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

The product of the jun proto-oncogene has been identified as one form of the transcription factor AP-1. The p55fos protein associates with jun/AP-1 by means of a heterodimer which requires intact 'leucine zipper' domains of both proteins. The fos/jun heterodimer binds to and activates transcription from TPA-responsive promoter elements (TGACTCA), which represent one final target of the protein kinase C pathway. The other main signal transduction pathway, initiated by the activation of the adenylate cyclase, involves the transcription factor CREB. The promoter element recognized by CREB, a cyclic AMP responsive element (CRE), consist of a palyndromic sequence similar to a TRE (TGACGTCA). We show that jun efficiently trans-activates CRE sequences and that fos and jun efficiently bind and cooperate in activating CRE promoter elements. The similarity between TRE and CRE sequences may involve an interplay in transcriptional regulation and 'cross-talk' between components of the two major signal transduction pathways.
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PMID:Cross-talk in signal transduction: TPA-inducible factor jun/AP-1 activates cAMP-responsive enhancer elements. 210 94

The nuclear oncoproteins fos and jun are associated as a heterodimer which binds to TPA (PMA or TPA: phorbol 12-myristate 13-acetate)- responsive promoter elements (TRE), the recognition site for the transcription factor AP-1. The fos/jun heterodimer has a higher affinity to the TRE and stimulates transcription of responsive genes more than the jun homodimer. The association of these two oncoproteins may play a central role in signal transduction and regulation of cell proliferation and differentiation. We further defined the regulation of fos and jun by studying their inducibility by second messengers in cells of hematopoietic origin. In THP-1 monocytic leukemia cells fos and jun mRNA levels are regulated in a coupled manner by second messengers activated after membrane phospholipid turnover. Addition of phospholipase C to cells, as well as stimulation of protein kinase C and release of intracellular Ca2+, caused a rapid induction of fos and jun mRNA levels, but the induction of jun mRNA showed a more persistant and less transient pattern than fos. In contrast to the phosphoinositol system, stimulation of the adenylate cyclase pathway in THP-1 cells induced only fos transcription whereas jun mRNA levels remained unchanged. A similar uncoupling of fos and jun inducibility was found after phorbol ester addition to the human erythroleukemia cell line HEL and the human promyelocytic cell line HL-60. The uncoupling of fos and jun levels might predispose cells to the formation of combinatorial transcription complexes of a different composition and activity than the fos/jun heterodimer. Indeed, nuclear extracts from THP-1 cells before or after activation of the phosphinositol or adenylate cyclase second messenger pathways revealed a correlation in fos and jun expression and specific binding of the heterocomplex to a TRE sequence.
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PMID:Coupled and uncoupled induction of fos and jun transcription by different second messengers in cells of hematopoietic origin. 215 73

In order to identify the transcription factors that may be involved in the development and differentiation of rat Schwann cells we examined the expression of c-Jun, Jun B, Jun D and the cAMP response element binding protein (CREB) in vivo and in vitro. We found that CREB was expressed at high levels throughout nerve development by both Schwann cells and their precursors. Jun family members, on the other hand, were expressed only at low levels in a few nuclei of the developing nerve. After sciatic nerve transection, however, c-Jun levels were rapidly up-regulated in many Schwann cells of the distal stump but CREB, Jun B and Jun D levels were not affected. When nerve contact was resumed after crush injury c-Jun levels returned to control values. Interestingly, unlike the situation in vivo, when Schwann cells were removed from the nerve and cultured, levels of all three Jun family members were rapidly up-regulated. This also occurred in Schwann cell precursors. In other experiments we found that Schwann cell c-Jun, but not Jun B or Jun D, expression was down-regulated by the adenylate cyclase activator, forskolin. In addition, we show that the forskolin induced down-regulation of c-Jun is not necessary for Schwann cell proliferation or myelination to occur.
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PMID:Expression of c-Jun, Jun B, Jun D and cAMP response element binding protein by Schwann cells and their precursors in vivo and in vitro. 758 11

Fluid shear stress induces a number of morphological and functional changes in vascular endothelium, including a rapid and significant down-regulation of endothelin 1 (ET-1) mRNA and peptide release in bovine aortic endothelial cells. We show here that both the cell alignment and ET-1 down-regulation depend on on-going protein synthesis, and that the latter is the result of a decrease in transcription, as shown by nuclear run-off assay, and not the result of changes in ET-1 mRNA half-life. The treatment of endothelial cells with either phorbol 12-myristate 13-acetate (100 nM) to activate protein kinase C (PKC) or forskolin (10 microM) to stimulate adenylate cyclase sharply decreased ET-1 mRNA. However, the phorbol-induced ET-1 decrease was, unlike the shear-induced down-regulation, independent of active protein synthesis. Physiological shear stress (20 dynes/cm2) did not significantly activate PKC, as assessed by PKC translocation and enzymatic activity assay and failed to increase intracellular cAMP content. Furthermore treatment with calphostin C (1 microM) did not prevent the shear-induced down-regulation of ET-1. DNA transfection experiments suggest that the shear stress-responsive element of the ET-1 gene is contained in the sequence between -2.5 kb and -2.9 kb of the 5'-upstream region. Neither the transcription factor AP-1 binding site nor the GATA-2-factor binding site, necessary for the basal level of transcription of ET-1 gene, is sufficient to confer shear-responsiveness to the reporter gene. These results suggest that shear stress regulates the transcription of the ET-1 gene via an upstream cis element by a distinct mechanism not dependent on the PKC or cAMP pathways.
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PMID:Regulation of endothelin 1 gene by fluid shear stress is transcriptionally mediated and independent of protein kinase C and cAMP. 839 84

We report that sphingosine and short-chain ceramides activate adenylate cyclase and stimulate intracellular cyclic AMP formation in airway-smooth-muscle (ASM) cells. In each case, there is a conditional requirement for GTP-Gs alpha. Sphingosine utilizes a protein kinase C-dependent pathway to elicit activation of adenylate cyclase, whereas for short-chain ceramides the mechanism remains unidentified. In contrast, sphingosine phosphate inhibits Gs-stimulated cyclic AMP formation via a Gi-dependent mechanism. Therefore, the potential interconversion of sphingosine and sphingosine phosphate is a switch that can elicit reciprocal changes in cyclic AMP levels. This may have a significant impact upon the regulation of extracellular signal-regulated kinase (ERK) and c-Jun N-terminal specific kinase (JNK) by sphingolipids and may help to explain how growth factors that utilize these second messengers evoke pleiotropic responses such as proliferation and cell survival. In this context, short-chain ceramides are poor stimulators of ERKs in ASM cells, and sphingosine is inactive, whereas both sphingolipids are powerful activators of the JNK module. Activated JNK catalyses N-terminal phosphorylation of c-Jun, a kinase cascade that programmes growth arrest. Therefore, in blocking ceramide-stimulated ERK-2 activity, cyclic AMP may allow the ceramide-dependent activation of JNK to programme cells to opt out of the cell cycle. In contrast, sphingosine phosphate activates ERK-2, potentiates growth-factor-stimulated DNA synthesis and fails to activate JNK, indicating that its sequential formation from ceramide and sphingosine may commit cells to DNA synthesis. ERK-2 can be activated by both cyclic AMP-sensitive c-Raf-1 kinase-dependent and cyclic AMP-insensitive c-Raf-1 kinase-independent pathways in ASM cells. In this context, sphingosine phosphate activates ERK-2 exclusively via c-Raf-1 kinase. Sphingosine phosphate-stimulated ERK-2 activity is also abolished by pertussis toxin, indicating that c-Raf-1 kinase is activated via a Gi-dependent mechanism.
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PMID:The differential regulation of cyclic AMP by sphingomyelin-derived lipids and the modulation of sphingolipid-stimulated extracellular signal regulated kinase-2 in airway smooth muscle. 864 77

Drugs that stimulate dopamine and glutamate receptors have been shown to induce the expression of AP-1 proteins (such as c-Fos and c-Jun) in the striatum and to induce binding of these proteins to AP-1 sites on DNA, leading to the hypothesis that AP-1-mediated transcription contributes to the long-term effects of these drugs. To examine this hypothesis, we compared the regulation of AP-1-mediated transcription to the inductions of AP-1-binding activity and genes encoding AP-1 proteins in primary cultures of striatal neurons. Although glutamate, dopamine, and forskolin (an activator of adenylate cyclase) all induce c-fos mRNA and AP-1 binding, we found, surprisingly, that only glutamate induces transcription of a transfected AP-1-driven fusion gene. To explore the basis for this discrepancy, we investigated the possibility that the phosphorylation of c-Jun may also be required for AP-1-mediated transcription in striatal neurons. Glutamate, but neither dopamine nor forskolin, raises the levels of phosphorylated c-Jun as well as the activity of a Jun kinase (SAPK/JNK) in striatal cultures. Both the glutamatergic induction of AP-1-mediated transcription and activation of SAPK/JNK appear to be mediated, at least in part, via NMDA receptors. In striatal neurons, the phosphorylation of AP-1 proteins produced by glutamate may be required to convert AP-1 protein expression and binding to transcriptional activation.
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PMID:Glutamate, but not dopamine, stimulates stress-activated protein kinase and AP-1-mediated transcription in striatal neurons. 913 71

Tumor necrosis factor alpha (TNFalpha), an early cytokine produced by activated macrophages, plays an essential role in normal and pathological inflammatory reactions. The excessive production of TNFalpha is prevented by the so-called "macrophage-deactivating factors." This study examines the role of two structurally related neuropeptides, the vasoactive intestinal peptide (VIP) and the pituitary adenylate cyclase-activating peptide (PACAP), as inhibitors of TNFalpha. Both VIP and PACAP inhibit TNFalpha production from lipopolysaccharide-stimulated RAW 246.7 cells in a dose- and time-dependent manner. Although the activated cells express mRNA for all three VIP/PACAP receptors, agonist and antagonist studies indicate that the major receptor involved is VIP1R. VIP/PACAP inhibit TNFalpha gene expression by affecting both NF-kB binding and the composition of the cAMP responsive element binding complex (CREB/c-Jun). Two transduction pathways, a cAMP-dependent and a cAMP-independent pathway, are involved in the inhibition of TNFalpha gene expression and appear to differentially regulate the transcriptional factors involved. Because TNFalpha plays a central role in various inflammatory diseases such as endotoxic shock, multiple sclerosis, cerebral malaria, and various autoimmune conditions, the down-regulatory effect of VIP/PACAP may have a significant therapeutic potential.
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PMID:Vasoactive intestinal peptide and pituitary adenylate cyclase-activating polypeptide inhibit tumor necrosis factor alpha transcriptional activation by regulating nuclear factor-kB and cAMP response element-binding protein/c-Jun. 981 54

The existence of a putative membrane estrogen receptor (ER) has been supported by studies accomplished over the past 20 yr. However, the origin and functions of this receptor are not well defined. To study the membrane receptor, we transiently transfected cDNAs for ERalpha or ERbeta into Chinese hamster ovary (CHO) cells. Transfection of ERalpha resulted in a single transcript by Northern blot, specific binding of labeled 17beta-estradiol (E2), and expression of ER in both nuclear and membrane cell fractions. Competitive binding studies in both compartments revealed near identical dissociation constants (K(d)S) of 0.283 and 0.287 nM, respectively, but the membrane receptor number was only 3% as great as the nuclear receptor density. Transfection of ERbeta3 also yielded a single transcript and nuclear and membrane receptors with respective Kd values of 1.23 and 1.14 nM; the membrane receptor number was only 2% compared with expressed nuclear receptors. Estradiol binding to CHO-ERalpha or CHO-ERbeta activated Galphaq and G(alpha)s proteins in the membrane and rapidly stimulated corresponding inositol phosphate production and adenylate cyclase activity. Binding by 17-beta-E2 to either expressed receptor comparably enhanced the nuclear incorporation of thymidine, critically dependent upon the activation of the mitogen-activated protein kinase, ERK (extracellular regulated kinase). In contrast, c-Jun N-terminal kinase activity was stimulated by 17-beta-E2 in ERbeta-expressing CHO, but was inhibited in CHO-ERalpha cells. In summary, membrane and nuclear ER can be derived from a single transcript and have near-identical affinities for 17-beta-E2, but there are considerably more nuclear than membrane receptors. This is also the first report that cells can express a membrane ERbeta. Both membrane ERs activate G proteins, ERK, and cell proliferation, but there is novel differential regulation of c-Jun kinase activity by ERbeta and ERalpha.
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PMID:Cell membrane and nuclear estrogen receptors (ERs) originate from a single transcript: studies of ERalpha and ERbeta expressed in Chinese hamster ovary cells. 997 60

The Janus kinase, JAK3 plays an important role in interleukin-2 (IL-2)-dependent signal transduction and proliferation of T lymphocytes. Our findings show that prostaglandin E2 (PGE2) can inhibit upregulation of JAK3 protein in naive T cells and can downregulate its expression in primed cells. Reduction in JAK3 was selective because expression of other tyrosine kinases (JAK1, p56(lck), and p59(fyn)) and signal transducer and activator of transcription (STAT)5, which are linked to IL-2 receptor (IL-2R) signaling pathway, were not affected. Inhibition of JAK3 may be controlled by intracellular cyclic adenosine monophosphate (cAMP) levels, as forskolin, a direct activator of adenylate cyclase and dibutyryl cAMP (dbcAMP), a membrane permeable analogue of cAMP suppressed JAK3 expression. Moreover, 3-isobutyl-1-methylxanthine (IBMX), an inhibitor of cAMP phosphodiesterase, potentiated PGE2-induced suppression of JAK3. In naive T cells, but not primed T cells, PGE2 and other cAMP elevating agents also caused a modest reduction in surface expression of the common gamma chain (gammac) that associates with JAK3. The absence of JAK3, but not IL-2R in T cells correlated with impaired IL-2-dependent signal transduction and proliferation. The alteration in IL-2 signaling included decreased tyrosine phosphorylation and DNA binding activity of STAT5 and poor induction of the c-Myc and c-Jun pathways. In contrast, IL-2-dependent induction of Bcl-2 was unaffected. These findings suggest that suppression of JAK3 levels may represent one mechanism by which PGE2 and other cAMP elevating agents can inhibit T-cell proliferation.
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PMID:Downregulation of JAK3 protein levels in T lymphocytes by prostaglandin E2 and other cyclic adenosine monophosphate-elevating agents: impact on interleukin-2 receptor signaling pathway. 1009 Sep 41

The aim of these studies was to elucidate a role for epidermal growth factor (EGF) signaling in the transcriptional regulation of the glycoprotein hormone alpha subunit gene, a subunit of chorionic gonadotropin. Studies examined the effects of EGF and the adenylate cyclase activator forskolin on the expression of a transfected alpha subunit reporter gene in a human choriocarcinoma cell line (JEG3). At maximal doses, administration of EGF resulted in a 50% increase in a subunit reporter activity; forskolin administration induced a fivefold activation; the combined actions of EGF and forskolin resulted in synergistic activation (greater than eightfold) of the alpha subunit reporter. Mutagenesis studies revealed that the cyclic AMP response elements (CRE) were required and sufficient to mediate EGF-forskolin-induced synergistic activation. The combined actions of EGF and forskolin resulted in potentiated activation of extracellular signal-regulated kinase (ERK) enzyme activity compared with EGF alone. Specific blockade of ERK activation was sufficient to block EGF-forskolin-induced synergistic activation of the alpha subunit reporter. Pretreatment of JEG3 cells with a p38 mitogen-activated protein kinase inhibitor did not influence activation of the alpha reporter. However, overexpression of c-Jun N-terminal kinase (JNK)-interacting protein 1 as a dominant interfering molecule abolished the synergistic effects of EGF and forskolin on the alpha subunit reporter. CRE binding studies suggested that the CRE complex consisted of CRE binding protein and EGF-ERK-dependent recruitment of c-Jun-c-Fos (AP-1) to the CRE. A dominant negative form of c-Fos (A-Fos) that specifically disrupts c-Jun-c-Fos DNA binding inhibited synergistic activation of the alpha subunit. Thus, synergistic activation of the alpha subunit gene induced by EGF-forskolin requires the ERK and JNK cascades and the recruitment of AP-1 to the CRE binding complex.
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PMID:Role of the cyclic AMP response element binding complex and activation of mitogen-activated protein kinases in synergistic activation of the glycoprotein hormone alpha subunit gene by epidermal growth factor and forskolin. 1077 23


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