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)

In mammalian cells, certain mRNAs encoding cytokines or proto-oncogenes are especially unstable, because of the presence of a particular sequence element in their 3'-untranslated region named ARE (A/U-rich element). AREs cause this instability by provoking the rapid shortening of the poly(A) tail of the mRNA. The deadenylation of mRNAs mediated by AREs containing repeats of the AUUUA motif (class I/II AREs) is conserved in Xenopus embryos. Here, we first extend these observations by showing that c-Jun ARE, a representative of class III (non-AUUUA) AREs, also provokes the deadenylation of a reporter RNA in Xenopus embryos. Next, by immunodepletion and immunoneutralization experiments, we show that, in Xenopus, the rapid deadenylation of RNAs that contain the c-Jun ARE, but not an AUUUA ARE, requires EDEN-BP. This RNA-binding protein was previously shown to provoke the rapid deadenylation of certain Xenopus maternal RNAs. Finally, we show that CUG-BP, the human homologue of EDEN-BP, specifically binds to c-Jun ARE. Together, these results identify CUG-BP as a plausible deadenylation factor responsible for the post-transcriptional control of c-Jun proto-oncogene mRNA in mammalian cells.
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PMID:c-Jun ARE targets mRNA deadenylation by an EDEN-BP (embryo deadenylation element-binding protein)-dependent pathway. 1170 55

The proto-oncogene c-Jun has been implicated in the control of cell proliferation and differentiation and more recently in the regulation of apoptosis. We have previously reported the involvement of c-Jun in the erythroid differentiation block in murine erythroleukemia (MEL) cells. As reported here, we investigated the role of c-Jun in the regulation of terminal differentiation and apoptosis of MEL cells by studying different stable transfectant clones containing c-jun constructs in sense or antisense orientation. c-Jun did not prevent cell growth arrest in G0/G1 and p21 induction that are normally associated with terminal differentiation induced by DMSO treatment, suggesting that c-Jun may uncouple phenotypic differentiation and terminal cell division in the MEL cell system. Spontaneous apoptosis was accelerated in c-jun expressing MEL cells before and after DMSO treatment. Moreover, c-Jun sensitized apoptosis induced by various drugs. Drug-induced apoptosis was associated with c-Jun N-terminal kinase (JNK) activation and c-Jun N-terminal phosphorylation (JNP). In contrast, overexpression of c-jun delayed apoptosis in serum-starved cells, indicating that c-Jun may reduce or accelerate apoptosis in MEL cells depending on the nature of the apoptotic stimulus. These results suggest that the proto-oncogene c-Jun may modulate differentiation and apoptosis of leukemic cells.
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PMID:C-Jun modulates apoptosis but not terminal cell differentiation in murine erythroleukemia cells. 1184 Feb 90

AP-1 family transcription factors have been implicated in the control of proliferation, apoptosis and malignant transformation. However, their role in oncogenesis is unclear and no recurrent alterations of AP-1 activities have been described in human cancers. Here, we show that constitutively activated AP-1 with robust c-Jun and JunB overexpression is found in all tumor cells of patients with classical Hodgkin's disease. A similar AP-1 activation is present in anaplastic large cell lymphoma (ALCL), but is absent in other lymphoma types. Whereas c-Jun is up-regulated by an autoregulatory process, JunB is under control of NF-kappa B. Activated AP-1 supports proliferation of Hodgkin cells, while it suppresses apoptosis of ALCL cells. Furthermore, AP-1 cooperates with NF-kappa B and stimulates expression of the cell-cycle regulator cyclin D2, proto-oncogene c-met and the lymphocyte homing receptor CCR7, which are all strongly expressed in primary HRS cells. Together, these data suggest an important role of AP-1 in lymphoma pathogenesis.
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PMID:Aberrantly expressed c-Jun and JunB are a hallmark of Hodgkin lymphoma cells, stimulate proliferation and synergize with NF-kappa B. 1214 10

Overexpression of the c-Jun proto-oncogene in MCF7 breast cancer cells results in a variety of phenotype changes related to malignant progression including increased motility and invasion. Concurrent with these phenotypic effects are changes in the expression of multiple gene targets. We previously demonstrated that expression of the SPARC/osteonectin gene, while undetectable in the MCF7 cell line, is highly induced in response to stable c-Jun overexpression (c-Jun/MCF7). Because the SPARC gene product is associated with tumor cell invasion in a variety of different cancers, we have examined its role in mediating the phenotypic changes induced by c-Jun in MCF7 cells. We found that antisense mediated suppression of SPARC dramatically inhibits both motility and invasion in this c-Jun/MCF7 model. In contrast, stable overexpression of SPARC in the parental MCF7 cell line is not sufficient to stimulate cell motility or invasion. Examination of the promoter region of the human SPARC gene reveals three non-canonical AP-1 sites. We demonstrate that one of these sites binds c-Jun/Fra1 heterodimers in vitro, but that this and the other AP-1 like sites are dispensable with respect to c-Jun stimulated SPARC promoter activation. Deletion analysis identified a region between -120 and -70 as a c-Jun responsive element sufficient to induce maximal promoter activation. This region does not contain any AP-1 sites but does mediate binding by SP1 'like' complexes. Furthermore, this region is necessary for SP1/SP3 responsiveness in Drosophila SL2 cells. These results demonstrate that SPARC plays an important role in stimulating motility and the invasive behavior of c-Jun/MCF7 cells and that SPARC promoter activation by c-Jun appears to occur through an indirect mechanism.
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PMID:Transcriptional upregulation of SPARC, in response to c-Jun overexpression, contributes to increased motility and invasion of MCF7 breast cancer cells. 1237 Aug 30

UV irradiation and other stress-activated signals activate the Jun N-terminal kinase (JNK, SAPK) pathway. The induction of JNK activity results in the activation of proto-oncogene c-Jun and activator protein-1 (AP-1) transcriptional activity. Data presented here show that UV mediated the activation of JNK correlated with UV-induced apoptosis and that overexpression of a dominant negative JNK blocked UV-induced apoptosis. However, the molecular events that lead to JNK activation in response to UV treatment are not clear. In this report, we provide evidence that a Fas receptor binding protein, Daxx, mediates UV-induced JNK activation and apoptosis. A dominant negative Daxx, coding for the C-terminal region (112 amino acids) of Daxx, was constructed and used in the experiments. Our data show that overexpression of the dominant negative Daxx partially inhibits UV-induced JNK phosphorylation in 293 cells. Inhibition of JNK phosphorylation resulted in the inhibition of c-Jun activation upon UV irradiation. Our data also show that the inhibition of JNK activation by dominant negative Daxx correlates with the reduced rate of apoptotic death of 293 cells after UV irradiation. Surprisingly, overexpression of wild-type Daxx also inhibited UV-induced apoptosis, suggesting that Daxx competes for Fas receptor binding sites with other proapoptotic factors such as FADD. In addition, overexpression of a dominant negative mutant of FADD did not affect UV-induced JNK activation but does inhibit UV-induced apoptosis. These results suggest that UV-induced JNK activation is not sufficient but required for induction of apoptosis.
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PMID:Ultraviolet radiation-induced apoptosis is mediated by Daxx. 1240 42

Transcription factor C/EBPalpha induces normal myeloid differentiation, inactivation of C/EBPalpha leads to a differentiation block in acute myeloid leukemias (AML), and overexpression of C/EBPalpha results in AML growth arrest and differentiation. Recent reports suggest that C/EBPalpha is activated or inactivated via protein-protein interactions. We previously reported that C/EBPalpha needs to inactivate the proto-oncogene c-Jun via leucine zipper domain interaction in order to induce granulocytic differentiation. We, therefore, hypothesized that c-Jun expression might be elevated in AML and subsequently inactivate C/EBPalpha. In fact, compared to normal bone marrow mononuclear cells, c-Jun expression is increased in AML patient samples (Affymetrix expression microarray analysis, n=166). c-Jun binds to C/EBPalpha via the leucine zipper domains and prevents C/EBPalpha from DNA binding. Inactivation of C/EBPalpha by c-Jun is necessary for c-Jun to induce proliferation because c-Jun-induced proliferation can be prevented by ectopic overexpression of C/EBPalpha. The dominant-negative 30-kDa C/EBPalpha protein, found in AML, fails to downregulate c-Jun mRNA expression in AML patient samples. Thus, our data suggest a model for AML in which c-Jun promotes proliferation and prevents differentiation by inhibiting C/EBPalpha DNA binding via leucine zipper domain interaction. It might depend on the expression levels of C/EBPalpha and c-Jun, if inhibition of C/EBPalpha by c-Jun or if inhibition of c-Jun by C/EBPalpha is more predominant: proliferation versus differentiation; AML versus normal myeloid development.
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PMID:Elevated c-Jun expression in acute myeloid leukemias inhibits C/EBPalpha DNA binding via leucine zipper domain interaction. 1287 22

AP-1 dependent genes, e.g., matrix-metallo-proteinases, are involved in the pathogenesis of rheumatoid arthritis (RA). Therefore, the transcription factor AP-1 and its subunits, proteins of the Jun and Fos proto-oncogene families, are interesting targets for analysis in RA. In this study, we analyzed the mRNA expression of junB in synovial membrane (SM) samples and isolated synovial fibroblasts of patients with RA, osteoarthritis (OA), and normal, non-inflammatory controls. To address the suitability of real-time RT-PCR for the quantitation of Jun proto-oncogene family members, conventional RTPCR and real-time PCR were comparatively applied for junD, a gene representing a major challenge because of its high GC-content (70%, increasing the probability of secondary structures interfering with the PCR) and its sequence homology to other Jun proto-oncogenes. In addition, a comparison was performed concerning the precision, reproducibility, costs, as well as labor and time consumption of the two PCR methods. Real-time RT-PCR proved superior to conventional PCR in terms of precision (mean deviation of measured from employed concentration 58% for real-time PCR vs 225% for conventional PCR), reproducibility, as well as labor and time consumption (4 times less for real-time RT-PCR). Experimental cDNA normalization for equivalent cDNA concentrations by sample dilution was more reliable than mathematical cDNA normalization. However, real-time PCR was 3.6-fold more expensive. Applying the more reliable real-time RT-PCR for the ex vivo analysis of junB mRNA-expression, no significantly different expression of junB was observed in SM or isolated synovial fibroblasts from RA as compared to OA. Interestingly, however, junBmRNA expression was significantly lower in RA SM and borderline significantly lower in OA SM than in normal/non-inflammatory SM, with potential effects on the functional properties of the resulting AP-1 complexes. Immunohistochemical staining of the SM with JunB-specific antibodies showed comparable JunB protein expression in SFB (collagen III mRNA-positive) of RA and OA samples. Thus, real-time RT-PCR appears suitable and time-saving for the quantitation of jun proto-oncogene mRNA-expression in tissue and cell samples with high precision and reproducibility.
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PMID:[Comparison of conventional and real-time RT-PCR for the quantitation of jun protooncogene mRNA and analysis of junB mRNA expression in synovial membranes and isolated synovial fibroblasts from rheumatoid arthritis patients]. 1292 42

Pro-inflammatory cytokines, environmental stresses, as well as receptor tyrosine kinases regulate the activity of JNK. In turn, JNK phosphorylates Jun members of the AP-1 family of transcription factors, thereby controlling processes as different as cell growth, differentiation, and apoptosis. Still, very few targets of the JNK-Jun pathway have been identified. Here we show that JNK is required for the induction of c-myc expression by PDGF. Furthermore, we identify a phylogenetically conserved AP-1-responsive element in the promoter of the c-myc proto-oncogene that recruits in vivo the c-Jun and JunD AP-1 family members and controls the PDGF-dependent transactivation of the c-myc promoter. These findings suggest the existence of a novel biochemical route linking tyrosine kinase receptors, such as those for PDGF, and c-myc expression through JNK activation of AP-1 transcription factors. They also provide a novel potential mechanism by which both JNK and Jun proteins may exert either their proliferative or apoptotic potential by stimulating the expression of the c-myc proto-oncogene.
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PMID:The platelet-derived growth factor controls c-myc expression through a JNK- and AP-1-dependent signaling pathway. 1452 11

Hexachlorobenzene (HCB) is a lipophilic chemical compound that is widely distributed in the environment. HCB is known to cause liver tumors in experimental animals. In the present study the in vivo effect of HCB treatment on ornithine decarboxylase (ODC) and protein tyrosine kinase (PTK) activities, free polyamine content, and c-Myc, c-Fos, and c-Jun protein levels in rat liver were investigated. HCB (1000 mg/kg body weight) increased hepatic immunodetectable c-Myc, c-Fos, and c-Jun levels after 6 h, and ODC activity and spermine and putrescine content after 18 and 24 h, while maximum stimulation of PTK activity occurred at 12 h. PTK and ODC activities varied in a dose-dependent manner. The time-course of c-Myc, c-Fos, and c-Jun protein levels was different for each proto-oncogene. They were all elevated at the second day of treatment, while only c-Fos and c-Jun remained elevated after 10 days of HCB exposure. These data jointly suggest that the increase in ODC activity may be the consequence of proto-oncogene induction. The alterations in PTK activity suggest that the growth factor signal transduction pathway may be involved in the regulation of the proto-oncogene levels or/and ODC activity. The decrease in PTK activity after the first day, even in the presence of alpha-D-Difluoromethylornithine (DFMO), an inhibitor of ODC activity, suggests that it is not regulated by polyamines. These results may be relevant to the early molecular events involved in HCB tumor promoter activity in rat liver.
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PMID:Hexachlorobenzene-induced early changes in ornithine decarboxylase and protein tyrosine kinase activities, polyamines and c-Myc, c-Fos and c-Jun proto-oncogenes in rat liver. 1460 Feb 89

TNF alpha has significant in vitro effects on steroidogenesis and folliculogenesis and reproductive alterations occur in TNF receptor type 1 (TNFR1) knockout mice. The present study investigated the effect of in vitro TNF on granulosa cell proliferation from immature mice at 28 d of age, with emphasis on intracellular signaling that regulates granulosa cell proliferation. TNF dose dependently increased granulosa cell proliferation and the proto-oncogene c-Jun protein. However, other Jun family members such as JunD was expressed constitutively and JunB was not expressed. In vitro TNF did not increase c-Jun and proliferation in granulosa cells from TNFR1 knockout mice. The time course of TNF-induced c-Jun revealed biphasic patterns of short-term (3 h) and long-term (24 h) induction. The time courses of Ser63- and Ser73-phospho c-Jun coincided with changes in total c-Jun. Among MAPK cascades, stress-activated protein kinase/c-Jun-NH(2)-teminal kinase signaling was increased transiently in TNF-treated cells, whereas p38MAPK and ERK1 and 2 were not changed. In addition, overexpression of nuclear factor-kappa B and addition of ceramide and 8-bromo-cAMP did not increase c-Jun or proliferation. Antisense oligonucleotides for c-Jun blocked cell proliferation induced by TNF. In conclusion, the above results demonstrate that TNF increased c-Jun by activating stress-activated protein kinase/c-Jun-NH(2)-teminal kinase signaling via TNFR1 in mouse granulosa cells, and the induced c-Jun resulted in increased cell proliferation.
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PMID:Tumor necrosis factor alpha (TNF) increases granulosa cell proliferation: dependence on c-Jun and TNF receptor type 1. 1461 71

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