UNIPROT:P05412 - FACTA Search

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Query: UNIPROT:P05412 (c-Jun)
11,453 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A panel of epitope-specific antibodies, directed against c-Fos, c-Jun, and FosB derived oligopeptide sequences, was generated and used to study the interaction of Fos and Jun proteins and the binding of the Fos/Jun complex to the AP1-binding site (TRE). Our results strongly support results previously obtained by site-directed mutagenesis experiments. The leucine zipper is the major site of interaction between Fos and Jun. Antibodies directed against this domain of Fos bound free Fos protein efficiently, but were unable to recognize Fos within the Fos/Jun complex. In contrast, all other Fos epitope-specific antibodies showed similar reactivity with both free and complexed Fos. Antibodies directed against sequences adjacent to the leucine zipper inhibited formation of the complex. This may suggest that amino acids in the vicinity of the leucine zipper may also play some role in the formation of the protein complex. Binding of Fos/Jun to the TRE was inhibited only by antibodies directed against the basic regions in Fos or Jun previously suggested to represent the DNA binding sites. The fact that very similar results were obtained by two totally different strategies, i.e., mutagenesis experiments and domain mapping using epitope-specific antibodies, lends strong support to the proposed domain structure of Fos and Jun family members.
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PMID:Mapping of functional domains in Fos and Jun proteins using epitope-specific antibodies. 169 78

Recent advances indicate a link between tumour promoters, transformation, and AP-1 activity. Protein kinase C activation increases AP-1 DNA-binding activity independently of new protein synthesis. AP-1 is also stimulated by transforming oncoproteins and growth factors. These proteins are thought to participate in a signalling cascade affecting the nuclear AP-1 complex composed of the Jun and Fos proteins. Because c-Jun is the most potent transactivator in the AP-1 complex and is elevated in Ha-ras-transformed cells, in which c-Fos is downregulated, we focused on it as a potential target. c-Jun could convert input from an oncogenic signalling cascade into changes in gene expression. Indeed, transformation of rat embryo fibroblasts by c-Jun requires an intact transcriptional activation domain and cooperation with oncogenic Ha-ras. Expression of oncogenic Ha-ras augments transactivation by c-Jun and stimulates its phosphorylation. Here we describe the mapping of the Ha-ras-responsive phosphorylation sites to serines 63 and 73 of c-Jun. Site-directed mutagenesis indicates that phosphorylation of these serines is essential for stimulation of c-Jun activity and for cooperation with Ha-ras in ocogenic transformation.
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PMID:Oncogenic and transcriptional cooperation with Ha-Ras requires phosphorylation of c-Jun on serines 63 and 73. 174 29

Cell proliferation and phenotype of cells from female reproductive tissues are regulated by estrogens. It is therefore important to understand how estrogen action can be modulated. It recently has been reported that certain nuclear receptors can antagonize the tumor promoter 12-O-tetradeconylphorbol-13-acetate (TPA) by direct interaction with the transcription factor AP-1, and that the AP-1 constituents cJun and cFos can inhibit receptor activity. This mutual antagonism appears to be based on direct protein-protein interaction. In the human breast cancer cell line MCF-7, TPA leads to growth arrest and altered cell morphology. We have investigated here whether in MCF-7 cells and other cell lines AP-1 and estrogen receptors (ERs) can inhibit each other's activity. We find that TPA or the AP-1 components cJun and cFos can inhibit estradiol-dependent estrogen receptor activity in most cell lines investigated. In addition, ER mRNA is rapidly down-regulated in MCF-7 cells. Gel retardation experiments show that ER DNA binding is inhibited in vitro by cJun protein, while ER also can inhibit cJun DNA binding. However, in vivo we do not observe inhibition of AP-1 activity by ER in the cell lines investigated here. On the contrary, we observed an enhancing effect at low ER concentrations on AP-1. Together our data suggest a new regulatory pathway by which ER activity can be modulated by AP-1. Several mechanisms including ER-AP-1 protein interaction appear to be involved.
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PMID:Inhibition of estrogen receptor activity by the tumor promoter 12-O-tetradeconylphorbol-13-acetate: a molecular analysis. 179 43

We applied Southwestern and Western blotting and gel retardation techniques to investigate the changes that occur in the cyclic adenosine monophosphate (cAMP)-responsive element (CRE) binding (CREB) proteins in rapidly growing, chemically induced 5123tc and 5123D Morris hepatomas. Using the CRE sequences from the c-fos, E2A, and somatostatin gene promoters, we identified in the nuclear proteins from normal unstimulated or proliferating rat liver cells six different protein factors of Mr 34,000, 36,000, 40,000, 47,000, 56,000, and 72,000 capable of binding to the element. The Mr 47,000 protein had the highest specificity for the core CRE, suggesting its importance in cAMP-mediated gene expression. We could not find the Mr 47,000 CREB protein in the 5123tc and 5123D hepatomas. Our efforts to detect this protein in the tumors by (a) using the CRE sequence from different gene promoters, (b) altering the protocol for extracting nuclear proteins, or (c) attempting to restore its DNA-binding property by phosphorylation [with endogenous protein kinase(s), a catalytic subunit of cAMP-dependent protein kinase, and protein kinase C/dephosphorylation (with alkaline phosphatase)] were unsuccessful. The loss of tje Mr 47,000 CREB protein from solid tumors of the Morris hepatoma is likely to be related to the neoplastic properties of the tumor cell rather than to cell growth because the level of this protein remained unchanged during a 6-day period of liver regeneration. The nuclear extract from the Morris hepatoma that did not have the Mr 47,000 CRE-binding factor contained proteins immunologically related to the CREB, c-Jun, and c-Fos proteins. We conclude that the Mr 47,000 factor represents a distinct member of the CRE-binding protein family and that its absence from the hepatomas may lead to aberrant expression of cAMP-inducible genes.
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PMID:Changes in cyclic adenosine monophosphate-responsive element binding proteins in rat hepatomas. 182 83

We have studied interactions between bacterially produced E1A linked to Sepharose and the various DNA-binding proteins present in HeLa cell nuclear extracts (NE). DNA-binding activities and cross-reactive polypeptides recognizing the cAMP-responsive element (CRE) and the activator protein 1 (AP1) sites were bound to the E1A column, whereas nuclear factor 1 (NF1) and the activator protein 2 (AP2) DNA-binding activities were not retained by E1A. The binding activities that were retained belonged to the CRE and JUN protein family, as judged by Western blot analysis. Authentic CRE-BP1, c-Jun and c-Fos proteins produced by in-vitro translation also bound to the E1A column. However, efficient binding of in-vitro-translated CRE-BP1 and c-Fos proteins to E1A required preincubation with NE. We show here that immobilized E1A sequesters several cellular upstream transcription activators, and suggest a role for members of the AP1 family of transcription factors in E1A-mediated gene regulation.
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PMID:Interactions between adenovirus E1A and members of the AP-1 family of cellular transcription factors. 183 15

In resting human epithelial and fibroblastic cells, c-Jun is phosphorylated on serine and threonine at five sites, three of which are phosphorylated in vitro by glycogen synthase kinase 3 (GSK-3). These three sites are nested within a single tryptic peptide located just upstream of the basic region of the c-Jun DNA-binding domain (residues 227-252). Activation of protein kinase C results in rapid, site-specific dephosphorylation of c-Jun at one or more of these three sites and is coincident with increased AP-1-binding activity. Phosphorylation of recombinant human c-Jun proteins in vitro by GSK-3 decreases their DNA-binding activity. Mutation of serine 243 to phenylalanine blocks phosphorylation of all three sites in vivo and increases the inherent trans-activation ability of c-Jun at least 10-fold. We propose that c-Jun is present in resting cells in a latent, phosphorylated form that can be activated by site-specific dephosphorylation in response to protein kinase C activation.
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PMID:Activation of protein kinase C decreases phosphorylation of c-Jun at sites that negatively regulate its DNA-binding activity. 184 81

Transcription of the human vasoactive intestinal peptide (VIP) gene is regulated by both cyclic AMP and phorbol esters. A 17-nucleotide enhancer element within the human VIP gene mediates transcriptional activation by both phorbol esters and forskolin. Mutations of this element decrease responses to both agents, suggesting that the trans-acting proteins that mediate both modes of transcriptional regulation have similar DNA-binding characteristics. The response of the VIP enhancer element to forskolin, but not to 12-O-tetradecanoylphorbol-13-acetate, was attenuated by treatment with a recombinant inhibitor of the cAMP-dependent protein kinase, suggesting that the cAMP-dependent protein kinase and protein kinase C second messenger pathways that converge on this single enhancer element are distinct. The transcriptional activator cAMP-responsive element-binding (CREB) proteins and the c-fos.c-Jun complex interact with the VIP enhancer. The dual second messenger responses of the VIP gene may result from the interaction of this second messenger enhancer with different transcriptional activator proteins.
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PMID:Cyclic AMP- and phorbol ester-induced transcriptional activation are mediated by the same enhancer element in the human vasoactive intestinal peptide gene. 184 91

The c-ets protooncogenes have recently been shown to code for transcription factors that activate the oncogene responsive unit of the polyoma virus enhancer. We show that transcription of the stromelysin gene, which is highly expressed in transformed cells and tumours, is efficiently activated by c-Ets-1 and -2 through two DNA elements. The distal element is a highly conserved palindrome composed of two strong binding sites for c-Ets-1. The proximal element does not bind c-Ets-1, but may be activated indirectly by increased synthesis of c-Jun and c-Fos. Both ets responsive elements mediate activation by the oncoproteins Ha-Ras, v-Src and v-Mos. These results suggest that c-Ets participates in the mechanisms by which stromelysin gene expression is deregulated in transformed cells and tumours.
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PMID:The c-Ets oncoprotein activates the stromelysin promoter through the same elements as several non-nuclear oncoproteins. 185 Jun 95

Polyomavirus (Py) DNA replication is regulated by its enhancer, which contains an AP1 site, c-Jun and c-Fos, the products of nuclear protooncogenes c-jun and c-fos, form the heterodimeric transcriptional activating factor AP1. Overexpression of c-fos and c-jun genes strongly stimulated Py DNA replication from the Py origin of replication as well as transcription from the Py early promoter through the AP1 binding site. The cAMP response element (CRE)-binding protein CREB stimulated only transcription, not DNA replication, through the CRE under similar conditions. The results indicate that AP1 functions as a regulator of DNA replication and that the mechanism of activation of Py DNA replication by AP1 is distinct from that of activation of transcription from the Py early promoter.
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PMID:The nuclear protooncogenes c-jun and c-fos as regulators of DNA replication. 185 Aug 42

When the level of c-jun mRNA was analyzed in WI-38 human fibroblasts exciting short- and long-term quiescence, two peaks of c-jun mRNA accumulation were found. The first occurred one hour after stimulation and lasted three to five hours, whereas the second occurred at the G1/S border and was coupled to the time of entry to S phase rather than to the time of stimulation. The early peak is well documented and in agreement with the proposed role of c-Jun/AP-1 in mediating cellular responses to receptor-generated signals. The later peak, however, has not been previously reported. Additional follow-up studies showed that late G1/S expression was not solely a phenomenon of cells existing a quiescent state, nor was it restricted only to human cells. Gel retardation studies confirmed that there is AP-1 specific DNA binding activity in nuclear extracts isolated in late G1 and S phase, and that this AP-1 binding activity is due to the presence of Jun protein. An anti-Fos antibody was able to significantly decrease AB-1 binding activity in early G1 extracts, but had no effect on extracts isolated in late G1 and S phase, indicating that the complexes observed in late G1 and S phase are clearly different from those seen in early G1. These studies are among the first to suggest a functional dissociation of c-Jun from c-Fos. Our results identify a new, previously unreported role for c-Jun/AP-1 in regulation of cell cycle progression and mammalian cell growth.
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PMID:A potential role for c-jun in cell cycle progression through late G1 and S. 190 Mar 57

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