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)

The proto-oncogene c-jun, a major component of transcription factor AP-1, is expressed at very low levels in undifferentiated embryonal carcinoma (EC) end embryonic stem (ES) cells. Retinoic acid (RA) induced differentiation causes a strong increase in the levels of c-jun mRNA. In this paper we report the cloning and characterization of the mouse c-jun promoter. Our results show that RA treatment causes a strong enhancement in c-jun promoter activity, an effect probably mediated by the RA-receptor beta (RAR beta). Sequences located between -329 and -293 are responsible for the observed RA effect, and bind at least five different protein complexes, of which three are decreased upon RA treatment. These protein binding sites do not resemble RA-responsive elements (RARE's) found in the promoters of retinoic acid receptor beta (RAR beta) and laminin B1. Furthermore, we could not detect a direct interaction of RAR alpha and RAR beta to these sequences, indicating that RA-induced c-jun expression is an indirect effect of RAR action.
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PMID:Transcriptional control of c-jun by retinoic acid. 185 Dec 95

Fusion gene constructs containing the human choline acetyltransferase 5' flanking region are stimulated by thyroid hormone (T3) in neuronal NG108-15 and NE1-115 cells but not in non neuronal COS-1 and JEG-3 cells. To identify potential T3 receptor binding elements (T3RE), chimeric plasmids containing various lengths of the 5' end of the hChAT gene linked to the CAT reporter gene were assayed by transient transfections into NG108-15, NE1-115 and COS-1 cells. We show that regulation is T3 specific as estrogen, dexamethasone, dihydrotestosterone, all-trans-retinoic acid and 9-cis-retinoic acid have no effect. We localized several potential T3REs and characterized the most proximal T3RE (position 3280-3291) which contains two hexameric half-sites arranged as a direct repeat without a base pair spacer. An oligonucleotide containing this sequence confers T3 responsiveness to a heterologous promoter. The transcriptional response of this T3RE is markedly reduced after mutation of the first or second half-site indicating that both half-sites are required for a maximal T3 response. We have found that RAR alpha, RXR alpha and COUP-TF do not enhance T3 responsiveness and therefore they may not interact with T3R alpha in NG108-15 cells on this regulatory sequence. T3R monomer and dimer specific binding to the proximal T3RE is demonstrated by gel-retardation DNA binding assays and by methylation interference experiments. In COS-1 cells, T3R inhibits transcriptional activation by the transcription factor AP-1 whereas in NE1-115 cells T3R enhances AP-1 mediated activation in a T3 dependant fashion. It is likely that these effects involve protein-protein interactions. These results suggest that the T3 receptor can act as a positive transcriptional regulatory factor on the hChAT gene.
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PMID:Trans-activation by thyroid hormone receptors of the 5' flanking region of the human ChAT gene. 805 82

Vitamin A derivatives (retinoids) affect a large variety of fundamental biological processes. Understanding of the signaling mechanism has been greatly advanced by the cloning of specific retinoid receptors. These regulatory proteins belong to the steroid/thyroid hormone nuclear receptor superfamily. Two types of retinoid receptors have been identified, the retinoic acid receptors (RAR alpha, beta and gamma) and the retinoid X receptors (RXR alpha, beta, and gamma). Similar to the steroid hormone receptors, the retinoid receptors bind to specific DNA sequences that have diad symmetries. However, the RARs require heterodimerization with RXRs for efficient DNA binding and gene regulation, while the RXRs can bind to DNA and function as homodimers in the presence of 9-cis-retinoic acid. In addition, RXRs can form heterodimers with thyroid hormone receptors and the vitamin D3 receptor and other receptors. Thus the RXRs have a very central role in serving as a partner for several hormone and vitamin receptors and thus may allow cross talk between different hormone signals. Retinoid responses can be restricted by the COUP-TF orphan receptors which bind to overlapping DNA sequences. Besides the classical way of action via DNA binding, the retinoid receptors can also interfere with other signaling pathways by interacting with the transcription factor AP-1. The advances made in understanding the mechanism of action of retinoids promise to contribute to the understanding and control of physiological responses and diseases.
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PMID:Signal transduction by retinoid receptors. 814 16

We report here that the fusion of PML, a nuclear protein defined by the t(15;17) chromosomal translocation in acute promyelocytic leukemia, with retinoic acid receptor alpha (RAR alpha) changes the RAR alpha from a retinoic acid (RA)-dependent inhibitor to a RA-dependent activator of AP-1 transcriptional activity. The PML-RAR alpha chimera cooperates with c-Jun and, strikingly, with c-Fos to stimulate the transcription of both synthetic and natural reporter genes containing an AP-1 site. Stimulation is dependent on the concentration of RA and its dose-response curve is comparable to that for activation by RAR alpha of transcription on RA-responsive genes. Further, in the absence of RA, a circumstance in which RAR alpha has no effect on AP-1 activity, PML-RAR alpha is an inhibitor. Deletion of the dimerization, transactivation, or DNA-binding domains of c-Jun and removal of the PML dimerization domain in the PML-RAR alpha hybrid abrogates their transcriptional cooperatively. In view of the association between AP-1 activity and hemopoietic differentiation, we suggest that these properties of PML-RAR alpha could contribute to the leukemic phenotype and its response to RA.
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PMID:The PML-retinoic acid receptor alpha translocation converts the receptor from an inhibitor to a retinoic acid-dependent activator of transcription factor AP-1. 841 4

Treatment of synovial fibroblasts with retinoic acid (RA) decreases their expression of collagenase (matrix metalloproteinase-1 or MMP-1), an enzyme that degrades interstitial collagens and contributes to the pathology of rheumatoid arthritis. This inhibition results, at least in part, from RA-induced decreases in the mRNA for the transactivators Fos and Jun (with concominant increases in RAR mRNA) and by sequestration of Fos/Jun by RARs/RXRs. Previously, we provided evidence that retinoid receptors are also present in complexes that bind to fragments of rabbit MMP-1 promoter DNA containing an AP-1 site at -77 (Pan et al., 1995, J. Cell. Biochem., 57:575-589). However, it was unclear whether RARs and retinoid X receptors (RXRs) were binding directly to the DNA or indirectly through another protein. We now use a sensitive MMP-1 promoter/luciferase reporter construct to confirm the transcriptional role of the AP-1 site at -77. In addition, with electrophoretic mobility shift analyses (EMSAs), antibody "supershifts" and DNAase 1 footprinting, we examine the interaction of retinoid receptors and AP-1 protein on the MMP-1 promoter. We demonstrate that RARs, RXRs, and c-Jun form a complex at the AP-1 site in which c-Jun binds directly to the DNA and apparently tethers the retinoid receptors to the complex. We conclude that retinoid receptors/AP-1 protein interactions at the DNA may provide an additional means of controlling collagenase gene transcription by retinoids.
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PMID:Inhibition of rabbit collagenase (matrix metalloproteinase-1; MMP-1) transcription by retinoid receptors: evidence for binding of RARs/RXRs to the -77 AP-1 site through interactions with c-Jun. 890 99

Interaction between a tumor promoter, 12-O-tetradecanoylphorbol 13-acetate (TPA), and ligands of nuclear receptors has been interpreted as the result of crosstalk between the nuclear receptors and oncogenic transcription factor AP-1. We examined the effects of various tumor promoters on transcription mediated by several nuclear receptors (RAR, TR, and ROR) by using thymidine kinase promoter-based reporter systems. TPA-type and other types of tumor promoters (okadaic acid, thapsigargin) enhanced reporter gene transcription independently of the cognate ligands for the receptors. Various kinds of TPA-type tumor promoters, teleocidine and its synthetic derivatives (indolactam, benzolactams) enhanced reporter gene transcription in proportion to their differentiation-inducing activities. Although TPA is known to activate protein kinase C (PKC), some PKC inhibitors did not inhibit the effect of TPA on reporter gene transcription. Interestingly, staurosporin, a strong PKC inhibitor and also a tumor promoter, enhanced the effect of TPA and weakly enhanced the reporter transcription itself. These results suggest this reporter system is useful for the evaluation of effects on the gene expression of various tumor promoters, including non-TPA type.
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PMID:Enhancing effect of tumor promoters, phorbol esters and teleocidins on nuclear receptor-mediated transcription. 1114 68

Glucocorticoid-attenuated response genes (GARG) belong to a recently described family of genes responsive to the action of dexamethasone. Full-length cDNA of one member of this family, GARG16, has been cloned from rat microglia and regulation of its mRNA expression has been studied. Moreover, regulation of retinoid/retinoic acid activated transcription factor (RXR/RAR) mRNAs in mixed astrocyte and in purified microglia cultures has been investigated. RARbeta mRNA was undetectable in microglia by RT-PCR, whereas clearly present in the mixed cultures. RXRalpha, RARgamma, and GARG16 mRNAs were found in both culture systems. RXRalpha mRNA was strongly expressed in control microglia but rapidly declined upon treatment with LPS. Conversely, GARG16 mRNA was almost untraceable in control microglia but rapidly increased by LPS. Time-course studies revealed an oscillating behavior of expression of both mRNAs during the first 6 hr, which receded to control levels (RXRalpha high, GARG16 low) at 72 hr of LPS-treatment. Additionally, p38 MAPK and SEK phosphorylations peaked at 1 hr followed by steady declines, whereas MEK and c-Jun showed double peaks at 1+4 hr and 1+6 hr, respectively, before subsiding to control levels. This behavior was not observed in comparative studies with TNF-alpha, interleukin-10 (IL-10), or interferon-gamma inducible protein 10 (IP-10). Finally, inhibitors of p38 MAPK, p42/p44 ERK, and PKCalpha as well as the use of dexamethasone revealed major influences of the p38 MAPK-c-Jun-AP-1 signaling pathway on RXRalpha and GARG16 mRNA expressions. The counter regulatory control of GARG16 and RXRalpha mRNA expression is believed to be an example of a fine-tuned cellular mechanism to react to inflammatory stimuli.
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PMID:Lipopolysaccharide-induced switch between retinoid receptor (RXR) alpha and glucocorticoid attenuated response gene (GARG)-16 messenger RNAs in cultured rat microglia. 1139 78

Retinoid derivatives have been implicated for the growth regulation of ovarian cancer cells. However, the molecular mechanisms are not yet fully defined. To dissect detailed mechanisms of each derivative, four ovarian cancer cells (A2774, PA-1, OVCAR-3, SKOV-3) were treated with all-trans retinoic acid (ATRA), 9-cis retinoic acid (9-cis RA), 13-cis RA, or 4-hydroxyphenyl retinamide (4-HPR). When treated with 1 microm, HPR inhibits most effectively the growth of all four cells. Depending on cell types treated, IC(50) values were 0.7-2.7 microm for 4-HPR, and 2.7-9.0 microm for other retinoid derivatives. DNA fragmentation assay indicated that the antiproliferative effect of HPR could be mediated by apoptosis. Transcription assays coupled with transient transfection in OVCAR-3 cells indicated that ATRA, 9-cis RA, and 13-cis RA were active for all RAR/RXR subtypes, whereas 4-HPR was only active for RARgamma. However, 4-HPR exerted the strongest suppression on AP-1 (c-Jun) activity. As expected from AP-1 data, in vitro invasion assays showed that HPR blocked effectively the migration of OVCAR-3 cells. Thus, 4-HPR showed not only more potent antiproliferative activity than any other retinoid derivatives used, but also effectively inhibited the invasion, probably through the suppression of AP-1 activity. Taken together coupled with its selective activity only for RARgamma, these results suggest that 4-HPR could be less toxic, and very effective anticancer drugs for late stage ovarian cancer.
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PMID:Antiproliferative mechanism of retinoid derivatives in ovarian cancer cells. 1168 87

Granulocytes and monocytes develop from a common myeloid progenitor. Early granulopoiesis requires the C/EBPalpha, PU.1, RAR, CBF, and c-Myb transcription factors, and terminal neutrophil differentiation is dependent upon C/EBPepsilon, PU.1, Sp1, CDP, and HoxA10. Monopoiesis can be induced by Maf-B, c-Jun, or Egr-1 and is dependent upon PU.1, Sp1, and ICSBP. Signals eminating from cytokine receptors modulate factor activities but do not determine cell fates. Orchestration of the myeloid developmental program is achieved via cooperative gene regulation, via synergistic and inhibitory protein-protein interactions, via promoter auto-regulation and cross-regulation, via regulation of factor levels, and via induction of cell cycle arrest: For example, c-Myb and C/EBPalpha cooperate to activate the mim-1 and NE promoters, PU.1, C/EBPalpha, and CBF, regulate the NE, MPO, and M-CSF Receptor genes. PU.1:GATA-1 interaction and C/EBP suppression of FOG transcription inhibits erythroid and megakaryocyte gene expression. c-Jun:PU.1, ICSBP:PU.1, and perhaps Maf:Jun complexes induce monocytic genes. PU.1 and C/EBPalpha activate their own promoters, C/EBPalpha rapidly induces PU.1 and C/EBPepsilon RNA expression, and RARalpha activates the C/EBPepsilon promoter. Higher levels of PU.1 are required for monopoiesis than for B-lymphopoiesis, and higher C/EBP levels may favor granulopoiesis over monopoiesis. CBF and c-Myb stimulate proliferation whereas C/EBPalpha induces a G1/S arrest; cell cycle arrest is required for terminal myelopoiesis, perhaps due to expression of p53 or hypo-phosphorylated Rb.
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PMID:Transcriptional regulation of granulocyte and monocyte development. 1203 76

A common myeloid progenitor gives rise to both granulocytes and monocytes. The early stages of granulopoiesis are mediated by the C/EBPalpha, PU.1, RAR, CBF, and c-Myb transcription factors, and the later stages require C/EBPepsilon, PU.1, and CDP. Monocyte development requires PU.1 and interferon consensus sequence binding protein and can be induced by Maf-B, c-Jun, or Egr-1. Cytokine receptor signals modulate transcription factor activities but do not determine cell fates. Several mechanisms orchestrate the myeloid developmental program, including cooperative gene regulation, protein:protein interactions, regulation of factor levels, and induction of cell cycle arrest.
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PMID:Transcriptional regulation of myelopoiesis. 1209 45

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