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)

p202, an interferon-inducible murine protein, is a member of the "200 family" of proteins and is primarily nuclear. p202 is a modulator of transcription; it binds several transcription factors, including NF-kappaB p50 and p65, AP-1 c-Fos and c-Jun, and E2F1, and inhibits their transcriptional activity. p202 also binds pRb, the retinoblastoma protein, and if overexpressed it retards cell proliferation. Here we report that using the yeast two-hybrid assay we found that p202 bound the murine homolog of the human p53-binding protein 1 (53BP1), a protein shown to interact with the DNA binding domain of the p53 tumor suppressor protein. p202 bound a 98amino acid segment from 53BP1. This binding was inhibited by the replacement in p202 of a histidine (from the M(F/L)HATVA(T/S) sequence that is conserved among all of the 200 family proteins) by phenylalanine. We also report that overexpression of p202 inhibited the p53-dependent expression of reporter genes containing p53-activable segments from the mdm2 and p21 genes, whereas a decrease in the p202 level (in consequence of the expression of 202 antisense RNA) resulted in an increase in the p53-dependent expression of these reporters. Expression of the 53BP1 segment binding to p202 overcame the inhibition by overexpressed p202 of the transcription of reporters mediated by the p53 or the AP-1 transcription factors and of the proliferation of yeast.
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PMID:p202, an interferon-inducible modulator of transcription, inhibits transcriptional activation by the p53 tumor suppressor protein, and a segment from the p53-binding protein 1 that binds to p202 overcomes this inhibition. 891 Mar 40

p202 is a primarily nuclear, interferon-inducible murine protein that is encoded by the Ifi 202 gene. Overexpression of p202 in transfected cells retards cell proliferation. p202 modulates the pattern of gene expression by inhibiting the activity of various transcription factors including NF-kappaB, c-Fos, c-Jun, E2F-1, and p53. Here we report that p202 was constitutively expressed in mouse skeletal muscle and that the levels of 202 RNA and p202 greatly increased during the differentiation of cultured C2C12 myoblasts to myotubes. When overexpressed in transfected myoblasts, p202 inhibited the expression of one muscle protein (MyoD) without affecting the expression of a second one (myogenin). Thus, the decrease in the level of MyoD (but not of myogenin) during muscle differentiation may be the consequence of the increase in p202 level. Overexpressed p202 also inhibited the transcriptional activity of both MyoD and myogenin. This inhibition was correlated with an interaction of p202 with both proteins, as well as the inhibition by p202 of the sequence-specific binding of both proteins to DNA. This inhibition of the expression of MyoD and of the transcriptional activity of MyoD and myogenin may account for the inhibition of the induction of myoblast differentiation by premature overexpression of p202.
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PMID:Increase in p202 expression during skeletal muscle differentiation: inhibition of MyoD protein expression and activity by p202. 944 5

p202 is an interferon (IFN)-inducible, primarily nuclear, phosphoprotein (52-kDa) whose overexpression in transfected cells inhibits colony formation. p202 binds to the retinoblastoma tumor suppressor protein and two other members of the pocket family proteins (p107 and p130). Moreover, overexpression of p202 in transfected cells inhibits the transcriptional activity of E2Fs (E2F-1/DP-1 and E2F-4/DP-1), p53, AP-1 c-Fos and c-Jun, NF-kappaB p50 and p65. Here we demonstrate that inhibition of endogenous p202 production in murine AKR-2B fibroblasts did not result in an increase in cell proliferation. Instead, these cells exhibited increased susceptibility to apoptosis in response to decrease in serum concentrations in the growth medium. These observations are consistent with the notion that normal levels of p202 may be needed for the regulation of cell proliferation.
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PMID:p202 prevents apoptosis in murine AKR-2B fibroblasts. 964 35

IFI 16 is an interferon-inducible nucleoprotein expressed by human monocytes. IFI 16 and a related mouse protein, p202, control cellular proliferation by binding and modulating the functions of cell cycle regulatory factors including p53 and the retinoblastoma gene product, pRb. In this study, we examined IFI 16 expression in myeloid precursor cells cultured in vitro in colony-forming assays using granulocyte (G-) and granulocyte-macrophage (GM-) colony-stimulating factor (CSF). IFI 16 was expressed in 100% of CD34+ cells isolated from human bone marrow. When the CD34+ cells were induced to differentiate, two sub-populations of cells were identified by two-color cytofluorography: the CD14+ (monocytoid) cells all expressed IFI 16, whereas the CD14- (polymorphonuclear precursor) cells did not. The strongest expression of IFI 16 was in the cells staining brightest for CD14, whereas depletion of CD14+ monocytoid cells from mixed monocytic/granulocytic cultures largely abolished IFI 16-stained cells. Furthermore, in eight independent colony-forming assays, the number of IFI 16+ cells correlated closely with the numbers of monocyte precursors identified morphologically (R2 = 0.99), but was unrelated to the numbers of myelocytes, promyelocytes, and metamyelocytes; nor was IFI 16 expressed by erythroid or eosinophil precursors. We conclude that IFI 16 is expressed in CD34+ and monocytoid daughter cells, but is rapidly and markedly down-regulated at the corresponding stages of polymorphonuclear and erythroid development. This differential expression of IFI 16 in myeloid precursor subpopulations and its perceived molecular properties are consistent with a possible role in regulating myelopoiesis.
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PMID:The IFN-inducible nucleoprotein IFI 16 is expressed in cells of the monocyte lineage, but is rapidly and markedly down-regulated in other myeloid precursor populations. 976 36

p202 is an IFN-inducible, primarily nuclear, phosphoprotein (52-kDa) whose constitutive overexpression in transfected cells inhibits colony formation. To investigate the molecular mechanism(s) by which expression of p202 protein impairs colony formation, we established stable cell lines that inducibly express p202. Using this cell model, we demonstrate that the induced expression of p202 in asynchronous cultures of these cells was accompanied by: (a) an increase in steady-state levels of p21(WAF1/CIP1/SDI1) (p21) mRNA and protein; (b) a decrease in Cdk2 protein kinase activity; and (c) an increase in the functional form of retinoblastoma protein (pRb). Transient transfection of a p202-encoding plasmid in Saos-2 cells, which do not harbor a wild-type p53 protein, resulted in an increase in p21 protein, which indicated that p202 could regulate expression of p21 protein independent of p53 protein. Moreover, we demonstrate that expression of p202 in these cells increased cell doubling time without accumulation of cells in a particular phase of the cell cycle. Taken together, these results are consistent with the possibility that p202 protein contributes to the cell growth retardation activity of the IFNs, at least in part, by modulating p21 protein levels.
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PMID:Retardation of cell proliferation after expression of p202 accompanies an increase in p21(WAF1/CIP1). 1007 3

The p53 tumor suppressor protein regulates the transcription of regulatory genes involved in cell cycle arrest and apoptosis. We reported previously that overexpression of p202, an interferon-inducible negative regulator of cell growth, negatively regulates the transcriptional activity of p53. Now we identify the gene encoding p202 as one whose mRNA and protein expression decrease in cells following the expression of wild-type, but not mutant, p53. Furthermore, the levels of p202 also decrease after exposure of cells to ultra violet light, which correlate with increase in the levels of p53. We report that the sequence-specific DNA binding of p53 to the 5'-regulatory region of the 202 gene contributes to the transcriptional repression of the 202 gene. Interestingly, overexpression of p202 in cells induced to undergo p53-dependent apoptosis significantly delays this process, indicating that the negative regulation of the 202 gene by wild-type p53 is important to potentiate apoptosis.
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PMID:The gene encoding p202, an interferon-inducible negative regulator of the p53 tumor suppressor, is a target of p53-mediated transcriptional repression. 1101 53

Interferons are important in regulating cell growth and differentiation, immune function and initiating anti-viral responses. While the pleotrophic actions of interferons have been well documented, the molecular mechanisms underpinning their biological effects have not been fully characterized. IFI 16 is a member of the interferon-inducible HIN-200 family of nuclear proteins, which we have recently shown can function as a potent transcriptional repressor. A murine member of the HIN-200 family, p202, can indirectly interact with p53 via the p53 binding protein (p53bp) and inhibit p53-mediated transcriptional activation. The binding activity of p202 to p53bp was shown to require the conserved MFHATVAT motif present in all 200 amino acid repeat regions of HIN-200 proteins. Given that IFI 16 contains two MFHATVAT motifs, we sought to determine whether IFI 16 may form a complex with p53 and if so to ascertain the functional significance of this interaction. We demonstrate that IFI 16 can directly bind to the C-terminal region of p53 and augment p53-mediated transcriptional activation without altering the steady state levels of p53. Thus, in addition to its ability to directly regulate gene expression, IFI 16 can also modulate the transcription function of other cellular transcription factors. These findings demonstrate a possible link between gene induction following interferon stimulation and p53-mediated cellular events.
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PMID:Functional interaction between p53 and the interferon-inducible nucleoprotein IFI 16. 1114 55

p53 interacts with a number of cellular proteins to form complexes which are probably crucial for its normal physiological function involving cell cycle control, gene regulation, cell differentiation, apoptosis and tumor suppression. To identify these proteins, we used the yeast two-hybrid system and screened a HeLa cDNA library. Six positive colonies were isolated from 1.5x10(6) transformants. The cDNA sequence of each positive colony was determined. Two novel cDNA fragments (p53BP1 and p53BP2) were cloned. These two cDNA fragments code for the same protein composed of 158 amino acids, which shows high similarity to the ubiquitin-conjugating enzyme (UBC9) of H. sapiens as well as to E2s from other organisms, such as UBC (76 %) of C. elegans, HUS5(66 %) of S. pombe, UBC(66 %) of A. thaliana and UBC9(56 %) of S. cerevisiae. A cDNA fragment from p53BP1 was used to probe a Northern blot containing poly(A)(+) RNA from various human tissues and various cell lines. At high stringency this probe hybridized to a single mRNA of approximately 1.2 kb that was expressed in heart, brain, placenta, liver, skeletal muscle, kidney, pancreas, spleen, thymus, prostate, testis, ovary, small intestine, colon, peripheral blood leukocyte, human cervical carcinoma cell (HeLa), human mammary carcinoma cell (MCF-7), human lymphoma cell (Jurkatt) and human teratocarcinoma cell (PA-I). It is not expressed in brain, lung, human lung carcinoma cell, human heptocellular carcinoma cell (HepG2) and human glioma cell(U251MG).
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PMID:A Novel cDNA Encoding Ubiquitin-conjugating Enzyme of Homo sapiens. 1217 72

p202, an interferon (IFN) inducible protein, is a phosphonuclear protein involved in the regulation of cell cycle, apoptosis, and differentiation. E2F1 belongs to the E2F family of proteins that are important cell cycle regulators in promoting cell growth. On the other hand, the deregulated expression of E2F1 also triggers apoptosis independent of p53 status. It has been well documented that p202 is able to inhibit cell growth by binding to E2F1 and abolishing the E2F1-mediated transcriptional activation of S-phase genes. However, it is not known whether E2F1-mediated apoptosis can be counteracted by p202 expression. Here, we show that E2F1-mediated apoptosis induced by the infection of an E2F1-expressing adenoviral vector (Ad-E2F1) was greatly diminished in p202-expressing prostate cancer cells. The E2F1-mediated caspase-3 activation was also reduced in p202-expressing cells infected with Ad-E2F1. Since caspase-3 is one of the E2F1 transcriptional targets, this result is consistent with the ability of p202 to inhibit the transcriptional activity of E2F1. Therefore, our results suggest a possible link between the IFN and E2F pathways in regulating apoptosis.
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PMID:P202, an interferon-inducible protein, inhibits E2F1-mediated apoptosis in prostate cancer cells. 1264 90

The interferon-inducible p200 (IFI-200) family of proteins is among the numerous gene products induced by interferons (IFNs), which are important regulators of cell growth, immunomodulation and host resistance to tumors and viral infections. The members of this family of proteins are highly homologous to one another and consist of five murine proteins including p202, p203, p204 and p205 as well as three human homologues; IFI-16, myeloid cell nuclear differentiation antigen (MNDA) and absent in melanoma (AIM) 2. They possess at least one copy of a conserved 200 amino-acid motif which exists in two types; the a and b domains. Most of the IFI-200 proteins also possess a domain in apoptosis and interferon response (DAPIN)/PYRIN domain, which is a conserved motif associated with protein-protein interactions in the regulation of apoptotic and inflammatory signaling pathways. The p200 proteins have been implicated in cell cycle regulation and differentiation based on their ability to interact with and modulate the activities of multiple transcriptional factors such as Rb and p53, and there are significant findings that link mutations in their genetic loci to the incidence of cancer. Here, we describe the structure and biological activities of these proteins, and discuss recent studies that describe their relevant roles in processes regulating cell proliferation and differentiation.
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PMID:The interferon-inducible p200 family of proteins: a perspective on their roles in cell cycle regulation and differentiation. 1475 31

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