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)

Rat 1a fibroblasts transformed by the Gi2 oncogene, gip2, exhibit a constitutively elevated mitogen-activated protein (MAP) kinase activity that correlates with enhanced tyrosine phosphorylation of the p42 MAP kinase polypeptide. The MAP kinase activity in gip2 transformed cells is 50-60% of the pertussis toxin-sensitive, thrombin-stimulated activity observed in wild-type Rat 1a cells. A similar activation of MAP kinase is observed in src but not ras or raf transformed Rat 1a cells, indicating that the persistent MAP kinase activity results from the action of the specific oncoprotein and is not the consequence of cellular transformation. The enhanced transactivation function of c-Jun characteristic of the transformed phenotype, measured using a collagenase promoter-CAT reporter gene, is observed in gip2, src, ras, and raf transformed Rat 1a cells. The regulatory networks controlled by the four transforming oncogenes therefore alter the activity of specific transcription factors, but only gip2 and src constitutively activate MAP kinase. The findings demonstrate that the catalytic activity of growth factor-regulated cytoplasmic kinases are selectively and stably activated as a consequence of specific oncogene expression.
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PMID:MAP kinase is constitutively activated in gip2 and src transformed rat 1a fibroblasts. 131 14

Transcription factor AP-1 is constituted by the various products of the fos and jun proto-oncogene family members, which associate as dimers to bind with variable efficiency to 12-O-tetradecanoyl phorbol 13-acetate (TPA)-responsive promoter elements (TREs). We have recently shown that DNA binding of AP-1 is regulated by an inhibitory protein, IP-1, whose activity is modulated by phosphorylation. Here it is shown that although AP-1 has a very high affinity for its recognition sequence, its binding to the TRE can be quickly inhibited by the addition of IP-1. IP-1 is more active on AP-1 complexes formed during a shorter period of time. IP-1 activity is blocked by stimulation of the protein kinase C (PKC) signal transduction pathway, achieved by treating HeLa cells with phorbol esters or with a diacylglycerol analog. We observed an increase in AP-1-DNA binding after treatment of the cells with either the calcium ionophore A-23187 or dibutyryl cAMP; this could be ascribed to inhibition of IP-1 activity. A decreased IP-1 activity also correlates with the increase in AP-1-DNA binding after stimulating cells with serum. This suggests that IP-1 is an important target of the various signal transduction pathways. No effect on AP-1 and IP-1 was detected in cells transformed by Ki-ras or v-raf; nor could an effect of inhibition of protein synthesis be observed. We also analysed IP-1 regulation upon differentiation of P19 embryonal carcinoma cells by retinoic acid. We conclude that IP-1 regulation has a pivotal role in the final modulation of Fos-Jun by signal transduction pathways.
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PMID:AP-1 (Fos-Jun) regulation by IP-1: effect of signal transduction pathways and cell growth. 143 49

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

Transcription factor c-Jun appears to be a nuclear target of the Ras-induced signal transduction pathway. In fact, some experiments show that transforming forms of the Ras protein cooperate with Jun in transcriptional activation mediated by an AP-1 site and others indicate that the two oncoproteins cooperate in cellular transformation. Although it is likely that intracellular signaling systems activated by Ras might act directly on c-Jun by inducing specific phosphorylation, it is unclear how c-Jun participates in the transformation process. Here, we present results obtained with a LexA-Jun zipper fusion that lacks both the transcriptional activation domains and the basic region of the DNA-binding domain of c-Jun and contains only the intact leucine-zipper domain. This fusion product has a dominant negative effect on the transcriptional activation elicited by phorbol esters, c-Jun, c-Fos, Ras and E1A on an AP-1-responsive site. An analogous LexA-Fos zipper fusion has similar effects on transcriptional induction. The LexA-Jun zipper fusion acts further as a transformation suppressor, since it causes the generation of nontransformed revertants of ras-transformed cells. This effect is likely to be elicited by the dimerization potential of the Jun leucine zipper trapping cellular Jun and/or Fos in a protein complex unable to bind to DNA. These data implicate further that Ras-mediated transformation involves functional transcription factor AP-1 and that it is possible to interfere with cell transformation by interfering simply with the dimerization of transcription factors involved in the transformation process.
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PMID:Transformation and transactivation suppressor activity of the c-Jun leucine zipper fused to a bacterial repressor. 158 58

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

The AP-1 family of transcription factors, which includes the proto-oncogene products c-Jun and c-Fos, controls the stimulation of cellular genes by growth factors and the expression of oncogenes, including src and ras. Transcriptional activation by c-Jun is regulated by a cell-type-specific inhibitor that represses the activity of a transcriptional activation domain (A1) of c-Jun by operating through the adjacent negative regulatory region (delta). Here we show that cotransfection of the src or ras oncogene enhances the transcriptional activity of a GAL4:c-Jun hybrid that includes the delta-A1 region of c-Jun, suggesting that the DNA binding and dimerization domain of c-Jun is not required for stimulation by Src or Ras. Moreover, induction of c-Jun activity by Src and Ras occurs in cell lines containing the c-Jun inhibitor but not in a cell line lacking it. The region in c-Jun essential for the stimulatory action of these oncogenes maps to domain A1. These findings suggest the existence of signal-transduction pathways that result in an increase in transcriptional activity of c-Jun and AP-1 by disrupting the c-Jun:inhibitor interaction.
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PMID:v-Src and EJ Ras alleviate repression of c-Jun by a cell-specific inhibitor. 190 40

The oncoprotein c-Jun is thought to be a mediator of ras transformation as both its synthesis and activity as a transcription factor are stimulated by ras expression. But c-Jun co-operates with ras in transformation assays, suggesting that they act along different pathways (reviewed in ref. 4). Here we show by means of a dominant-negative mutated transcription factor that c-Jun potentially in conjunction with other factors that interact with it is necessary for transformation by ras. The mutant Jun lacks an activation domain and blocks stimulation of transcription by several oncoproteins, including Ras, v-Src, polyoma middle T, c-Jun and c-Fos, as well as by the tumour promoter 12-O-tetradecanoylphorbol-13-acetate (TPA). The inhibition is specific for motifs that bind Jun: activation of an NF-kappa B/Rel motif is not affected. This Jun mutant acts as an anti-oncogene in ras-transformed cells, generating non-transformed revertants that have acquired anchorage and density-dependent growth, as well as reduced tumorigenicity in vivo. Mutants of other transcription factors designed to inhibit transformation will enable us to study their role in signal transduction.
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PMID:Transformation suppressor activity of a Jun transcription factor lacking its activation domain. 190 19

The leucine zipper motif has been observed in a number of proteins thought to function as eucaryotic transcription factors. Mutation of the leucine zipper interferes with protein dimerization and DNA binding. We examined the effect of point mutations in the leucine zipper of c-Myc on its ability to dimerize in vitro and to inhibit Friend murine erythroleukemia (F-MEL) differentiation. Glutaraldehyde cross-linking studies failed to provide evidence for homodimerization of in vitro-synthesized c-Myc protein, although it was readily demonstrated for c-Jun. Nevertheless, whereas transfected wild-type c-myc sequences strongly inhibited F-MEL differentiation, those with single or multiple mutations in the leucine zipper were only partially effective in this regard. Since the leucine zipper domain of c-Myc is essential for its cooperative effect in ras oncogene-mediated transformation, this study emphasizes the close relationship that exists between transformation and hematopoietic commitment and differentiation. c-Myc may produce its effects on F-MEL differentiation through leucine zipper-mediated heterodimeric associations rather than homodimeric ones.
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PMID:The leucine zipper of c-Myc is required for full inhibition of erythroleukemia differentiation. 220 13

The differentiation of both embryonal carcinoma (EC) and embryonic stem (ES) cells can be triggered in culture by exposure to retinoic acid and results in the transcriptional induction of both the endogenous mouse keratin 18 (mK18) intermediate filament gene and an experimentally introduced human keratin 18 (K18) gene as well as a variety of other markers characteristic of extraembryonic endoderm. The induction of K18 in EC cells is limited, in part, by low levels of ETS and AP-1 transcription factor activities which bind to sites within a complex enhancer element located within the first intron of K18. RNA levels of ETS-2, c-Jun, and JunB increase upon the differentiation of ES cells and correlate with increased expression of K18. Occupancy of the ETS site, detected by in vivo footprinting methods, correlates with K18 induction in ES cells. In somatic cells, the ETS and AP-1 elements mediate induction by a variety of oncogenes associated with the ras signal transduction pathway. In EC cells, in addition to the induction by these limiting transcription factors, relief from negative regulation is mediated by three silencer elements located within the first intron of the K18 gene. These silencer elements function in F9 EC cells but not their differentiated derivatives, and their activity is correlated with proteins in F9 EC nuclei which bind to the silencers and are reduced in the nuclei of differentiated F9 cells. The induction of K18, associated with the differentiation of EC cells to extraembryonic endoderm, is due to a combination of relief from negative regulation and activation by members of the ETS and AP-1 transcription factor families.
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PMID:AP-1, ETS, and transcriptional silencers regulate retinoic acid-dependent induction of keratin 18 in embryonic cells. 752 51

Using retinoic acid receptor (RAR) reporter cells specific for either RAR alpha, beta or gamma, we have identified synthetic retinoids which specifically induce transactivation by RAR beta, while antagonizing RA-induced transactivation by RAR alpha and RAR gamma. Like RA, these synthetic retinoids allow all three RAR types to repress AP1 (c-Jun/c-Fos) activity, demonstrating that the transactivation and transrepression functions of RARs can be dissociated by properly designed ligands. Using AP1 reporter cells, we also show that glucocorticoids or vitamin D3, together with either RA or these 'dissociating' synthetic retinoids, can synergistically repress phorbol ester-induced AP1 activity. RA, but not these 'dissociating' retinoids, induced transcription of an interleukin-6 promoter-based reporter gene transiently transfected into HeLa cells together with RARs. Using Ki-ras-transformed 3T3 cells as a model system, we show that both RA and the 'dissociating' retinoids inhibit anchorage-independent cell proliferation, suggesting that retinoid-induced growth inhibition may be related to AP1 transrepression.
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PMID:RAR-specific agonist/antagonists which dissociate transactivation and AP1 transrepression inhibit anchorage-independent cell proliferation. 772 Jul 9

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