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)

Chronic incubation of cultured renal tubular epithelial cells in acid medium causes an increase in Na/H antiporter activity that persists after removal from acid, is dependent on protein synthesis, and is associated with an increase in Na/H antiporter mRNA. Chronic activation of protein kinase C has similar effects in these cells. The present studies examined the role of protein kinase C in the effect of acid incubation. Incubation of MCT cells in acid for 24 h caused a 50% increase in Na/H antiporter activity. This was prevented by inhibition of protein kinase C, either with sphingosine or by protein kinase C downregulation. Pertussis toxin pretreatment did not prevent the increase in antiporter activity. Acid incubation caused an increase in transcription factor AP-1 activity, as shown by an increase in expression from a reporter gene containing six tandem AP-1 binding sites. This was associated with transient increases in c-fos and c-jun mRNAs. This response is typical of that for gene activation by protein kinase C. These studies demonstrate that acid activation of the Na/H antiporter requires protein kinase C and is associated with c-fos and c-jun expression and increased AP-1 activity.
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PMID:Role of protein kinase C and transcription factor AP-1 in the acid-induced increase in Na/H antiporter activity. 131 56

In cells, stimulation of protein kinase C (PKC) results in the dephosphorylation of specific residues proximal to the DNA binding domain of c-Jun, a major component of the AP-1 transcription factor. Since phosphorylation of this region of c-Jun inhibits interaction with DNA, this pathway may contribute to PKC activation of AP-1. To determine the mechanism(s) underlying this pathway, possible interactions between PKC and proteins implicated in c-Jun regulation are being investigated. Here it is shown that glycogen synthase kinase-3 beta (GSK-3 beta), a serine/threonine kinase that specifically targets the inhibitory c-Jun phosphorylation sites, is phosphorylated in vitro by particular forms of PKC (alpha, beta 1, gamma greater than beta 2; not epsilon). By contrast, the related GSK-3 alpha is not a substrate for any of these PKC isotypes. Phosphorylation of GSK-3 beta by PKC results in its specific inactivation. These results are consistent with a model in which activation of PKC stimulates c-Jun DNA binding by inhibiting its phosphorylation by GSK-3 beta.
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PMID:Differential regulation of glycogen synthase kinase-3 beta by protein kinase C isotypes. 132 14

The addition of phorbol esters to U937 leukemic cells stimulates the phosphorylation of c-Jun on serines 63 and 73. To isolate the protein kinase which stimulates this phosphorylation, we have used heparin-Sepharose chromatography followed by affinity chromatography over glutathione-Sepharose beads bound with a fusion protein of glutathione S-transferase and amino acids 5-89 of c-Jun (GST-c-Jun). Using this procedure we purify a 67-kDa protein which is capable of phosphorylating GST-c-Jun as well as the complete c-Jun protein. By making mutations in serines 63 and 73 and then creating a fusion protein with GST (GST-c-Jun mut), we demonstrate that this protein kinase specifically phosphorylates these sites in the c-Jun amino terminus. Treatment of purified c-Jun amino-terminal protein kinase (cJAT-PK) with phosphatase 2A inhibits its ability to phosphorylate GST-c-Jun. This inactivated enzyme can be reactivated by phosphorylation with protein kinase C (PKC), although PKC is not capable of phosphorylating the GST-c-Jun substrate. Because v-Jun cannot be phosphorylated in vivo, we compared the ability of cJAT-PK to bind to GST-v-Jun or GST-c-Jun mut. The cJAT-PK bound 50-fold better to GST-c-Jun mut than GST-v-Jun suggesting that the delta domain which is missing in v-Jun plays a role in binding the cJAT-PK. These results suggest that there is a protein kinase cascade mediated by protein phosphatases and PKC which regulates c-Jun phosphorylation.
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PMID:Affinity-purified c-Jun amino-terminal protein kinase requires serine/threonine phosphorylation for activity. 132 19

Activation of either muscarinic cholinergic or thrombin receptors increases phosphoinositide turnover, Ca2+ mobilization, and redistribution of protein kinase C and induces rapid transient increases in c-fos mRNA and c-jun mRNA in 1321N1 cells. To determine whether the increases in c-fos and c-jun mRNA induced by carbachol and thrombin are sufficient to stimulate AP-1-mediated transactivation, 1321N1 cells were transfected with a reporter carrying two copies of the tetradecanoyl phorbol acetate response element and the firefly luciferase gene. Thrombin was significantly more effective than carbachol at stimulating AP-1-mediated transactivation. To identify the factors underlying the difference in AP-1 activity induced by carbachol and thrombin, members of the fos and jun families which encode components of AP-1 were examined. Carbachol and thrombin have similar effects on expression of c-fos, fosB, fra-2, junB, and junD, both acutely and over a 24-h time course. However, whereas carbachol leads only to transient induction of c-jun (maximal at 0.5 h), thrombin induces a biphasic increase in c-jun mRNA--an initial peak at 0.5 h and a second, more-prolonged increase at 12 h. Thrombin but not carbachol also induces a late increase in fra-1 mRNA, which peaks at 12 h. The secondary increase in c-jun mRNA is associated with marked increases in c-Jun protein levels and AP-1 DNA-binding activity. The late induction of c-jun and fra-1 mRNA can be prevented by adding the antagonist hirudin 30 min after thrombin, which results in loss of thrombin-stimulated increases in c-Jun protein, AP-1 DNA-binding activity, and AP-1-mediated transactivation. These findings suggest that rapid and transient conduction of c-fos and c-jun mRNA is insufficient to induce prominent changes in gene transcription, while the sustained increase in c-jun mRNA and perhaps the late induction of fra-1 mRNA are required for generation of AP-1 DNA-binding activity and transactivation through AP-1.
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PMID:Biphasic increase in c-jun mRNA is required for induction of AP-1-mediated gene transcription: differential effects of muscarinic and thrombin receptor activation. 132 61

The product of the c-jun proto-oncogene is the major component of the 12-O-tetradecanoyl phorbol 13-acetate (TPA)-inducible transcription factor AP-1. Jun binds to the TPA-responsive elements (TREs) present in a large number of TPA-inducible genes, thereby regulating their expression in response to activation of protein kinase C. Previously we have shown that Jun/AP-1 can also activate cAMP-responsive elements (CREs), indicating the existence of cross-talk in signal transduction at the transcriptional level. Here we show that Jun/AP-1 is activated by the cAMP-dependent protein kinase A (PKA). In transient transfection experiments, TRE activation by Jun is strongly enhanced by co-transfection of the catalytic subunit of PKA or forskolin treatment, although not in all cell types studied. Jun activity can be significantly inhibited by co-transfection of the regulatory subunit of PKA. Furthermore, we show a cell-specific increase in AP-1 binding in response to forskolin treatment. However, since direct phosphorylation of Jun by PKA does not occur, we suggest an indirect activation mechanism.
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PMID:Activation of Jun/AP-1 by protein kinase A. 133 36

Calpain, an inactive proenzyme, translocates from the cytosol to the membrane upon binding calcium, and is activated at the membrane in the presence of calcium and PIP2. Activated calpain is very unstable and presumably used only once. Thus the primary targets of calpain are considered to be membrane or membrane-associated proteins. Activation of protein kinase C (PKC) occurs concomitantly with calpain at the membrane. Calpain hydrolyzes only the active PKC species leading to downregulation. Calpain participates in the transcriptional regulation by controlling the levels of transcription factors, c-Jun and c-Fos. The calpain gene is a TPA-responsive gene and its expression is stimulated by activation of PKC. Modulation of cellular signal transduction by controlling the levels of the component proteins, such as PKC, c-Jun and c-Fos is one of the important physiological roles of calpain.
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PMID:Modulation of cellular signals by calpain. 133 90

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

We have analysed the effect of mitogenic lectins on c-Fos and c-Jun protein levels as well as on activator protein-1 (AP-1) binding and enhancer activity in Jurkat T-cells. Both c-Fos and c-Jun protein levels were increased after Con A and PHA stimulation. Since T-cell stimulation increases both intracellular Ca2+ and cAMP levels and activates protein kinase C (PKC), the possible involvement of these intracellular messengers in c-Fos and c-Jun induction was tested. PMA, which directly activates PKC, mimicked the effect of the lectins on c-Fos and c-Jun, but elevation of either intracellular Ca2+ or cAMP levels had little or no effect. The mitogen-induced increase of c-Fos and c-Jun immunoreactivity was inhibited by H-7, a kinase inhibitor with relatively high specificity for PKC, and less efficiently by H-8, a structurally related kinase inhibitor less active on PKC, but more active on cyclic nucleotide-dependent kinases. Con A stimulation was found to increase both binding of AP-1 to the AP-1 consensus sequence, TRE, and AP-1 enhancer activity, in Jurkat cells. PMA was also found to increase the AP-1 enhancer activity, whereas elevation of Ca2+ or cAMP had only minor effects. We conclude that stimulation with mitogenic lectins is sufficient to increase both c-Fos and c-Jun protein levels, AP-1 binding and AP-1 enhancer activity in Jurkat cells and that they act via mechanisms that could involve the activation of PKC.
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PMID:Mitogen stimulation of T-cells increases c-Fos and c-Jun protein levels, AP-1 binding and AP-1 transcriptional activity. 151 Aug 78

A cultured myocardial cell model was used to examine the role of protein kinase C-dependent pathways in the transcriptional activation of two cardiac muscle genes [myosin light chain 2 (MLC-2) and atrial natriuretic factor (ANF)] during alpha-adrenergic receptor-mediated hypertrophy. Phorbol ester (phorbol 12-myristate 13-acetate) and the alpha-adrenergic agonist phenylephrine both activate protein kinase C (PKC) and induce 4- to 5-fold increases in the expression of MLC-2 and ANF promoter/luciferase reporter genes with little effect on Rous sarcoma virus/luciferase or minimal prolactin promoter/luciferase genes. To further assess the role of PKC in cardiac gene regulation, PKC expression vectors encoding constitutively activated PKC-alpha or PKC-beta, or a catalytically inactive PKC, were transiently cotransfected with the cardiac promoter/luciferase constructs. Cotransfection of either activated PKC-alpha or PKC-beta cDNA induces the expression of MLC-2 and ANF promoter/luciferase genes and of a reporter gene responsive to the transcription factor AP-1. The Rous sarcoma virus/luciferase and minimal prolactin promoter/luciferase genes are not concomitantly induced by cotransfectin with the PKC genes, indicating specificity of the transcriptional effect. The finding that activated PKC increases cardiac gene transcription suggests that activation of this enzyme may be a proximal signal for coregulation of two cardiac genes, MLC-2 and ANF, during the course of myocardial cell hypertrophy.
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PMID:Transcriptional activation of the cardiac myosin light chain 2 and atrial natriuretic factor genes by protein kinase C in neonatal rat ventricular myocytes. 153 37

The transcription factor AP-1 is phorbol ester-regulated and, as such, is considered to be a nuclear target of the signal transduction pathway involving protein kinase C. AP-1 is constituted by the various products of the jun and fos gene family members. These genes belong to the early response class and are inducible in different ways by growth factors, phorbol esters and depolarization. We studied the transcript distribution of c-jun, junB and junD in the rat brain. Our results show that the transcripts for these three genes are differentially distributed in various neuronal tissues. We also provide evidence for developmentally regulated expression of jun genes in post-natal brain. The spatiotemporal pattern of expression of c-jun, junB and junD offers clues to the understanding of the links between gene regulation and neuronal processes.
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PMID:Differential expression of the jun family members in rat brain. 171 62

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