Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HPV-immortalized human oral keratinocytes can convert to tumorigenic cells when exposed to N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), but normal human oral keratinocytes cannot transform with a similar exposure. The different responses of these cells could be due to different genetic stability of cells. In as much as genetic stability is determined by cell cycle control and of repair of damaged DNA, we studied the effect of MNNG exposure upon cell cycle progression, expression of p53, WAF1/CIP1 and gadd45, and the mutation frequency of a shuttle vector pS189 in normal human oral keratinocytes, in HPV-immortalized oral keratinocytes, and in an oral cancer cell line expressing mutant p53. Normal cells demonstrated transient cell cycle arrest after exposure to MNNG, but the other tested cells did not. While MNNG exposure significantly increased the levels of intranuclear wt p53 protein and the expression of WAF1/CIP1 and gadd45 genes in normal cells, it did not alter them in the immortalized and cancer cells. The mutation frequency of pS189 plasmid was significantly lower in normal cells than in the other tested cells. These data indicate that malignant conversion of HPV-immortalized oral keratinocytes may, in part, be associated with the cells' genetic instability. The genetic instability may be due to cells' (1) inability to accumulate intranuclear wt p53 to a threshold level at which p53 upregulates the transcription of WAF1/CIP1 and gadd45, resulting in the loss of cell cycle control and (2) inefficient repair of DNA damage caused by genotoxic agents.
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PMID:Oncogenic transformation of HPV-immortalized human oral keratinocytes is associated with the genetic instability of cells. 864 1

Predesquamin is a glycoprotein found in the transition layer and the lower stratum corneum of human epidermis. Interferon-gamma (IFN-gamma) induces the synthesis of predesquamin by keratinocytes in culture. We now show ultrastructurally that exogenous addition of either predesquamin or IFN-gamma to cultured keratinocytes induces apoptotic nuclei with condensed chromatin. Degradation of cellular DNA is also evident as a ladder pattern in an agarose gel. After incubation with both predesquamin and IFN-gamma (but not either alone), the mobility of plasmid DNA in a gel shows retardation specific for guanine residues. This binding to the DNA may impart to it a conformational change that facilitates access by endogenous cellular nucleases. In epidermal cells cultured with IFN-gamma supplementation, we also show by RT-PCR that there is an upregulation of the genes c-myc, p53, gadd45, dsRNA-activated protein kinase, and 2'-5'-oligo(A)-dependent RNase, which have all been implicated in apoptosis in other cell types. These results are pertinent to the mechanism of occurrence of apoptosis in the epidermis in vivo, where predesquamin and IFN-gamma are endogenous. Programmed cell death is an inherent step in the terminal differentiation and desquamation of the epidermis.
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PMID:Induction of apoptotic nuclei by interferon-gamma and by predesquamin in cultured keratinocytes. 874 83

1,25-Dihydroxyvitamin D3 (1,25(OH)2D3), a seco-steroid hormone with potential antitumoral activities, has been recently reported to exert cytotoxic effects on C6 glioma cells. However, the molecular mechanisms which trigger this cell death remain unknown. We show here that this 1,25(OH)2D3-induced cell death is dependent upon protein synthesis and is accompanied by the expression of c-myc, p53, and gadd45 genes. Two other genes, coding for interleukin-6 and vaso-endothelial growth factor, are also upregulated after addition of 1,25(OH)2D3. This programmed cell death can be suppressed when cells are treated with forskolin, a drug which increases intracellular cAMP concentration, or with genistein, an inhibitor of tyrosine protein kinases. However, in spite of the demonstration of fragmented DNA in 1,25(OH)2D3-treated cells, the C6.9 cells used in this study do not show the classical morphological features of apoptosis. These results provide the first evidence for the existence of a programmed cell death triggered by 1,25(OH)2D3 in glioma cells and may provide a basis for the development of new therapeutic strategies. In addition, these data also suggest that the treatment of C6.9 cells with 1,25(OH)2D3 may be a useful model to study the molecular mechanisms involved in the programmed cell death of a cell of glial origin.
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PMID:1,25-Dihydroxyvitamin D3 induces programmed cell death in a rat glioma cell line. 895 66

In response to DNA damage, cells transduce a signal that leads to accumulation and activation of p53 protein, transcriptional induction of several genes, including p21, gadd45, and gadd153, and cell cycle arrest. One hypothesis is that the signal is mediated by DNA-dependent protein kinase (DNA-PK), which consists of a catalytic subunit (DNA-PKcs) and a regulatory subunit (Ku). DNA-PK has several characteristics that support this hypothesis: Ku binds to DNA damaged by nicks or double-strand breaks, DNA-PKcs is activated when Ku binds to DNA, DNA-PK will phosphorylate p53 and other cell cycle regulatory proteins in vitro, and DNA-PKcs shares homology with ATM, which is mutated in ataxia telangiectasia and involved in signaling the p53 response to ionizing radiation. The hypothesis was tested by analyzing early passage fibroblasts from severe combined immunodeficient mice, which are deficient in DNA-PK. After exposure to ionizing radiation, UV radiation, or methyl methane-sulfonate, severe combined immunodeficient and wild-type cells were indistinguishable in their response. The accumulation of p53, induction of p21, gadd45, and gadd153, and arrest of the cell cycle in G1 and G2 occurred normally. Therefore, DNA-PK is not required for the p53 response or cell cycle arrest after DNA damage.
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PMID:DNA-dependent protein kinase is not required for accumulation of p53 or cell cycle arrest after DNA damage. 898 43

The effects of two types of selenium compounds on the expression levels of growth arrest and DNA damage-inducible (gadd) genes and on selected cell death genes were examined in mouse mammary MOD cells to test the hypothesis that the diversity of selenium-induced cellular responses to these compounds could be distinguished by unique gene expression patterns. Whereas the expression patterns of known cell death-related genes (bcl-2 and bax) were not informative with respect to the cellular response patterns upon exposure to selenium compounds, time-dependent and selenium species-specific induction patterns were observed for gadd34, gadd45 and gadd153 genes. It was also observed that the MOD cells expressed a truncated p53 transcript but no detectable immunoreactive P53 protein, indicating a null p53 phenotype. The fact that selenium compounds induced growth arrest and death of these cells and that these compounds induced specific patterns of expression of gadd genes indicates that these genes may mediate some selenium-induced cellular responses. The findings further imply that selenium compounds may be effective chemopreventive agents for human breast carcinogenesis, in which p53 mutations are frequent.
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PMID:Differential induction of growth arrest inducible genes by selenium compounds. 917 4

A murine erythroleukemic cell line (1-2-3) which expresses only the temperature-sensitive mutant p53 gene (Ala-to-Val substitution at codon 135) was established. When these cells were cultured at 32 degrees C, the growth rate was reduced significantly and DNA fragmentation, a typical character of apoptosis, was observed. In this process, p53 migrated from cytoplasm to nucleus and protein complexes binding to the p53-responsive element were detected in nuclear extracts of the cells cultured at 32 degrees C by gel-shift assay and transactivation from the p53-responsive element was detected. The expression of the p21 (waf1/cip1/sdi1), cyclin G and gadd45 genes was increased (about 3 to 4 fold that at 37 degrees C), when the cells were cultured at 32 degrees C. However, the expression of the bax gene was increased slightly (about 1.5 fold that at 37 degrees C) and no significant change was detected in expression of the mdm2 gene. No change in the amount of Fas antigen was observed by flow cytometric analysis. Transcripts of the bcl-2 and fasl gene were not detected in the cells both at 37 degrees C and 32 degrees C. These results suggest that up-regulation of the genes associated with the cell cycle and/or DNA replication, such as p21, cyclinG and gadd45 rather than bax, fas, fasl and bcl-2 may be important for induction of apoptosis of this erythroleukemic cell line by p53.
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PMID:Up-regulation of cell cycle-associated genes by p53 in apoptosis of an erythroleukemic cell line. 920 1

Transforming growth factory beta (TGF-beta) is a potent growth inhibitor of epithelial cells. One of the strategies used to elucidate the anti-proliferative mode of action of TGF-beta is to find out whether the receptor-generated signals interact with components of the basic machinery of the cell cycle. In this study we examined whether p53 and two other cycle inhibitory genes that can be transactivated by p53 are affected by TGF-beta 1 in epithelial cells. We show that TGF-beta 1 signalling controls the intracellular localization as well as the phosphorylation pattern and the stability of p53 protein. TGF-beta signalling also elevates the expression of p21/waf-1 and gadd45. The observed modifications in the protein suggest that p53 is involved in mediation of TGF-beta 1 growth inhibition. However, in TGF-beta 1 growth inhibited cells, wild type p53 is not required for the accumulation of the two p53 downstream targets p21/waf-1 and gadd45.
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PMID:Modifications of p53 protein and accumulation of p21 and gadd45 mRNA in TGF-beta 1 growth inhibited cells. 921 30

The mdm2 oncogene has transforming potential that is activated by overexpression. We previously reported the identification of human choriocarcinoma cell lines that have very high levels of mdm2 proteins as well as elevated levels of a stabilized wild-type p53 protein. Importantly, this mdm2 overexpression resulted from enhanced translation of mdm2 mRNA, a mechanism that had not previously been implicated in mdm2 expression control. The focus of this study was to investigate the breadth of enhanced translation of mdm2 mRNA in human cancers and to elucidate the basis for this translational activation. Here we present evidence that translational enhancement of mdm2 expression occurs in a variety of human tumor cells. Most of these samples also have high levels of wild-type p53 protein. However, there is no evidence for concomitant overexpression of the p53 target genes p21/waf1 and gadd45. Additionally, we demonstrate that the translational enhancement of mdm2 involves a preferential increase in mdm2 transcription that is initiated from the internal p53-responsive promoter region of this gene. The particular mdm2 transcripts that are generated contain a distinct 5' untranslated region and exhibit a significantly enhanced translational efficiency. These data provide a quantitative explanation for the overexpression of mdm2 proteins in this class of human tumors.
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PMID:Translational enhancement of mdm2 oncogene expression in human tumor cells containing a stabilized wild-type p53 protein. 927 29

A gene encoding the p53 val135 mutant, which assumes mutant conformation at 38.5 degrees C and wild-type conformation at 32.5 degrees C, was introduced into p53-deficient K562 myeloid leukemia cells. Forced expression of wild-type, but not mutant, p53 resulted in growth arrest, accumulation of p21 and Bax proteins, and delayed cell death. Wild-type p53 enhanced the cytotoxic effects of some drugs and attenuated those of others. Compared with wild-type p53, mutant p53 induced much stronger sensitization to drug cytotoxicity. This occurred in the absence of effects on cell cycle progression or activation of several p53 target genes. Although both mutant and wild-type p53 induced changes of immunophenotype, no specific pattern of differentiation was associated with enhanced chemosensitivity. Thus, (1) induction of growth arrest and activation of p53 target genes such as p21 and bax are linked to the wild-type conformation of p53; (2) p53 induces immunophenotypic changes of myeloid leukemia cells suggestive of multidirectional differentiation in a conformation-dependent manner; and (3) (so-called) mutant p53 induces chemosensitization in the absence of effects on cell cycle progression, activation of bax, p21, gadd45 and mdm-2, or a specific pattern of differentiation; and (4) chemosensitization mediated by wild-type p53 may be masked by transcription-dependent induction of growth arrest.
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PMID:A new look at the role of p53 in leukemia cell sensitivity to chemotherapy. 936 16

Erythroleukemia induced by the anemia strain of Friend virus occurs in two stages. The first stage results in rapid expansion of pre-leukemic proerythroblasts (FVA cells) dependent on erythropoietin (Epo) for differentiation and survival in vitro. The second stage is characterized by emergence of erythroleukemic clones (MEL cells) which typically bear activation of the ets-oncogene, PU.1/spi.1, and loss of functional p53. We developed a Friend virus-sensitive, p53-deficient mouse model to investigate the biological advantage conferred by p53-loss during tumor progression. Here we report p53 was not required for cell survival or growth arrest during differentiation of FVA cells, nor was p53 required for induction of apoptosis upon Epo withdrawal. However, we detected induction of the p21Cip1 cyclin-dependent kinase inhibitor gene during differentiation, which was markedly enhanced in the presence of p53. p53-dependent expression of p21Cip1 occurred in the absence of an increase in p53 mRNA and protein levels and was specific for p21Cip1, since expression of gadd45, mdm-2, cyclin G and bax were unaffected by p53. In contrast, treatment of FVA cells with DNA damaging agents led to rapid accumulation of p53 protein resulting in transcription of multiple p53-regulated genes, leading to either apoptosis or growth arrest, depending on the agent used. These data demonstrate that p53-dependent activities during differentiation of preleukemic erythroblasts are distinct from those observed in response to genotoxic agents. We propose that enhancement of p53-dependent gene expression during differentiation may represent a tumor suppressor function which is necessary to monitor differentiation of preleukemic cells and which is selected against during tumor progression.
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PMID:Endogenous p53 regulation and function in early stage Friend virus-induced tumor progression differs from that following DNA damage. 976 22


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