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)

The expression of genes coding for the ATP/ADP translocase, calcyclin, ornithine decarboxylase, vimentin, proto-onc genes p53 and c-Ha-ras1 and also for two genes JE and KC with as yet unknown function was studied during regeneration of rat liver. Genes highly induced were: JE (2-8 h of regeneration), ATP/ADP translocase (8-18 h), c-Ha-ras-1 (6-48 h) and p53 (6-12 h). Vimentin and KC gene transcripts were not detectable in the first 48 h of liver regeneration, whereas ornithine decarboxylase and calcyclin gene transcripts were present at constant levels. Our findings extend the list of genes expressed at the early stages of liver regeneration.
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PMID:Expression of "cell-cycle-dependent" genes in regenerating rat liver. 245 62

E6-AP is a 100-kDa cellular protein that interacts with the E6 protein of the cancer-associated human papillomavirus types 16 and 18. The E6/E6-AP complex binds to and targets the p53 tumor-suppressor protein for ubiquitin-mediated proteolysis. E6-AP is an E3 ubiquitin-protein ligase which accepts ubiquitin from an E2 ubiquitin-conjugating enzyme in the form of a thioester and then directly transfers the ubiquitin to targeted substrates. The amino acid sequence of E6-AP shows similarity to a number of protein sequences over an approximately 350-aa region corresponding to the carboxyl termini of both E6-AP and the E6-AP-related proteins. Of particular note is a conserved cysteine residue within the last 32-34 aa, which in E6-AP is likely to be the site of ubiquitin thioester formation. Two of the E6-AP-related proteins, a rat 100-kDa protein and a yeast 95-kDa protein (RSP5), both of previously unknown function, are shown here to form thioesters with ubiquitin. Mutation of the conserved cysteine residue of these proteins destroys their ability to accept ubiquitin. These data strongly suggest that the rat 100-kDa protein and RSP5, as well as the other E6-AP-related proteins, belong to a class of functionally related E3 ubiquitin-protein ligases, defined by a domain homologous to the E6-AP carboxyl terminus (hect domain).
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PMID:A family of proteins structurally and functionally related to the E6-AP ubiquitin-protein ligase. 776 80

Ubiquitination of proteins involves the concerted action of the E1 ubiquitin-activating enzyme, E2 ubiquitin-conjugating enzymes and E3 ubiquitin-protein ligases. It has been proposed that E3s function as 'docking proteins', specifically binding substrate proteins and specific E2s, and that ubiquitin is then transferred directly from E2s to substrates. We show here that formation of a ubiquitin thioester on E6-AP, an E3 involved in the human papillomavirus E6-induced ubiquitination of p53 (refs 6-10), is an intermediate step in E6-AP-dependent ubiquitination. The order of ubiquitin transfer is from E1 to E2, from E2 to E6-AP, and finally from E6-AP to a substrate. This cascade of ubiquitin thioester complexes suggests that E3s have a defined enzymatic activity and do not function simply as docking proteins. The cysteine residue of E6-AP responsible for ubiquitin thioester formation was mapped to a region that is highly conserved among several proteins of unknown function, suggesting that these proteins share the ability to form thioesters with ubiquitin.
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PMID:Protein ubiquitination involving an E1-E2-E3 enzyme ubiquitin thioester cascade. 780 44

To search for candidate genes involved in p53-mediated apoptosis, the differential display technique was used to identify RNA species whose expression was altered in murine NIH3T3 cells treated with the cytotoxic drug etoposide. We report here the isolation and characterization of EI24, a novel gene whose 2.4 kb mRNA is induced following etoposide treatment. Induction of EI24 mRNA by etoposide required expression of wild-type p53 in murine embryonic fibroblasts which had been transformed with the oncogenes E1A and T24 H-ras; and overexpression of functional p53 in these cells was sufficient to induce expression of the EI24 mRNA. The EI24 mRNA was also induced in a p53-dependent manner by ionizing irradiation of primary murine thymocytes. Isolation of a full-length EI24 cDNA revealed that its protein product bears homology to CELF37C12.2, a Caenorhabditis elegans protein of unknown function.
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PMID:Identification and cloning of EI24, a gene induced by p53 in etoposide-treated cells. 864 19

The p53 tumour suppressor gene plays a major role in controlling cell cycle and apoptosis in many different cell types. Here we have examined the status and the potential apoptosis inducing activity of p53 in sympathetic neurons. The p53 protein is expressed in rat sympathetic neurons cultured in the presence of NGF. The protein is not upregulated when these neurons are induced to die upon NGF deprivation. Over-expression of wild-type human p53 in neurons cultured in the presence of NGF does not trigger apoptosis nor does it accelerate apoptosis when the neurons are deprived of NGF. Finally endogenous p53 expression is not necessary for neuronal cell death triggered by NGF deprivation since neurons prepared from p53 knockout mice undergo normal cell death upon NGF deprivation. Our results suggest that p53 may have an unknown function in post-mitotic neurons which is distinct from its well described roles in apoptosis or cell cycle control.
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PMID:p53 protein in sympathetic neurons: cytoplasmic localization and no apparent function in apoptosis. 883 94

The disruption of transcriptional regulatory circuits through the elimination of negative regulatory factors (tumor suppressors), the activation of positive acting factors (oncogenes), or when chimeric proteins result from chromosomal translocations, is likely a key event in multistep tumorigenesis. Here, using the transcription factors E2F and AML-1 as model systems, we discuss the disruption of coordinate transcriptional regulation in oncogenesis. E2F oncogenic signals are released when the pRb tumor suppressor is inactivated, and E2F activation may necessitate the coordinate inactivation of a second tumor suppressor, p53. AML-1 is the target of the (8;21) translocation, found in approximately 15% of acute myeloid leukemia (AML) cases, and the t(12;21), found in up to 30% of childhood B-cell acute lymphoblastic leukemias. The t(8;21) creates a fusion protein between AML-1 and a gene of unknown function, mtg8 (ETO), whereas the t(12;21) fuses the TEL (translocation-ets-leukemia) transcription factor to the N-terminus of AML-1. The inv(16), which is the most frequent anomaly found in AML, also targets AML-1, by fusing the gene that encodes AML-1's heterodimeric partner CBF beta to the smooth muscle myosin heavy chain gene MYHll. Thus, E2F and AML-1 provide excellent models for the disruption of transcriptional regulation in cancer.
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PMID:Indirect and direct disruption of transcriptional regulation in cancer: E2F and AML-1. 883 31

In the majority of cervical cancers, DNAs of high-risk mucosotpropic human papillomaviruses (HPVs), such as type 16, are maintained so as to express two viral proteins, E6 and E7, suggesting an essential importance to carcinogenesis. The high-risk HPV E6 proteins are known to inactivate p53 tumor suppressor protein but appear to have an additional, molecularly unknown function(s). In this study, we demonstrate that these E6 proteins can bind to the second PDZ domain of the human homologue of the Drosophila discs large tumor suppressor protein (hDLG) through their C-terminal XS/TXV/L (where X represents any amino acid, S/T serine or threonine, and V/L valine or leucine) motif. This finding is similar to the interaction between the adenomatous polyposis coli gene product and hDLG. E6 mutants losing the ability to bind to hDLG are no longer able to induce E6-dependent transformation of rodent cells. These results suggest an intriguing possibility that interaction between the E6 protein and hDLG or other PDZ domain-containing proteins could be an underlying mechanism in the development of HPV-associated cancers.
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PMID:Binding of high-risk human papillomavirus E6 oncoproteins to the human homologue of the Drosophila discs large tumor suppressor protein. 932 58

S100A2 is a calmodulin-like protein of unknown function, whose transcription is positively regulated in response to ErbB and p53 signaling. Expression of S100A2 is markedly increased in the context of ErbB-driven reactive epidermal hyperplasia, and decreased in the context of hypofunctional p53 mutations in carcinoma cell lines and tumors. This bimodal pattern of regulation suggests an important function for S100A2 in keratinocyte differentiation and carcinogenesis. Taking the biochemical approach to the determination of S100A2 function, we have characterized its physical state and subcellular localization in normal human keratinocytes. S100A2 in hypotonic lysates remained soluble after centrifugation at 100 000 x g, indicating that it is not associated with cell membranes. Permeabilization experiments confirmed the lack of membrane association and revealed a digitonin-insoluble nuclear fraction of S100A2, which was confirmed by immunofluorescence microscopy. Pulldown assays of epitope-tagged S100A2 and yeast two-hybrid screening revealed that S100A2 displays a strong propensity to homodimerize. Naturally expressed S100A2 dimers in normal human keratinocytes readily underwent intermolecular disulfide cross-linking unless a strong denaturant was present during cell lysis. Treatment of intact normal human keratinocytes with hydrogen peroxide strongly promoted S100A2 cross-linking. These results demonstrate that native S100A2 is a homodimer that does not depend on disulfide cross-linking for stability, but undergoes intermolecular cross-linking at cysteine residues in response to oxidative stress. Based on these findings, we propose that S100A2 may protect normal keratinocytes against carcinogens by participating in the cellular proof-reading response to oxidative stress.
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PMID:Biochemical characterization of S100A2 in human keratinocytes: subcellular localization, dimerization, and oxidative cross-linking. 1095 Dec 87

CHOP/GADD153 is both an activating and repressing transcription factor that is markedly induced in response to a variety of cellular stresses. The CHOP/GADD153 gene was originally cloned because of its inducibility by ultraviolet light wavelength band C (UVC) and has since been found to be activated in response to many different cellular stresses. Some of the recent studies have questioned the UVC responsiveness of the CHOP gene. Contradiction in our own data led us to reexamine the UVC effects on CHOP expression. UVC is capable of strongly activating the mouse CHOP promoter in stably transfected NIH 3T3 cells but has only a modest and transient effect on the level of the CHOP messenger RNA. In addition to its positive effect on CHOP promoter activity, we show that UVC negatively affects CHOP mRNA and protein expression. Pretreatment of NIH 3T3 cells with UVC markedly attenuates the subsequent induction of CHOP mRNA by the cellular stress activators methylmethane sulfate, tunicamycin, glucose deprivation, and methionine deprivation for as long as at least 16 h. This inhibitory effect of UVC on CHOP expression in response to stress is independent of the presence or absence of p53 and does not involve mRNA degradation as opposed to the UVC effect that inhibits p21 expression seen only in the absence of p53. The target of the inhibitory effect of UVC on CHOP expression is located in the first exon of the gene, a 5'-untranslated region that is unusually conserved between different species. These findings suggest that an unknown function encoded by the 5'-untranslated region somehow modifies the response of CHOP gene transcription to UVC.
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PMID:CHOP/GADD153 gene expression response to cellular stresses inhibited by prior exposure to ultraviolet light wavelength band C (UVC). Inhibitory sequence mediating the UVC response localized to exon 1. 1101 Sep 73

Kruppel-like factor 6 (KLF6) is a zinc finger transcription factor of unknown function. Here, we show that the KLF6 gene is mutated in a subset of human prostate cancer. Loss-of-heterozygosity analysis revealed that one KLF6 allele is deleted in 77% (17 of 22) of primary prostate tumors. Sequence analysis of the retained KLF6 allele revealed mutations in 71% of these tumors. Functional studies confirm that whereas wild-type KLF6 up-regulates p21 (WAF1/CIP1) in a p53-independent manner and significantly reduces cell proliferation, tumor-derived KLF6 mutants do not. Our data suggest that KLF6 is a tumor suppressor gene involved in human prostate cancer.
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PMID:KLF6, a candidate tumor suppressor gene mutated in prostate cancer. 1175 79

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