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 constitutively active fragment of rat MEK kinase 1 (MEKK1) consisting of only its catalytic domain (MEKK-C) expressed in bacteria quantitatively activates recombinant mitogen-activated protein (MAP) kinase/extracellular signal-regulated protein kinase (ERK) kinases 1 and 2 (MEK1 and MEK2) in vitro. Activation of MEK1 by MEKK-C is accompanied by phosphorylation of S218 and S222, which are also phosphorylated by the protein kinases c-Mos and Raf-1. MEKK1 has been implicated in regulation of a parallel but distinct cascade that leads to phosphorylation of N-terminal sites on c-Jun; thus, its role in the MAP kinase pathway has been questioned. However, in addition to its capacity to phosphorylate MEK1 in vitro, MEKK-C interacts with MEK1 in the two-hybrid system, and expression of mouse MEKK1 or MEKK-C in mammalian cells causes constitutive activation of both MEK1 and MEK2. Neither cotransfected nor endogenous ERK2 is highly activated by MEKK1 compared to its stimulation by epidermal growth factor in spite of significant activation of endogenous MEK. Thus, other as yet undefined mechanisms may be involved in determining information flow through the MAP kinase and related pathways.
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PMID:MEKK1 phosphorylates MEK1 and MEK2 but does not cause activation of mitogen-activated protein kinase. 762 24

Irradiation of mammalian cells with short wavelength ultraviolet light (UVC) evokes a cascade of phosphorylation events leading to altered gene expression. Both the classic mitogen-activated protein (MAP) kinases and the distantly related c-Jun N-terminal kinases (JNK) contribute to the response via phosphorylation of transcription factors including AP-1. These kinases are themselves regulated via reversible phosphorylation, and several recently identified specific MAP kinase phosphatases (MKP) have been implicated in down-regulating MAP kinase-dependent gene expression in response to mitogens. Here, we provide evidence that MKP-1 plays a role in regulating transcriptional activation in response to UVC as well as another genotoxic agent, methyl methanesulfonate (MMS). We further demonstrate that JNK is a likely target for MKP-1. JNK is shown to be activated by UVC and MMS treatment, while MAP kinase activation occurs only with UVC. Like JNK activation, MKP-1 mRNA is induced by both treatments, and elevated MKP-1 expression coincides with a decline in JNK activity. Constitutive expression of MKP-1 in vivo inhibits JNK activity and reduces UVC- and MMS-induced activation of AP-1-dependent reporter genes.
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PMID:Role of mitogen-activated protein kinase phosphatase during the cellular response to genotoxic stress. Inhibition of c-Jun N-terminal kinase activity and AP-1-dependent gene activation. 772 28

Mammalian mitogen-activated protein (MAP) kinases include extracellular signal-regulated protein kinase (ERK), c-Jun amino-terminal kinase (JNK), and p38 subgroups. These MAP kinase isoforms are activated by dual phosphorylation on threonine and tyrosine. Two human MAP kinase kinases (MKK3 and MKK4) were cloned that phosphorylate and activate p38 MAP kinase. These MKK isoforms did not activate the ERK subgroup of MAP kinases, but MKK4 did activate JNK. These data demonstrate that the activators of p38 (MKK3 and MKK4), JNK (MKK4), and ERK (MEK1 and MEK2) define independent MAP kinase signal transduction pathways.
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PMID:Independent human MAP-kinase signal transduction pathways defined by MEK and MKK isoforms. 783 44

c-Mil is the avian homologue of the mammalian serine/threonine kinase c-Raf-1. c-Mil/Raf is a mediator of signal transduction leading to gene expression via the c-Jun DNA-binding site, AP-1. Here we show that c-Mil immunopurified from MC29-virus-transformed quail fibroblasts phosphorylates c-Jun in vitro near its N terminus (Ser-63 and -73). Furthermore, the viral oncogene product Gag-Mil of the avian wild-type retrovirus MH2 phosphorylates c-Jun in vitro. A contribution by other known kinases phosphorylating c-Jun, such as the mitogen-activated protein kinases (MAPKs) and the c-Jun N-terminal kinases, was excluded by control reactions. c-Raf-1 and c-Jun directly interact in vitro as shown by various immobilized glutathione S-transferase-Raf fusion proteins which specify the cysteine-rich region of c-Mil/Raf as the major N-terminal binding site. An additional minor binding site is located in the C-terminal region. The biological relevance of these results is demonstrated by coimmunoprecipitation of c-Jun and c-Mil from 32P-labeled MC29- and MH2-transformed fibroblasts as well as normal quail embryo fibroblasts, whereby c-Jun was identified by tryptic phosphopeptide analysis. The complexed c-Jun exhibits a decreased electrophoretic mobility corresponding to a more highly phosphorylated state. Cell fractionation analyses indicate that the c-Mil/c-Jun complex is located in the cytoplasm. The data demonstrate that c-Jun can be a direct target of the protein kinase c-Mil/Raf, suggesting an alternative pathway, which leads to c-Jun phosphorylation independent of the MAPKs and MAPK-related proteins.
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PMID:Direct interaction and N-terminal phosphorylation of c-Jun by c-Mil/Raf. 787 94

The p53 tumor suppressor protein is thought to play a major role in the defense of the cell against agents that damage DNA. In this report, we describe the identification and characterization of a protein kinase that phosphorylates mouse p53 at a single site, serine 34, a major site of phosphorylation in the cell. The protein kinase is activated strikingly following treatment of cells with ultraviolet radiation, has a native molecular weight of approximately 45,000, and can be resolved from mitogen-activated protein (MAP) kinase by chromatography on Superose 6 and DEAE-cellulose. The p53 kinase activity co-purifies with UV-activated c-Jun kinase activity on heparin-Sepharose and on a c-Jun (but not a v-Jun-) affinity column. Treatment of the partially purified kinase with CL100, a protein phosphatase that specifically dephosphorylates MAP kinase homologues, inhibits its activity. Taken together, the data suggest that this p53 kinase is likely to be activated by phosphorylation and may be a member of the stress-activated protein kinase subfamily of MAP kinases. UV irradiation of SV3T3 cells leads to increased phosphorylation of p53 at serine 34, indicating that phosphorylation of p53 by this kinase is likely to be physiological. Phosphorylation of p53 by this protein kinase may be a key event in a signal transduction mechanism that coordinately controls key nuclear proteins in response to oxidative stress or DNA damaging agents.
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PMID:p53 is phosphorylated in vitro and in vivo by an ultraviolet radiation-induced protein kinase characteristic of the c-Jun kinase, JNK1. 789 Jun 69

The expression of human muscarinic acetylcholine receptors (mAChRs) in NIH 3T3 cells has been used as a model for studying proliferative signaling through G protein-coupled receptors. In this biological system, the m1 class of mAChRs can effectively transduce mitogenic signals (Stephens, E.V., Kalinec, G., Brann, M.R., and Gutkind, J.S. (1993) Oncogene 8, 19-26) and induce malignant transformation if persistently activated (Gutkind, J.S., Novotny, E.A., Brann, M.R., and Robbins, K.C. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 4703-4708). Moreover, available evidence suggests that the m1-signaling pathway converges at the level of p21ras with that emerging from tyrosine kinase receptors (Crespo, P., Xu, N., Simonds, W.F., and Gutkind, J.S. (1994) Nature 369, 418-420). To explore nuclear events involved in growth regulation by G protein-coupled receptors in this setting, we compared the effect of platelet-derived growth factor (PDGF) and the cholinergic agonist, carbachol, on the expression of mRNA for members of the jun and fos family of nuclear proto-oncogenes. We found that activation of m1 receptors by carbachol induces the expression of a distinct set of nuclear transcription factors. In particular, carbachol caused a much greater induction of c-jun mRNA and AP-1 activity. These responses did not correlate with protein kinase C stimulation nor with the activation of mitogen-activated protein (MAP) kinases. Recently, it has been shown that a novel family of kinases structurally related to MAP kinases, stress-activated protein kinases, or Jun kinases (JNKs), phosphorylate in vivo the amino-terminal transactivating domain of the c-Jun protein, thereby increasing its transcriptional activity. In view of our results, this observation prompted us to ask whether m1 and PDGF can differentially activate JNKs. Here, we show that m1 mAChRs can induce a remarkable increase in JNK activity, which was temporally distinct from that of MAP kinase and was entirely protein kinase C independent. In contrast, PDGF failed to activate JNK in these cells, although it stimulated MAP kinase to an extent even greater than that for carbachol. These findings demonstrate that G protein-coupled receptors can signal through pathways leading to the activation of JNK, thus diverging at this level with those signaling routes utilized by tyrosine kinase receptors.
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PMID:Transforming G protein-coupled receptors potently activate JNK (SAPK). Evidence for a divergence from the tyrosine kinase signaling pathway. 789 Jun 82

The present studies have characterized the regulation of interleukin-6 (IL-6) gene expression during pokeweed mitogen (PWM)-driven human B-cell differentiation. PWM induced an early and transient increase in the expression of immediate-early response genes of the jun/fos leucine zipper family (c-jun, jun B, c-fos, and fos-B). The induction of c-jun mRNA by PWM was concentration dependent. Nuclear run-on assays showed that PWM treatment is associated with an increased rate of c-jun gene transcription. The induction of c-jun mRNA precedes the induction of IL-6 gene expression and IL-6 secretion by the B cells. c-Jun antisense, but not sense, oligodeoxynucleotide (ODN) significantly decreases PWM-related B-cell (1) proliferation; (2) IL-6 mRNA induction; (3) IL-6 secretion; and (4) nuclear extract binding to AP-1 in electrophoretic mobility shift assay. In contrast, c-Fos anti-sense ODN did not effect either IL-6 mRNA induction or IL-6 secretion triggered in B cells by PWM. The results further show activation of c-Raf-1 kinase in PWM-treated B cells. Raf-1 acts upstream to mitogen-activated protein (MAP) kinase; therefore, studies were performed to assay for MAP kinase activation in these cells. The results show an increase in phosphorylation of myelin basic protein (MBP) and c-Jun "Y" peptide in PWM-treated B cells. Taken together, these findings suggest that PWM is able to initiate an intracytoplasmic signaling cascade in normal human splenic B cells, which, at least in part, involves serine/threonine protein kinases. These results show transient induction of immediate-early response genes in B cells and support a potential role for the c-jun gene product in regulation of IL-6 transcription and secretion.
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PMID:Identification of upstream signals regulating interleukin-6 gene expression during in vitro treatment of human B cells with pokeweed mitogen. 791 42

c-Jun transcriptional activity is stimulated by phosphorylation at two N-terminal sites: Ser-63 and -73. Phosphorylation of these sites is enhanced in response to a variety of extracellular stimuli, including growth factors, cytokines, and UV irradiation. New members of the mitogen-activated protein (MAP) kinase group of signal-transducing enzymes, termed JNKs, bind to the activation domain of c-Jun and specifically phosphorylate these sites. However, the N-terminal sites of c-Jun were also suggested to be phosphorylated by two other MAP kinases, ERK1 and ERK2. Despite these reports, we find that unlike the JNKs, ERK1 and ERK2 do not phosphorylate the N-terminal sites of c-Jun in vitro; instead they phosphorylate an inhibitory C-terminal site. Furthermore, the phosphorylation of c-Jun in vivo at the N-terminal sites correlates with activation of the JNKs but not the ERKs. The ERKs are probably involved in the induction of c-fos expression and thereby contribute to the stimulation of AP-1 activity. Our study suggests that two different branches of the MAP kinase group are involved in the stimulation of AP-1 activity through two different mechanisms.
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PMID:c-Jun N-terminal phosphorylation correlates with activation of the JNK subgroup but not the ERK subgroup of mitogen-activated protein kinases. 793 87

Independent of its ability to block translation, anisomycin intrinsically initiates intracellular signals and immediate-early gene induction [L. C. Mahadevan and D. R. Edwards, Nature (London) 349:747-749, 1991]. Here, we characterize further its action as a potent, selective signalling agonist. In-gel kinase assays show that epidermal growth factor (EGF) transiently activates five kinases: the mitogen-activated protein (MAP) kinases ERK-1 and -2, and three others, p45, p55, and p80. Anisomycin, at inhibitory and subinhibitory concentrations, does not activate ERK-1 and -2 but elicits strong sustained activation of p45 and p55, which are unique in being serine kinases whose detection is enhanced with poly-Glu/Tyr or poly-Glu/Phe copolymerized in these gels. Translational arrest using emetine or puromycin does not activate p45 and p55 but does prolong EGF-stimulated ERK-1 and -2 activation. Rapamycin, which blocks anisomycin-stimulated p70/85S6k activation without affecting nuclear responses, has no effect on p45 or p55 kinase. p45 and p55 are activable by okadaic acid or UV irradiation, and both kinases phosphorylate the c-Jun NH2-terminal peptide 1-79, putatively placing them within c-Jun NH2-terminal kinase/stress-activated protein kinase (JNK/SAPK) subfamily of MAP kinases. Thus, the EGF- and anisomycin-activated kinases p45 and p55 are strongly implicated in signalling to c-fos and c-jun, whereas the MAP kinases ERK-1 and -2 are not essential for this process.
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PMID:Anisomycin-activated protein kinases p45 and p55 but not mitogen-activated protein kinases ERK-1 and -2 are implicated in the induction of c-fos and c-jun. 793 49

Tumor necrosis factor (TNF) and interleukin-1 (IL-1) are cytokines with pleiotropic biological activities, exerting a broad range of overlapping biological functions. The redundancy of TNF and IL-1 activities may be based on the utilization of shared key components of intracellular signaling pathways. Two lipid second messengers have been found to transmit TNF and IL-1 intracellular signals: 1,2-diacylglycerol (DAG), generated by a phosphatidylcholine-specific phospholipase C, and ceramide, generated by sphingomyelinase (SMase). DAG is a well established activator of the important signaling system protein kinase C (PKC), which appears to mediate various cellular responses to TNF or IL-1. In addition, it is obvious that DAG also activates other enzyme systems like acidic sphingomyelinase. SMases have been implicated in a number of TNF responses, including stimulation of cell growth and differentiation, as well as triggering cytotoxicity and apoptosis. The metabolic active cleavage product of SMase, ceramide, is a novel multifunctional lipid second messenger capable of inducing various signaling systems. Both cytokines, TNF and IL-1, stimulate a neutral,plasma membrane-associated SMase that leads to stimulation of a protein kinase and eventually to activation of the mitogen-activated protein (MAP) kinase cascade and phospholipase A2. Ceramide is also capable of stimulating a cytosolic protein phosphatase. PKC plays a role in activation of the nuclear transcription factor AP-1, and the DAG-regulated acidic SMase is involved in transducing TNF signals to the cell nucleus via activation of the nuclear transcription factor NF-kappa B.
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PMID:The role of diacylglycerol and ceramide in tumor necrosis factor and interleukin-1 signal transduction. 796 60

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