectopically expressed proteins, we demonstrate that NPM binds HDM2 and acts as a negative regulator of p53-HDM2 interaction. Viral stress, enforced by expression of Kaposi's sarcoma virus K cyclin, causes NPM redistribution, K cyclin-NPM association, and p53 stabilization by dissociation of HDM2-p53 complexes. The results demonstrate novel associations of HDM2 and K cyclin with NPM and implicate NPM as a crucial controller of p53 through inhibition of HDM2.
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PMID:Nucleolar protein NPM interacts with HDM2 and protects tumor suppressor protein p53 from HDM2-mediated degradation. 1514 54

p53 tumor suppressor protein acts as a critical monitor preventing survival of cells with irreparable genetic damage. Its levels are tightly controlled by its negative regulator HDM2, and are allowed to rise only during cellular stress. In our recent paper (Kurki, et al. Cancer Cell 2004; 5:465-75) we identify a novel mechanism leading to p53 stabilization following UV damage of the cells. This involves UV damage provoked nucleoplasmic relocalization of a nucleolar protein, nucleophosmin (NPM, B23) and its rapid and transient interactions with both p53 and HDM2. We discuss here implications of recent findings that several p53 pathway proteins interact with NPM and find that its participation in cellular damage responses is limited to transcriptional stress but absent in direct ds DNA breaks. These findings suggest divergence in the routes provoking p53 stability and implicate the nucleolus as a central site participating in transcriptional stress responses.
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PMID:Nucleophosmin, HDM2 and p53: players in UV damage incited nucleolar stress response. 1525 98

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