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

Here we demonstrate that partially purified Xenopus p42 mitogen-activated protein (MAP) kinase phosphorylates bacterially expressed human c-Jun at a single site, serine 243. Several lines of evidence argue that this phosphorylation is due to p42 MAP kinase itself rather than some contaminating species. Phosphorylation of serine 243 markedly decreases the binding of c-Jun to oligonucleotides containing the 12-O-tetradecanoylphorbol-13-acetate response element. These findings suggest that MAP kinase may play a role in the down-regulation of c-Jun or in the cycle of transcriptional initiation and elongation.
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PMID:Inhibition of c-Jun DNA binding by mitogen-activated protein kinase. 142 69

The DNA-binding activity of c-Jun expressed in eukaryotic cells was found to be markedly enhanced if the intracellular concentration of binding sites for this transcription factor was increased by cotransfection of specific plasmid DNA. Dephosphorylation experiments, phosphate mapping studies, and mutational analysis indicate that phosphorylation of a cluster of serine and threonine residues situated in close proximity to the DNA-binding domain is responsible for the observed adaptation of c-Jun activity to the intracellular concentration of accessible target sites.
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PMID:Phosphorylation state and DNA-binding activity of c-Jun depend on the intracellular concentration of binding sites. 145 48

Exposure of mammalian cells to DNA-damaging agents induces the ultraviolet (UV) response, involving transcription factor AP-1, composed of Jun and Fos proteins. We investigated the mechanism by which UV irradiation induces the c-jun gene. The earliest detectable step was activation of Src tyrosine kinases, followed by activation of Ha-Ras and Raf-1. The response to UV was blocked by tyrosine kinase inhibitors and dominant negative mutants of v-src, Ha-ras, and raf-1. This signaling cascade leads to increased phosphorylation of c-Jun on two serine residues that potentiate its activity. These results strongly suggest that the UV response is initiated at or near the plasma membrane rather than the nucleus. The response may be elicited by oxidative stress, because it is inhibited by elevation of intracellular glutathione. Using tyrosine kinase inhibitors, we demonstrate that the UV response has a protective function.
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PMID:The mammalian ultraviolet response is triggered by activation of Src tyrosine kinases. 147 46

Phorbol ester tumor promoters activate gene transcription by regulating both the synthesis and posttranslational modification of the activator protein 1 (AP-1) transcription factor, c-Jun and JunB are components of the mammalian AP-1 complex. Here we demonstrate that in U-937 human leukemic cells, phorbol esters stimulate the phosphorylation of the amino terminus of human c-Jun (JUN) but not human JunB (JUNB). Mutational analysis indicates that serine-63 and -73, which reside within the putative regulatory domain of JUN, are required for both constitutive and phorbol 12-myristate 13-acetate-inducible N-terminal JUN phosphorylation. To determine the functional role of this N-terminal phosphorylation, we prepared several chimeric proteins containing the N-terminal 84 amino acids (positions 5-89) of human JUN or murine JUNB fused to the yeast GAL4 DNA-binding domain. This region was found to be sufficient for the phorbol ester-inducible transcriptional activity of JUN, but not JUNB. This induction was abolished by the mutation of serine-63 and -73 to leucine residues. Thus, we propose that phorbol esters enhance the trans-activation potential of JUN, but not JUNB, by the phosphorylation of the N-terminal regulatory domain of JUN.
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PMID:Phorbol ester-induced amino-terminal phosphorylation of human JUN but not JUNB regulates transcriptional activation. 149 19

In conclusion, a multigene family (ERK) encoding protein kinases that have the capacity to convert tyrosine kinase signals to serine/threonine phosphorylation signals has been identified in animal and yeast cells. Protein kinases from this family have been shown to be phosphorylated on tyrosine and threonine in response to mitogens, as well as to have the capacity to autophosphorylate on these amino acid residues. In contrast, they apparently phosphorylate exogenous substrates on serine and/or threonine. Studies with cultured cells, Xenopus, and sea star oocytes have furthered our understanding of possible functions of Erks in vivo. These enzymes respond immediately to extracellular signals and are involved in G0-G1 transition (cultured cells), as well as in the M phase of oocyte maturation (Xenopus and sea star oocytes). Their usage of MAPs as substrates in vivo suggests a possible role of Erks in microtubule reorganization. ERK-encoded protein kinases use c-Jun, EGF receptor, and Raf-1 as potential substrates and can also reactivate dephosphorylated S6 kinase in vitro. Taken together, these data suggest that these enzymes play an important role in relaying the mitogenic signal by phosphorylating down-stream kinases and specific transcriptional factors, as well as having possible feedback function in the process of signal transduction. The results from the study of the yeast enzymes are pertinent to Erk activation in cells with nonmitogenic responses described above. In such cases, Erk protein kinases may act directly or indirectly on cyclins to arrest division and permit differentiation. The pathways influenced by ERK-like gene products in animal and yeast cells suggest that, depending on the downstream targets of substrates, transcriptional changes in a particular cell may occur to drive the cell cycle or, alternatively, withdrawal from the cell cycle may lead to specific differentiation events.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Erks: their fifteen minutes has arrived. 150 18

We demonstrate that members of the erk-encoded family of mitogen-activated protein (MAP) kinases (pp44/42mapk/erk) and members of the rsk-encoded protein kinases (RSKs or pp90rsk) are present in the cytoplasm and nucleus of HeLa cells. Addition of growth factors to serum-deprived cells results in increased tyrosine and threonine phosphorylation and in the activation of cytosolic and nuclear MAP kinases. Activated MAP kinases then phosphorylate (serine/threonine) and activate RSKs. Concurrently, a fraction of the activated MAP kinases and RSKs enter the nucleus. In addition, a distinct growth-regulated RSK-kinase activity (an enzyme[s] that phosphorylates recombinant RSK in vitro and that may be another member of the erk-encoded family of MAP kinases) was found associated with a postnuclear membrane fraction. Regulation of nuclear MAP kinase and RSK activities by growth factors and phorbol ester is coordinate with immediate-early gene expression. Indeed, in vitro, MAP kinase and/or RSK phosphorylates histone H3 and the recombinant c-Fos and c-Jun polypeptides, transcription factors phosphorylated in a variety of cells in response to growth stimuli. These in vitro studies raise the possibility that the MAP kinase/RSK signal transduction pathway represents a protein-Tyr/Ser/Thr phosphorylation cascade with the spatial distribution and temporal regulation that can account for the rapid transmission of growth-regulating information from the membrane, through the cytoplasm, and to the nucleus.
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PMID:Nuclear localization and regulation of erk- and rsk-encoded protein kinases. 154 23

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

fra-1 encodes a serum-inducible protein (Fra-1) that is antigenically related to Fos. We have characterized Fra-1 expression in serum-stimulated cells using antibodies raised against several regions of this protein. Fra-1, expressed transiently in COS cells or in serum-stimulated rat fibroblasts, undergoes extensive post-translational modification, primarily by phosphorylation of serine residues. It is present in both the nucleus and the cytoplasm and participates in a protein complex with Jun. Using proteins synthesized in reticulocyte lysates, we have shown that Fra-1, like Fos, binds to the AP-1 recognition element cooperatively with Jun. A truncated Fra-1 protein that contains the leucine zipper region but not an adjacent basic amino acid domain, complexes with Jun in vitro but fails to bind AP-1 oligonucleotides. These results demonstrate that Fra-1 contributes to the DNA-binding activity ascribed to transcription factor AP-1.
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PMID:The product of a fos-related gene, fra-1, binds cooperatively to the AP-1 site with Jun: transcription factor AP-1 is comprised of multiple protein complexes. 249 53

In differentiated 3T3-F442A adipocytes, insulin stimulated rapid and transient phosphorylation of c-Jun. Insulin also stimulated phosphorylation of c-Fos and several Fos-related proteins (pp72, pp45, and pp39) as indicated by precipitation with anti-c-Fos antibody following exposure to denaturating conditions. Phosphorylation of c-Fos was stimulated by 7-fold by 60 min, while phosphorylation of Fos-related proteins reached maxima of 3.5-5.5-fold at 15 to 60 min. The increase in phosphorylated c-Fos was due to an increase in both c-Fos protein and the stoichiometry of c-Fos phosphorylation, and was not observed in c-fos (-/-) cells. Additionally, insulin stimulated phosphorylation of a protein with molecular mass of approximately 82 kDa on tyrosine residues by 2.5-fold within 30 min; this protein appeared to be immunologically related to c-Fos. These increases in the phosphorylation of AP-1 transcription factors correlated with a > 5-fold stimulation of expression of a 12-O-tetradecanoylphorbol-13-acetate-responsive element-chloramphenicol acetyltransferase reporter gene transiently transfected into 3T3-F442A cells. These results indicate that insulin stimulates the phosphorylation of AP-1 transcription factors and several Fos-related proteins on serine and tyrosine residues. This is associated with changes in AP-1-mediated gene expression in vivo, suggesting that AP-1 phosphorylation by insulin plays a role in insulin-regulated gene expression.
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PMID:Insulin stimulates phosphorylation of c-Jun, c-Fos, and Fos-related proteins in cultured adipocytes. 751 56

The DNA-binding activity of c-Jun is determined by the phosphorylation state of a cluster of threonine and serine residues located near its COOH-terminus. We have analyzed the events that lead to c-Jun activation via dephosphorylation of these sites in response to phorbol esters. Our results indicate that COOH-terminal dephosphorylation is an indirect consequence of a separate phosphorylation event targeted to the NH2-terminus of c-Jun. Thus, the activation of c-Jun DNA-binding potential, caused by COOH-terminal dephosphorylation, may not require the regulation of the kinase/phosphatase system that brings about this change, but rather an alteration in the accessibility of the COOH-terminal phosphoacceptor sites of c-Jun.
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PMID:Intramolecular signal transduction in c-Jun. 774 8


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