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)

In most cases, the transcriptional factor NF-kappa B is a heterodimer consisting of two subunits, p50 and p65, which are encoded by two distinct genes of the Rel family. p50 is translated as a precursor of 105 kDa. The C-terminal domain of the precursor is rapidly degraded, forming the mature p50 subunit consisted of the N-terminal region of the molecule. The mechanism of generation of p50 is not known. It has been suggested that the ubiquitin-proteasome system is involved in the process; however, the specific enzymes involved and the mechanism of limited proteolysis, in which half of the molecule is spared, have been obscure. Palombella and colleagues (Palombella, V. J., Rando, O. J., Goldberg, A. L., and Maniatis, T. (1994) Cell 78, 773-785) have shown that ubiquitin is required for the processing in a cell-free system of a truncated, artificially constructed, 60-kDa precursor. They have also shown that proteasome inhibitors block the processing both in vitro and in vivo. In this study, we demonstrate reconstitution of a cell-free processing system and demonstrate directly that: (a) the ubiquitin-proteasome system is involved in processing of the intact p105 precursor, (b) conjugation of ubiquitin to the precursor is an essential intermediate step in the processing, (c) the recently discovered novel species of the ubiquitin-carrier protein, E2-F1, that is involved in the conjugation and degradation of p53, is also required for the limited processing of the p105 precursor, and (d) a novel, approximately 320-kDa species of ubiquitin-protein ligase, is involved in the process. This novel enzyme is distinct from E6-AP, the p53-conjugating ligase, and from E3 alpha, the "N-end rule" ligase.
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PMID:Ubiquitin-mediated processing of NF-kappa B transcriptional activator precursor p105. Reconstitution of a cell-free system and identification of the ubiquitin-carrier protein, E2, and a novel ubiquitin-protein ligase, E3, involved in conjugation. 766 88

Mutations that affect oncosuppressor genes contribute to transformed phenotype. The recessive characteristics of these genes require mutations on both alleles. For this reason alterations of the oncosuppressor genes can be transmitted with the germ line. In this review we focus on mechanisms of inactivation of the retinoblastoma gene and p53. The products of these genes are nuclear phosphoproteins involved in controlling cellular proliferation. Inactivated Rb genes have been found in several tumor types. The phosphorylation of the Rb gene product, p105Rb, is regulated by cyclin-dependent kinases in accordance with the cell cycle. Hypophosphorylated wild-type p105Rb is tightly bound to the nuclear matrix and seems to be critical in inhibition of cellular proliferation. Hyperphosphorylation is a physiological mechanism of inactivation of p105Rb. The p53 gene product is a transcriptional factor that blocks the progression of cell division. Mutations in the p53 gene are frequently found in many human cancers and are localized in the highly conserved region of the gene. The protein product of the mutated gene looses its function as a negative regulator of cellular proliferation. The wild-type protein can also be inactivated by forming stable complex with a mutated p53 protein or with the SV large T antigen.
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PMID:Oncosuppressor genes: mechanisms of inactivation for the retinoblastoma gene and p53. 800 86

The tumor suppressor and transcriptional factor p53 is a phosphorylated protein. Its phosphorylation states are regulated by several protein kinases and phosphatases. In this study, the wild-type p53 was transfected and expressed in chronic myelogenous leukemia K-562 cells. Incubation of the transfected cells with okadaic acid, an inhibitor of serine phosphatases 2A and 1, induced hyperphosphorylation of p53 protein. The treatment also increased the steady state level of p53 protein in the cells. However, the hyperphosphorylated p53 protein was less active in promoting transcription mediated by two p53-binding DNA elements, the ribosomal gene cluster and the p53 consensus DNA-binding sequence. Nevertheless, the decreased transcription activation was not due to decreased binding of p53 to these elements, as analyzed by mobility shift DNA-binding assays. In addition, the treatment did not induce a conformational change in p53, as assayed by two conformation-specific anti-p53 monoclonal antibodies, PAb240 and PAb1620. These results suggest that the phosphorylation induced by okadaic acid may selectively modulate the transcription activation function of p53. Consequently, phosphorylation may represent a mechanism of p53 inactivation in tumor cells that harbor the wild-type p53.
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PMID:Hyperphosphorylation of p53 induced by okadaic acid attenuates its transcriptional activation function. 804 94

An analysis of cell lines representing different stages of the B-cell differentiation pathway indicated that about 50% of the cell lines examined expressed exclusively wild type p53 protein. These lines therefore offer a convenient system to study the involvement of p53 in cell differentiation. When 70Z/3, a pre-B cell line which expresses wild type p53, was treated with the differentiation inducer lipopolysaccharide (LPS), it was seen that increased levels of p53 mRNA preceded specific changes in kappa (kappa) immunoglobulin expression. This increased expression of kappa specific mRNA, which was evaluated by specific PCR analysis, was blocked following transfection with mutant p53 coding plasmids. Treatment of 13A60, another cell line which endogenously expresses wild type p53, with LPS caused a secretion of IgA antibodies, also accompanied by increased p53 mRNA expression. The conclusion was that induction of B-cell differentiation involves the transcription of the p53 gene. This was further substantiated by experiments showing that differentiation of stable clones derived from the 70Z/3 cell line, harboring a p53-promoter-CAT plasmid, induced increased CAT activity. Furthermore, wild type p53 transactivated the promoter control sequences of the kappa light chain gene. Taken together, these results suggest that p53 is involved in B-cell differentiation, a pathway which involves DNA rearrangements that may be accompanied by generation of faulty DNA. The fact that wild type p53 was shown to function as a transcriptional factor, coupled with the notion that it is associated with DNA repair systems, may designate p53 as a control protein in the B-cell differentiation pathway.
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PMID:Wild type p53 functions as a control protein in the differentiation pathway of the B-cell lineage. 824 32

A new cell line (LR10.6) with pre-B cell phenotype has been established from bone marrow cells obtained from a child with B lineage acute lymphoblastic leukemia in complete clinical remission. The line expresses nuclear TdT enzyme, cytoplasmic Ig lambda-chain and membrane mu-chain and other B but no T or myeloid markers. The cells also show activation antigens CD69 and CD71, adhesion molecules CD54, CD50 and CD56 and the tyrosine kinase receptor CD117. No expression of multidrug resistance phenotype MDR-1 is observed on these cells which nevertheless express the transcriptional factor p53 protein in a mutant form. Cytogenetic study shows a translocation t(5;12)(q31;p13) involving breakpoints which contain the growth factor interleukin 3 gene (5q31) and the recently identified TEL/ETV6 gene (12p13). Activation of the cells with phorbol-12 myristate 13-acetate (PMA) up-regulates the expression of the CD69 activation antigen and down-regulates the CD117 molecule. In addition, PMA fails to induce the CD20 B cell antigen.
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PMID:A new human cell line with pre-B cell phenotype and t(5;12). 920 88

BAG-1 is an anti-apoptotic protein that interacts with Bcl-2, Bcl-XL, Hsp70/Hsc70, Raf-1 and numerous hormone or growth factor receptors. Recently, BAG-1 has been found to be overexpressed in a variety of human cancer cell lines and some tumors. However, the molecular mechanism of BAG-1 upregulation is still unclear. In this study, we cloned 0.9 kb of human genomic DNA, BGEV, 5' flanking the BAG-1 open reading frame. BGEV subcloned into a promoterless luciferase reporter vector conferred high promoter activity in various human cancer cell lines. Deletion analysis of this sequence localized the region of maximal BAG-1 promoter activity from nucleotide positions -353 to -54, upstream of the first start codon CTG. Sequence analysis of the BAG-1 promoter region showed the absence of a TATA box but identified a CCAAT box, several GC boxes, a CpG island and several transcriptional factor binding sites, which may be important in the regulation of BAG-1 transcription. Most importantly, functional characterization of the BAG-1 promoter in vivo demonstrated that gain-of-function p53 mutants derived from human tumors upregulated the transcription of BAG-1 RNA and the expression of a reporter gene from the BAG-1 promoter. These results indicated that we have isolated the functional constitutive BAG-1 promoter. Furthermore, the data suggested that overexpression of BAG-1 in some tumors may be due to upregulation of the human BAG-1 promoter by mutant p53.
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PMID:Cloning and characterization of the human BAG-1 gene promoter: upregulation by tumor-derived p53 mutants. 1046 99

The Ewing family of tumors is characterized by recurrent reciprocal translocations that generate chimeric proteins, either EWS - FLI-1 or EWS - ERG. These proteins are potent transcriptional activators and are responsible for maintaining the oncogenic properties of tumor cells. Since apoptosis appears to be the main mechanism whereby chemotherapy and radiation kill tumor cells, identification of events that can antagonize apoptosis in Ewing tumors is essential for improving their response to conventional therapies. Here, we report that the transcriptional factor NF-kappaB is a survival factor for Ewing tumor-derived cells. In fact, inhibition of NF-kappaB activation as a consequence of the overexpression of a degradation-resistant form of IkappaBalpha, IkappaBalpha (A32/36), sensitized these cells to TNFalpha-induced killing. Although treatment with TNFalpha did not modify the cellular expression of Bcl-2, c-IAP1, c-IAP2, p53 and EWS - FLI-1 proteins, it increased p21Waf1/Cip1 levels. This induction required NF-kappaB activation since it was not observed in the IkappaBalpha (A32/36) expressing cells. Moreover, overexpression of p21Waf1/Cip1 in these IkappaBalpha (A32/36)-expressing cells, in which NF-kappaB and consequently p21Waf1/Cip1 are no longer inducible by TNFalpha, decreased their susceptibility to TNFalpha-induced killing. Our results therefore identify p21Waf1/Cip1 as a mediator of the antiapoptotic effect of TNFalpha-induced NF-kappaB in Ewing tumor cells.
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PMID:Induction of p21Waf1/Cip1 by TNFalpha requires NF-kappaB activity and antagonizes apoptosis in Ewing tumor cells. 1064 80

The tumor suppressor gene p53 is a potent transcriptional regulator of genes which are involved in many cellular activities including cell cycle arrest, apoptosis, and angiogenesis. Recent studies have demonstrated that the activation of the transcriptional factor nuclear factor kappaB (NF-kappaB) plays an essential role in preventing apoptotic cell death. In this study, to better understand the mechanism responsible for the p53-mediated apoptosis, the effect of wild-type p53 (wt-p53) gene transfer on nuclear expression of NF-kappaB was determined in human colon cancer cell lines. A Western blot analysis of nuclear extracts demonstrated that NF-kappaB protein levels in the nuclei were suppressed by the transient expression of the wt-p53 in a dose-dependent manner. Transduced wt-p53 expression increased the cytoplasmic expression of I kappaB alpha as well as its binding ability to NF-kappaB, thus markedly reducing the amount of NF-kappaB that translocated to the nucleus. The decrease in nuclear NF-kappaB protein correlated with the decreased NF-kappaB constitutive activity measured by electrophoretic mobility shift assay. Furthermore, parental cells transfected with NF-kappaB were better protected from cell death induced by the wt-p53 gene transfer. We also found that the wt-p53 gene transfer was synergistic with aspirin (acetylsalicylic acid) in inhibiting NF-kappaB constitutive activity, resulting in enhanced apoptotic cell death. These results suggest that the inhibition of NF-kappaB activity is a plausible mechanism for apoptosis induced by the wt-p53 gene transfer in human colon cancer cells and that anti-NF-kappaB reagent aspirin could make these cells more susceptible to apoptosis.
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PMID:Overexpression of the wild-type p53 gene inhibits NF-kappaB activity and synergizes with aspirin to induce apoptosis in human colon cancer cells. 1069 90

Hepatitis C virus (HCV) causes a persistent infection, chronic hepatitis, and hepatocellular carcinoma. Since there are several reports indicating that some viruses influence the tumor suppressor p53 function, we determined the effects of HCV proteins on p53 function and its mechanism determined by use of a reporter assay. Among seven HCV proteins investigated (core, NS2, NS3, NS4A, NS4B, NS5A, and NS5B), only core protein augmented the transcriptional activity of p53 and increased the expression of p21(waf1) protein, which is a major target of p53. Core protein increased both DNA-binding affinity of p53 in electrophoretic morbidity shift assay and transcriptional ability of p53 itself in a reporter assay. The direct interaction between core protein and C terminus of p53 was also shown by glutathione S-transferase fusion protein binding assay. In addition, core protein interacted with hTAF(II)28, a component of the transcriptional factor complex in vivo and in vitro. These results suggest that HCV core protein interacts with p53 and modulates p53-dependent promoter activities during HCV infection.
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PMID:Hepatitis C virus core protein enhances p53 function through augmentation of DNA binding affinity and transcriptional ability. 1092 97

Curcumin (CCM), a major yellow pigment of turmeric obtained from powdered rhizomes of the plant Curcuma longa Linn, is commonly used as coloring agent in foods, drugs and cosmetics. In this study we report that gavage administration of 200 mg/kg or 600 mg/kg CCM effectively suppressed diethylnitrosamine (DEN)-induced liver inflammation and hyperplasia in rats, as evidenced by histopathological examination. Immunoblotting analysis showed that CCM strongly inhibited DEN-mediated the increased expression of oncogenic p21(ras) and p53 proteins in liver tissues of rats. In cell-cycle-related proteins, CCM selectively reduced the expression of proliferating cell nuclear antigen (PCNA), cyclin E and p34(cdc2), but not Cdk2 or cyclin D1. Moreover, CCM also inhibited the DEN-induced increase of transcriptional factor NF-kappa B. However, CCM failed to affect DEN-induced c-Jun and c-Fos expression. It has become widely recognized that the development of human hepatocellular carcinoma (HCC) is predominantly due to the chronic inflammation by virus, bacteria or chemical. Our results suggest a potential role for CCM in the prevention of HCC.
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PMID:Inhibition by curcumin of diethylnitrosamine-induced hepatic hyperplasia, inflammation, cellular gene products and cell-cycle-related proteins in rats. 1103 36

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