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)

Peroxisome proliferator-activated receptor alpha (PPARalpha) is a member of the nuclear receptor superfamily whose ligands, the peroxisome proliferators (PPs), are liver tumor promoters in rodents. Interaction cloning was performed using bacterially expressed PPARalpha to identify proteins involved in PP signaling. The ribosomal protein L11 (rpL11), a component of the large 60S subunit, was identified as a PPARalpha-associated protein. Since rpL11 is a regulator of p53 and the cell cycle, the association between this protein and PPARalpha was examined in detail. PPARalpha-rpL11 interaction was confirmed using yeast and mammalian two-hybrid systems as well as in vitro pull-down assays. The association with rpL11 occurs within the D-domain (hinge-region) of PPARalpha. Unlike PPARalpha, the two closely related isoforms PPARbeta and gamma do not interact with rpL11. Cotransfection of mammalian cells with rpL11 resulted in ligand-dependent inhibition of transcriptional activity of PPARalpha. Ribosomal protein L11-mediated inhibition of gene expression is associated with decreased binding to the PPAR-response element (PPRE) DNA sequence. Release of rpL11 from the ribosome by serum deprivation or low-dose actinomycin D did not dramatically affect PPRE-driven luciferase activity when PPARalpha was overexpressed by cotransfection. However, when endogenous levels of PPARalpha are examined and rpL11 concentration is manipulated by expression by small interference RNA, the ability of peroxisome proliferator to induce PPRE-driven reporter activity and target gene mRNA is affected. These studies show that rpL11 inhibits PPARalpha activity and adds further evidence that ribosomal proteins play roles in the control of transcriptional regulation.
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PMID:The ribosomal protein rpL11 associates with and inhibits the transcriptional activity of peroxisome proliferator-activated receptor-alpha. 1628 Mar 83

The main regulator of the human tumor suppresser gene p21(waf1/cip1) is the transcription factor p53, but more recently it has been suggested to be a primary anti-proliferative target for the nuclear receptor VDR in the presence of its ligand 1alpha,25-dihydroxyvitamin D3 (1alpha,25(OH)2D3). To identify VDR responding regions, we analyzed 20 overlapping regions covering the first 7.1 kb of the p21(waf1/cip1) promoter in MCF-7 human breast cancer cells using chromatin immuno-precipitation assays (ChIP) with antibodies against p53 and VDR. We confirmed two known p53 binding regions at approximate positions -1400 and -2300 and identified a novel site at position -4500. In addition, we found three VDR-associated promoter regions at positions -2300, -4500 and -6900, i.e. two regions showed binding for both p53 and VDR. In silico screening and in vitro binding assays using recombinant and in vitro translated proteins identified five p53 binding sites within the three p53-positive promoter regions and also five 1alpha,25(OH)2D3 response elements within the three VDR-positive regions. Reporter gene assays confirmed the expected responsiveness of the respective promoter regions to the p53 inducer 5-fluorouracil and 1alpha,25(OH)2D3. Moreover, re-ChIP assays confirmed the functionality of the three 1alpha,25(OH)2D3-reponsive promoter regions by monitoring simultaneous occupancy of VDR with the co-activator proteins CBP, SRC-1 and TRAP220. Taken together, we demonstrated that the human p21((waf1/cip1)) gene is a primary 1alpha,25(OH)2D3-responding gene with at least three VDR binding promoter regions, in two of which also p53 co-localizes.
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PMID:Regulation of the human p21(waf1/cip1) gene promoter via multiple binding sites for p53 and the vitamin D3 receptor. 1643 1

MOZ (monocytic leukaemia zinc finger protein; also known as ZNF220 or MYST3) is a member of the MYST family of protein acetyltransferases. Chromosomal translocations involving the MOZ gene are associated with AML (acute myeloid leukaemia), suggesting that it has a role in haematopoiesis. Recurrent reciprocal translocations fuse the MOZ gene [or the gene encoding MORF (MOZ-related factor); also known as MYST4] to genes encoding the nuclear receptor co-activators CBP [CREB (cAMP response element-binding protein)-binding protein], p300 or the p160 protein TIF2 (transcription intermediary factor 2). The resulting fusion proteins can transform haematopoietic progenitors in vitro, and induce myeloproliferative disease in mice. Recent insights into the molecular mechanisms underlying these effects indicate that MOZ fusion proteins interfere with the activities of transcription factors such as nuclear receptors, p53 and Runx proteins. Our studies suggest that subverting the function of cellular CBP and p300 proteins may play a key role in this process. Here we review the recent progress in understanding the role of MOZ fusion proteins in the aetiology of AML.
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PMID:MOZ fusion proteins in acute myeloid leukaemia. 1662 84

The liver is exposed to a wide variety of toxic agents, many of which damage DNA and result in increased levels of the tumour suppressor protein p53. We have previously shown that p53 inhibits the transactivation function of HNF (hepatocyte nuclear factor) 4alpha1, a nuclear receptor known to be critical for early development and liver differentiation. In the present study we demonstrate that p53 also down-regulates expression of the human HNF4alpha gene via the proximal P1 promoter. Overexpression of wild-type p53 down-regulated endogenous levels of both HNF4alpha protein and mRNA in Hep3B cells. This decrease was also observed when HepG2 cells were exposed to UV irradiation or doxorubicin, both of which increased endogenous p53 protein levels. Ectopically expressed p53, but not a mutant p53 defective in DNA binding (R249S), down-regulated HNF4alpha P1 promoter activity. Chromatin immunoprecipitation also showed that endogenous p53 bound the HNF4alpha P1 promoter in vivo after doxorubicin treatment. The mechanism by which p53 down-regulates the P1 promoter appears to be multifaceted. The down-regulation was partially recovered by inhibition of HDAC activity and appears to involve the positive regulator HNF6alpha. p53 bound HNF6alpha in vivo and in vitro and prevented HNF6alpha from binding DNA in vitro. p53 also repressed stimulation of the P1 promoter by HNF6alpha in vivo. However, since the R249S p53 mutant also bound HNF6alpha, binding HNF6alpha is apparently not sufficient for the repression. Implications of the p53-mediated repression of HNF4alpha expression in response to cellular stress are discussed.
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PMID:Tumour suppressor p53 down-regulates the expression of the human hepatocyte nuclear factor 4alpha (HNF4alpha) gene. 1689 24

Initially identified as a group of auxiliary protein factors involved in transcriptional regulation by steroid hormone receptors as well as by other members of the nuclear receptor superfamily, the steroid receptor coactivators (SRCs) have since then been implicated in the transcriptional regulation of other transcription factors which are important components of very different signaling pathways. Members of the SRC family have been shown to interact with myogenin, MEF-2, transcriptional enhancer factor (TEF), NF-kappaB, AP-1, STAT, p53, and E2F1, suggesting that SRC coactivators participate in diverse cellular processes. Recent evidence indicates that various post-translational modifications play critical roles in determining the final transcriptional output and specificity of SRC coactivators. In this review, we summarized the current knowledge concerning post-translational modifications, dynamic interplay between different modifications, and patho-physiological relevance of the modifications of SRC proteins.
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PMID:Regulation of SRC family coactivators by post-translational modifications. 1736 49

Nuclear receptor coregulator (NRC) is a 250-kDa nuclear protein involved in transcriptional activation of nuclear hormone receptors, nuclear factor-kappaB, c-Jun, c-Fos, and cAMP response element-binding protein. NRC is organized into a modular structure consisting of two activation domains (AD1 and AD2), two nuclear hormone receptor-interacting motifs, LxxLL-1 and LxxLL-2, and a C-terminal regulatory region rich in serines, threonines, and leucines. The LxxLL-1 motif of NRC binds to a broad spectrum of nuclear hormone receptors with high affinity whereas LxxLL-2 interacts with a very limited number of receptors. In this study we present further evidence that NRC can act as a dimer and have identified a dimerization region of 146 amino acids including LxxLL-1. Mutation of the core LxxLL-1 motif, however, indicates that it is not involved in the dimerization of NRC. AD2, just C-terminal of LxxLL-1, was found to play a central role in ligand-dependent activation by nuclear receptors even though AD1 exhibits more potent intrinsic activity. Thus, a short region of approximately 300 amino acids including and flanking LxxLL-1 plays an important role in NRC dimerization and nuclear receptor binding and transcriptional activation. In addition, consistent with its role as a cointegrator for transcriptional activation, NRC also functions as a coactivator for signal transducer and activator of transcription 2 (STAT-2) and p53. Activation of p53 by NRC appears to involve a novel mechanism where NRC interacts indirectly with p53 through Trap80, a member of the mediator complex, which binds NRC interacting factor-1 (NIF-1), which interacts with and potentiates the effect of NRC.
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PMID:Nuclear receptor coregulator (NRC): mapping of the dimerization domain, activation of p53 and STAT-2, and identification of the activation domain AD2 necessary for nuclear receptor signaling. 1753 6

Retinoic acid receptor beta2 (RAR beta2) is often down-regulated during the multistep process to cervical cancer. In that way, its inhibitory function on the transcription factor AP-1, indispensable to maintain human papillomavirus (HPV) gene expression is relieved. Using HPV-18 positive HeLa cells as a model system, we show that ectopic expression of RAR beta2 is able to down-regulate HPV-18 transcription by selectively abrogating the binding of AP-1 to the viral regulatory region in a ligand-independent manner. This resulted in down-regulation of the viral mRNAs at the level of initiation of transcription. Decreased oncogene expression was accompanied by a re-induction of cell cycle inhibitory proteins such as p53, p21(CIP1), and p27(KIP) as well as by a cessation of cellular growth. Reduced transcriptional activity as a consequence of AP-1 reduction by selective c-Jun degradation apparently targets the HPV-18 regulatory region for epigenetic modification such as de novo methylation and nucleosomal condensation. This mechanism is otherwise counterbalanced by active and abundant viral transcription in malignant cells, because RAR beta2 itself becomes inactivated during cervical carcinogenesis. Hence, our study shows that the temporal co-existence of a potential repressor and viral oncoproteins is mutually exclusive and provides evidence of a cross-talk between a nuclear receptor, AP-1, and the epigenetic machinery.
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PMID:Retinoic acid receptor beta silences human papillomavirus-18 oncogene expression by induction of de novo methylation and heterochromatinization of the viral control region. 1768 73

The thyroid hormone (TH) controls, via its nuclear receptor, TH receptor-alpha1 (TRalpha1), intestinal crypt cell proliferation in the mouse. In order to understand whether this receptor also plays a role in intestinal regeneration after DNA damage, we applied a protocol of gamma-ray irradiation and monitored cell proliferation and apoptosis at several time points. In wild-type mice, the dose of 8 Gy induced cell cycle arrest and apoptosis in intestinal crypts a few hours after irradiation. This phenomenon reverted 48 h after irradiation. TRalpha(0/0) mutant mice displayed a constant low level of proliferating cells and a high apoptosis rate during the period of study. At the molecular level, in TRalpha(0/0) animals we observed a delay in the p53 phosphorylation induced by DNA damage. In our search for the expression of the protein kinases responsible for p53 phosphorylation upon irradiation, we have focused on DNA-dependent protein kinase catalytic subunit (DNA-PKcs). The number of cells expressing DNA-PKcs in crypts remained high 48 h after irradiation, specifically in TRalpha mutants. Altogether, in TRalpha(0/0) animals the rate of apoptosis in crypt cells remained high, apparently due to an elevated number of cells still presenting DNA damage. In conclusion, the TRalpha gene plays a role in crypt cell homeostasis by regulating the rate of cell renewal and apoptosis induced by DNA damage.
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PMID:The thyroid hormone receptor-alpha (TRalpha) gene encoding TRalpha1 controls deoxyribonucleic acid damage-induced tissue repair. 1787 80

Confocal microscopy and cell fractionation studies have revealed the residence of nuclear thyroid hormone receptors (TR) in cytoplasm. Treatment of cells with the hormone (L-thyroxine or 3,5,3'-triiodo-L-thyronine, T(3)) results in shuttling of TR into the nuclear compartment. Confocal microscopy has also disclosed that TR in the nuclear compartment is redistributed in response to exposure of cells to iodothyronine. The TRbeta1 isoform may be found in cytoplasm of thyroid hormone-treated cells complexed with other proteins, such as mitogen-activated protein kinase (MAPK), the p85 regulatory subunit of phosphatidylinositol 3-kinase (PI 3-K) and nuclear receptor coactivators. Formation of such complexes may facilitate nuclear import of TR and initiate specific gene transcription (PI 3-K) or cell proliferation (MAPK). Nuclear retention of TRalpha1 is also increased by T(3). It is not clear that iodothyronines have primary effects on nuclear export of TRs. Thyroid hormone may also increase cytoplasm-to-nucleus partitioning of p53 and certain signal-transducing pathway proteins. A monomer derived from the cell surface receptor for thyroid hormone on integrin alphavbeta3 that does not share homologies with TR may move to the cell nucleus in thyroid hormone-treated cells. Because cells in the intact organism are tonically exposed to thyroid hormone, the latter is likely to contribute to the basal rate of nuclear import of thyroid hormone receptors.
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PMID:Promotion by thyroid hormone of cytoplasm-to-nucleus shuttling of thyroid hormone receptors. 1832 79

Parkinson's disease (PD) has been proposed to result from a combination of genetic susceptibility and environmental exposure. Dysfunction of the ubiquitin-proteasome system (UPS) has been implicated in neuron degeneration and in pathogenesis of PD. Nurr1, a member of nuclear receptor superfamily, is a potential susceptibility gene for PD. In this in vitro and in vivo study, we investigated whether Nurr1 deficiency may predispose to environmental proteasome inhibitors-induced neuron injury. We found that lactacystin, an irreversible proteasome inhibitor, caused greater injury to SH-SY5Y cells that Nurr1 expression has been suppressed by small interference RNA (siRNA). On the contrary, the Nurr1 overexpressed SH-SY5Y cells by Nurr1 expression vector transfection rescued the lactacystin-induced injury. In vivo, stereotactic microinjection with lactacystin into right median forebrain bundle (MFB) of mice caused significant inhibition of the proteasome activity in both Nurr1 knock out heterozygous (Nurr1 +/-) mice and their littermate wild-type (Nurr1 +/+) mice. At same time, we found that there was a severer loss of tyrosine hydroxylase (TH)-positive neurons in substantia nigra (SN) and greater reduction of striatal dopamine (DA) levels in Nurr1 +/- mice as compared with that in Nurr1 +/+ mice. Furthermore, lactacystin-induced increase of cleaved PARP, cleaved caspase3 and p53 and decrease of bcl-2 in SN was significantly enhanced in Nurr1 +/- mice. These findings suggest that reduction in Nurr1 expression increases susceptibility to DAergic neuron injury induced by UPS impairment.
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PMID:Nurr1 deficiency predisposes to lactacystin-induced dopaminergic neuron injury in vitro and in vivo. 1857 22

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