Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05412 (c-Jun)
11,453 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During an acute phase response following inflammatory stimuli, specific changes occur in the synthesis and secretion of many hepatic proteins. Because the expression of differentiated function requires the coordinated regulation of many genes, we investigated the activity of general and tissue-specific transcription factors using a rat liver model of the acute phase response induced by Freund's adjuvant. Nuclear extracts and RNAs were prepared throughout a 48-h posttreatment period. Mobility shift assays revealed increased binding activity by nuclear factor-kappa B, interleukin-6 (IL-6) responsive element binding protein, and activating protein 1 (AP-1). Two AP-1 complexes were induced during the acute phase response, and correlation between their presence and transcription activity was demonstrated by transfection studies. Elevated binding activity of AP-1 also correlated with elevated levels of c-jun, junD, junB, and c-fos mRNAs. Western blots showed elevated hepatic levels of c-Jun but not c-Fos proteins during the acute phase response. In addition, IL-6, tumor necrosis factor-alpha, and IL-1 beta, cytokine regulators of the acute phase response, stimulated expression of an AP-1 responsive reporter gene introduced by DNA-mediated transfection into adult rat hepatocytes in primary culture. These findings demonstrate the complexity of AP-1 hepatic transcription factor responses to humoral regulators with direct hepatocellular effects.
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PMID:Activation of activating protein 1 during hepatic acute phase response. 843 Aug 10

The retroviral oncogene v-jun and its cellular counterpart code for proteins that function as major components of the transcription factor complex AP-1. Jun proteins bind to the AP-1 consensus sequence as homodimers or heterodimers with members of the Fos protein family. This report compares the ability of viral and cellular Jun proteins (v-Jun and c-Jun) to activate transcription and to stimulate DNA synthesis. The effect of amino acid substitutions on cellular transformation is also described. In F9 cells c-Jun is a more effective transactivator than v-Jun, which carries two amino acid substitutions in the carboxy-terminal region that together down-regulate transactivation. The delta deletion, present in the amino-terminal region of v-Jun, does not affect transactivation in F9 cells; however, it does modulate the stimulation of DNA synthesis. When delta is deleted, the amino acid substitutions are without consequence on DNA synthesis. In the presence of delta the amino acid substitutions down-regulate DNA synthesis. Deletion of the Jun transactivation domain, which is required for cellular transformation, abolishes both transactivation and stimulation of DNA synthesis. We conclude that transformation, transactivation and stimulation of DNA synthesis all depend on the presence of the transactivation domain. The three functions are, however, not tightly correlated, and further work is needed to define the role of the biochemical activities of Jun in oncogenesis.
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PMID:Amino acid substitutions modulate the effect of Jun on transformation, transcriptional activation and DNA replication. 847 38

Transgenic mice overexpressing the c-fos proto-oncogene in bone develop osteosarcomas, whereas mice overexpressing c-Jun are normal. In this study, we investigated whether Fos and Jun would cooperate in vivo and whether the threshold levels of Fos are important in osteosarcoma formation. Fos-Jun double-transgenic mice develop osteosarcomas at a higher frequency than single-Fos transgenic mice with no differences in the time of onset of tumor formation. Histological and histochemical analyses indicated that Fos-Jun tumors contained greater quantities of neoplastic bone, were more remodeled, and contained a greater number of multinucleated osteoclast-like cells than tumors isolated from age-matched, single transgenic littermates. In contrast, overexpression of Fos in knockout mice that lack endogenous Fos resulted in a decrease in the number of tumor-bearing mice; osteosarcomas were almost absent in c-fos -/- mice, whereas tumor incidence was reduced to approximately 50% in c-fos +/- mice. Cell lines isolated from Fos-Jun transgenic tumors expressed high levels of both transgenes but significantly lower levels of the jun-related gene junB compared with cells expressing only a c-fos transgene. Osteoblastic marker genes were expressed at varying levels in different cell lines, but expression of interstitial collagenase (matrix metalloproteinase-1) was enhanced in cells derived from Fos-Jun tumors. These studies demonstrate that coexpression of a c-jun transgene can enhance Fos-induced oncogenesis in vivo and suggest that a critical level of Fos is necessary for osteosarcoma development.
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PMID:c-fos-induced osteosarcoma formation in transgenic mice: cooperativity with c-jun and the role of endogenous c-fos. 852 21

Activator protein 1 (AP1) family proteins have been implicated in the regulation of genes expressed in the epidermis. However, no comprehensive analysis of the expression patterns of the known AP1 family proteins in the human epidermis or any other terminally differentiating tissue has been performed. In the present study we describe the localization of c-fos, fosB, Fra-1, Fra-2, c-jun, junB and junD in the normal human epidermis. Each is expressed in specific epidermal layers. c-fos is localized in the nuclei of the upper spinous and granular layer cells. FosB is present in the nuclei in all layers. Fra-1 is absent from the basal layer, but is present in all other layers. Fra-2 is detected in all layers, but staining intensity is increased in the upper spinous layer. c-jun staining is limited to the granular layer, while junB and junD are present in all layers. The differentiation-dependent pattern of expression of the AP1 family members suggest an important role for these proteins in specifying the temporal and spatial pattern of gene expression during keratinocyte differentiation.
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PMID:Differential expression of the fos and jun family members c-fos, fosB, Fra-1, Fra-2, c-jun, junB and junD during human epidermal keratinocyte differentiation. 854 26

Immunocytochemistry was used to localize members of the Jun family of immediate-early genes in the forebrain and midbrain of non-stimulated male rats. Antibodies against specific peptide sequences of c-Jun (Ab-1 and Ab-2 from Oncogene Science) and against expressed proteins of JunB and JunD (both from Dr. R. Bravo) revealed widespread and unique distributions for each of these antigens. Charts were made of the distribution of each antigen, and extensive comparisons were made of previous results obtained using in situ hybridization to localize mRNAs for c-jun, junB and junD. Our results indicate a generally favorable comparison between immunoreactivity and distribution of mRNAs for JunB and JunD, but in the case of c-Jun, immunoreactivity and mRNA were comparable only with the Ab-1 antibody. Indeed, the immunocytochemical distribution of the antigen recognized by the c-Jun Ab-2 antibody was distinctly different from that of the other Jun proteins or mRNAs in the rat brain. This antibody (Ab-2) recognized a nuclear protein found extensively in the caudate-putamen, nucleus accumbens, layer II of the olfactory tubercle, the central nucleus of the amygdala, and the lateral division of the bed nucleus of the stria terminalis. Scattered labeled nuclei were found in a few other forebrain structures. Within the caudate-putamen, immunoreactivity was restricted to the matrix compartment, as determined by immunostaining of adjacent sections with the matrix-marker calbindin D28k. Western blots of caudate-putamen demonstrated that this antibody recognized a protein doublet of molecular masses approximately 37 and 34 kDa, distinct from the molecular masses of c-Jun, JunB and JunD. This unique neuroanatomical distribution and molecular mass suggests that this antibody recognizes a previously undescribed Jun-related antigen.
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PMID:Charting of Jun family member proteins in the rat forebrain and midbrain: immunocytochemical evidence for a new Jun-related antigen. 854 92

The present study was designed to compare the expression of the Jun family of protooncogenes following nerve injury. Adult rats were anesthetized and the sciatic nerve transected. Dorsal root ganglia (DRG) at 1, 2, 3, and 7 days after nerve transection were collected, their total RNA extracted, and Northern blots performed using 32P-labeled oligonucleotide probes. The constitutive expression of c-jun mRNA was very low in DRG. Induction of c-jun mRNA was observed by day 1 after nerve transection, with a sixfold peak at 3 days and a twofold induction still present by day 7. The constitutive expression of junB mRNA was also low in the DRG, and sciatic nerve transection produced only a modest induction (1.7-fold by day 3) in the DRG ipsilateral to the nerve cut. junD mRNA was constitutively expressed at high levels in the DRG, and its level of expression did not in the DRG, and its level of expression did not change after sciatic nerve transection. Immunocytochemistry studies demonstrated a pattern of c-Jun, JunB, and JunD immunoreactivity (IR) associated with the cell nuclei of DRG neurons. c-Jun IR was found at very low levels in the undamaged contralateral DRG neurons, but sciatic nerve transection dramatically increased the number of c-Jun-immunoreactive neurons. Dot blot immunoblotting assay confirmed that the DRG ipsilateral to the sciatic nerve cut contained a higher level of c-Jun protein than the contralateral control DRG. Similar to c-Jun IR, JunB IR was minimal in the undamaged contralateral DRG. However, the DRG ipsilateral to the nerve transection did not show an increase in the number of immunoreactive neurons. JunD protein was expressed at high levels in the contralateral DRG, and this level of expression persisted after sciatic nerve transection in the ipsilateral DRG. DNA gel retardation assay experiments with an AP-1 consensus sequence showed a single DNA-protein complex. This complex was increased in ipsilateral as compared with contralateral DRG extracts. The amount of DNA-protein complex was reduced by c-Jun protein antiserum but was not altered when treated with a Fos antibody. We conclude that c-jun, junB and junD mRNAs and proteins are differentially regulated in the DRG after sciatic nerve transection.
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PMID:Comparison of c-jun, junB, and junD mRNA expression and protein in the rat dorsal root ganglia following sciatic nerve transection. 858 8

Human bone marrow cells express both a truncated and full-length form of the erythropoietin receptor (EpoR-T and EpoR-F, respectively). Transfection experiments using the murine interleukin (IL)-3-dependent cell line, Ba/F3, revealed that the cells coexpressing EpoR-F and EpoR-T (Ba/F3-FT) were more likely to undergo programmed cell death (apoptosis) than cells expressing EpoR-F (Ba/F3-FF), even in the presence of erythropoietin (Epo). When Ba/F3-FF cells were stimulated with Epo or IL-3, rapid induction of c-myc, c-fos, c-jun and junB genes was observed. A similar effect was also seen in IL-3 stimulated Ba/F3-Ft cells. However, in Ba/F3-FT cells expression of the c-jun gene was not induced by Epo stimulation. Administration of Epo could prevent apoptosis induced by IL-3 deprivation in Ba/F3-FT cells expressing ectopic c-Jun protein. These results indicate that induction of c-Jun through the Epo signaling pathway has an important role in the inhibition of apoptosis.
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PMID:Role of c-jun in the inhibition of erythropoietin receptor-mediated apoptosis. 863 50

The AP-1 transcription factor is a variable complex of Fos and Jun nuclear phosphoproteins that is induced in many cell types. AP-1 interacts with transcription factors of different classes, including the nuclear steroid hormone receptors, an interaction that is often mutually antagonistic and thereby serves to integrate different cellular signalling events. In addition to direct, molecular interactions between AP-1 and glucocorticoid receptor (GR), there is also evidence that the two signalling pathways may interact at different levels, but in vivo interactions of this nature have not been well characterized. We have investigated a unique cellular context for GR/AP-1 interactions, namely in the adrenal gland of the rat where the production of glucocorticoids leads to extremely high local levels of glucocorticoids, and where high constitutive AP-1 activity (as determined by in vitro DNA binding activity) has been demonstrated. We have now shown that depletion of glucocorticoid production in rats with the 11-beta-hydroxylase inhibitor, metyrapone, results in increased adrenal AP-1 activity. The demonstrated 5-fold increase is reversed by prior treatment with the glucocorticoid agonist, dexamethasone, and is largely localized to the adrenal medullary region. Further experiments have shown that c-Jun and JunD are the principal components of adrenal AP-1 in the basal state, but a change in jun-B expression appears to underly the metyrapone-induced increase in AP-1 activity. In situ hybridization analysis has shown that glucocorticoid depletion is associated with a dramatic increase in adrenal medullary junB mRNA, and using immunoblotting we have demonstrated a similar increase in nuclear levels of both the 43 kD JunB protein, and an associated phosphorylated JunB. Our use of a pharmacological intervention to demonstrate tonic suppression of adrenal medullary JunB expression by glucocorticoids has provided evidence of a nuclear mechanism that may have physiological relevance as an adaptive response to fluctuating levels of glucocorticoids.
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PMID:Tonic suppression of adrenal AP-1 activity by glucocorticoids. 890 45

Halogenated aromatic hydrocarbons, such as 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD; dioxin), and polycyclic aromatic hydrocarbons, such as benzo[a]pyrene, are environmental contaminants that cause many apparently unrelated toxic effects. In a previous study, we have shown that treatment of mouse hepatoma cells with TCDD or B(a)P results in an increase in mRNA levels of the immediate-early protooncogenes c-fos, c-jun, junB, and junD, and the concomitant increase of the DNA-binding activity of the transcription factor AP-1, a dimer of FOS and JUN proteins. To analyze the mechanism of fos/jun activation by TCDD we have used electrophoretic mobility shift and transient expression assays of reporter gene constructs containing response elements for 12-O-tetradecanoyl-phorbol-13-acetate (TRE), serum (SRE), cAMP (CRE), and aromatic hydrocarbons (AhRE) from the fos and jun genes fused to the firefly luciferase gene under the control of the SV40 minimal promoter. In mouse hepatoma Hepa-1 cells, which have Ah receptor (AHR) and Ah receptor nuclear translocator (ARNT) proteins, inclusion of TRE, SRE, and the AhRE motifs from c-jun and junD, but not CRE or the AhREs from c-fos, fosB, and junB, causes a large TCDD-dependent increase in luciferase expression. In agreement with these results, c-jun and junD, but not c-fos, fosB, and junB AhREs, competed with a canonical Cyp1A1 AhRE for binding to the AHR ARNT heterodimeric complex. In African Green Monkey CV-1 cells, which lack AHR, expression plasmids with AhRE motifs require coexpression of AHR and ARNT for TCDD to stimulate luciferase expression. In contrast, SRE-containing expression plasmids respond equally well to TCDD whether or not AHR and ARNT are coexpressed. These results suggest that TCDD induces expression of the immediate-early response genes fos and jun by activation of possibly three separate signal transduction pathways, at least one of which does not require a functional Ah receptor complex.
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PMID:Dioxin induces transcription of fos and jun genes by Ah receptor-dependent and -independent pathways. 891 96

Differentiation of 3T3T cells into adipocytes results in the progressive repression of growth factor responsiveness. This is associated with the transcriptional repression of the inducibility of c-jun and junB expression by serum. In contrast, differentiation of SV-40 large T antigen-transformed 3T3T cells (CSV3-1) does not repress growth factor responsiveness nor c-jun or junB inducibility even though CSV3-1 cells can differentiate into adipocytes. To better explain these observations, we have studied compositional changes in AP-1 DNA binding activity attributed to c-Jun, JunB, and JunD during the differentiation process in 3T3T and CSV3-1 cells. The results show that in nontransformed 3T3T cells, differentiation represses AP-1 DNA binding activity via a proportionate downregulation of c-Jun, JunB, and JunD. In contrast, in CSV3-1 cells, AP-1 DNA binding activity increases twofold during differentiation, which is accounted for by an increase in JunD with no change in c-Jun and JunB. If c-Jun and JunB serve as positive regulators and JunD serves as a negative regulator for cell proliferation as suggested by previous studies, the repression of JunD expression in differentiating CSV3-1 cells should be mitogenic because decreasing JunD/AP-1 DNA binding activity would allow c-Jun/AP-1 and JunB/AP-1 DNA binding activities to be dominant. The results confirm this prediction showing that antisense junD oligodeoxyribonucleotides are mitogenic for differentiating CSV3-1 cells whereas antisense c-jun and junB inhibit mitogenesis. These data support the conclusion that differentiation can regulate cellular proliferative potential by modulating the balance of positive and negative Jun/AP-1 DNA binding activities in distinct ways in nontransformed and transformed cells.
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PMID:Differentiation modulates the balance of positive and negative Jun/AP-1 DNA binding activities to regulate cellular proliferative potential: different effects in nontransformed and transformed cells. 892 93


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