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)

Retinoic acid has been identified as a key morphogen governing pattern formation in the developing cartilaginous skeleton. Retinoids have also been implicated in the premature closure of the cartilage growth plate following vitamin A intoxication or administration of retinoids for dermatologic conditions. Previous studies of the mechanism of action of retinoids in non-chondrogenic cells have concluded that retinoic acid is a negative regulator of AP-1 responsive metalloprotease genes. We show that inhibition of expression of the cartilage phenotype by retinoic acid in epiphyseal chondrocytes is associated with positive regulation of AP-1 responsive metalloprotease genes, as well as induction of gene expression for the two components of the transcription factor AP-1, c-fos and c-jun. Despite the similar effects of TGF-beta 1 on expression of cartilage matrix proteins and metalloproteases in this culture system, no appreciable changes in the expression of TGF-beta isoforms were evident in response to retinoic acid treatment. The present investigation demonstrates that regulation of AP-1 responsive genes by retinoic acid can be either positive or negative, depending on the target cell type, and illuminates new mechanisms by which retinoic acid and other retinoids may exert control during development and growth of the limb.
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PMID:Inhibition of the chondrocyte phenotype by retinoic acid involves upregulation of metalloprotease genes independent of TGF-beta. 816 72

Treatment of human myeloid leukemia cells with 12-O-tetradecanoylphorbol-13-acetate (TPA), an activator of protein kinase C (PKC), is associated with induction of monocytic differentiation. Since PKC can act immediately upstream to the cytoplasmic Raf-1 serine/threonine protein kinase, we studied activation of Raf-1 during induction of the differentiated monocytic phenotype. The results demonstrate that Raf-1 is activated during TPA-induced monocytic differentiation of HL-60 cells. In contrast, there was little effect of TPA on this kinase in an HL-60 variant, designated HL-525, which is resistant to TPA-induced differentiation. Treatment of both HL-60 and HL-525 cells with okadaic acid, an inhibitor of serine/threonine protein phosphatases 1 and 2A, was associated with Raf-1 activation and induction of the monocytic phenotype. Since Raf-1 can activate the mitogen-activated protein (MAP) kinases, we also studied the relationship between MAP kinase activation and monocytic differentiation. Treatment of HL-60, but not HL-525, cells with TPA was associated with increased MAP kinase activity as determined by phosphorylation of myelin basic protein and the c-Jun Y peptide. Okadaic acid-induced differentiation of both HL-60 and HL-525 cells was similarly accompanied by increases in MAP kinase activity. These findings indicated that activation of Raf-1/MAP kinase signaling is associated with induction of a differentiated monocytic phenotype and that okadaic acid bypasses a defect in this cascade in TPA-treated HL-525 cells. While recent studies have shown that HL-525 cells are deficient in PKC beta, the present results demonstrate that PKC beta expression is up-regulated in the HL-525 variant by treatment with retinoic acid. The results also demonstrate that retinoic acid-treated HL-525 cells respond to TPA with activation of Raf-1 and MAP kinase, as well as induction of monocytic differentiation. Taken together, the results indicate that activation of Raf-1/MAP kinase signaling is associated with monocytic differentiation and that stimulation of serine/threonine protein phosphorylation by TPA or okadaic acid is sufficient for reversal of the leukemic HL-60 phenotype.
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PMID:Activation of Raf-1 and mitogen-activated protein kinases during monocytic differentiation of human myeloid leukemia cells. 828 41

Commitment of HL-60 cells to macrophage or granulocytic differentiation was achieved by incubation with 4 beta-phorbol 12-myristate 13-acetate (PMA) for 30-60 min or with dimethyl sulphoxide (DMSO) for 24 h respectively. The commitment stage towards PMA-induced macrophage differentiation was associated with increases in jun B and c-fos mRNA levels, as well as with an increase in the binding activity of transcription factor AP-1. Nevertheless, gel retardation analysis indicated that the AP-1 activity detected in untreated cells was drastically reduced during the commitment stage of DMSO-induced HL-60 differentiation towards granulocytes. When HL-60 cells were treated with sodium butyrate, which induced monocytic differentiation, a remarkable increase in AP-1 binding activity was detected. Treatment of HL-60 cells with 1 alpha,25-dihydroxyvitamin D3, another monocytic differentiation agent, induced a weak, but appreciable, increase in AP-1 activity. Furthermore, addition of sodium butyrate or 1 alpha,25-dihydroxyvitamin D3 to HL-60 cells induced the expression of c-fos, c-jun, jun B and jun D proto-oncogenes. In contrast, when HL-60 cells were treated with retinoic acid, a granulocytic differentiation inducer, no enhanced AP-1 binding activity was observed, and only a weak increase in jun D mRNA level was detected. These data indicate that formation of AP-1 is not required for the induction of HL-60 differentiation towards granulocytes, whereas induction of monocytic differentiation is correlated with an increase in AP-1 activity. The differential expression of AP-1 activity may be critical in the differentiation of HL-60 cells towards monocytic or granulocytic lineages.
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PMID:Differences in expression of transcription factor AP-1 in human promyelocytic HL-60 cells during differentiation towards macrophages versus granulocytes. 836 64

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

Both retinoic acid (RA) treatment and dominant-negative c-Jun mutant expression effectively inhibit phorbol ester-induced AP-1 activity and induced neoplastic transformation in mouse epidermal JB6 cells. However, both reagents also target non-AP-1 molecules in addition. Because liganded retinoic acid receptors interact with and transactivate RA response elements (RAREs) on DNA, as well as interact with Jun protein to block AP-1 activity, the question arises as to which of these two activities of retinoids is responsible for antitumor-promoting activity. To address this question we generated JB6 promotion-sensitive (P+) cell lines that are stably transfected with a construct containing the collagenase promoter bearing one AP-1-binding site that drives a luciferase reporter gene. The stable collagenase-luciferase-transfected cell lines showed 1.5-3.5-fold enhanced AP-1 activity when treated with 12-0-tetradecanoyl-phorbol-13-acetate (TPA). Up to 90% of TPA-induced AP-1 activity was blocked by retinoids SR11238, SR11302, or trans-RA, but not by retinoid SR11235. Of these retinoids, only RA and SR11235 were able to transactivate RARE-dependent gene expression. Transrepression of TPA-induced AP-1 and transactivation of RARE by RA, SR11238, and SR11302 were concentration dependent at 10(-10) to 10(-6) M retinoid. When tested for activity in inhibiting tumor promoter-induced transformation in JB6 P+ cells, the retinoids specific for AP-1 transrepression were inhibitory, whereas SR11235, which only activated RARE, showed little effect. We thus conclude that the AP-1-blocking activity of retinoids is likely to be responsible for the antitumor-promoting activity. This result, together with the observation that dominant-negative Jun blocks transformation, argues for a requirement of induced AP-1 in the tumor promoter-induced transformation process.
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PMID:Inhibition of tumor promoter-induced transformation by retinoids that transrepress AP-1 without transactivating retinoic acid response element. 856 58

The E26 and avian erythroblastosis virus (AEV) avian retroviruses induce acute leukemia in chickens. E26 can block both erythroid and myeloid differentiation at an early multipotent stage. Moreover, E26 can block erythroid differentiation at the erythroid burst-forming unit/erythroid CFU (BFU-E/CFU-E) stage, which also corresponds to the differentiation stage blocked by AEV. AEV carries two oncogenes, v-erbA and v-erbB, whereas E26 encodes a single 135-kDa Gag-Myb-Ets fusion oncoprotein. v-ErbA is responsible for the erythroid differentiation arrest through negative interferences with both the retinoic acid receptor (RAR) and the thyroid hormone receptor (T3R/c-ErbA). We investigated whether Myb-Ets could block erythroid differentiation in a manner similar to v-ErbA. We show here that Myb-Ets inhibits both RAR and c-ErbA activities on specific hormone response elements in transient-expression assays. Moreover, Myb-Ets abrogates the inactivation of transcription factor AP-1 by RAR and T3R, another feature shared with v-ErbA. Myb-Ets also antagonizes the biological response of erythrocytic progenitor cells to retinoic acid and T3. Analysis of a series of mutants of Myb-Ets reveals that the domains of the oncoprotein involved in these inhibitory activities are the same as those involved in oncogenic transformation of hematopoietic cells. These data demonstrate that the Myb-Ets oncoprotein shares properties with the v-ErbA oncoprotein and that inhibition of ligand-dependent RAR and c-ErbA functions by Myb-Ets is responsible for blocking the differentiation of hematopoietic progenitors.
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PMID:Myb-Ets fusion oncoprotein inhibits thyroid hormone receptor/c-ErbA and retinoic acid receptor functions: a novel mechanism of action for leukemogenic transformation by E26 avian retrovirus. 888 63

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

Retinoic acid (RA) induces differentiation of B16 mouse melanoma cells, which is accompanied by an increase in protein kinase Calpha (PKCalpha) as well as a selective enrichment of nuclear PKCalpha. We report here that RA also increases AP-1 activity in these cells. Transient transfection of B16 cells with luciferase reporter gene constructs indicated that RA induced a concentration-dependent increase in AP-1 activity. Acute treatment (2 h) of B16 cells with phorbol dibutyrate (PDB) increased AP-1 activity by 10-fold. RA treatment did not change the expression of Jun family members; however, it decreased the expression of c-Fos. In contrast acute PDB treatment induced c-Fos expression, while having little effect on c-Jun. Five DNA-protein complexes were formed with nuclear extracts from B16 cells and an oligonucleotide containing an AP-1 consensus sequence. Several complexes were decreased in cells treated with RA. Conversely, certain complexes were increased in cells acutely treated with PDB. The slowest migrating complexes were shown to contain Fos family members. Down-regulation of PKC inhibited both the acute PDB-induced and the RA-induced increase in AP-1 activity. The selective PKC enzyme inhibitor, bisindolylmaleimide, reduced PDB-stimulated AP-1 activity, but enhanced RA-induced AP-1 activity. These results together with our previous studies suggest the intriguing possibility that PKC protein, but not enzyme activity, may be required for RA-induced AP-1 activity.
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PMID:Characterization of retinoic acid-induced AP-1 activity in B16 mouse melanoma cells. 913 41

To analyze the function of AP-1 in cartilage formation, two types of primary chondrocytes, LS and US cells, were prepared from caudal (lower) and cephalic (upper) regions of chicken sterna, respectively. All the known components of chicken AP-1 (c-Fos, Fra-2, c-Jun, and JunD) were detected in both cell types, but the expression level of c-Jun was much higher in LS cells, which are rich in less mature chondrocytes than US cells. In the sterna, the expression level of c-Jun was also lower in the maturating or hypertropic chondrocytes than in proliferating chondrocytes. When US cells were treated with parathyroid hormone (PTH), which prevented maturation as judged from the maturation-associated markers such as alkaline phosphatase and type X collagen, the expression levels of c-Jun and JunD were constitutively elevated. To analyze the possible relationship between differentiation status and expression levels of Jun family proteins, they were exogenously introduced into the entire population of US cells within 2 days by using high titer, replication-competent retroviral vectors. Maturation-associated markers in US cells were specifically lowered by exogenous expression of c-Jun or JunD to similar levels to those of LS cells or US cells treated with PTH. When US cells were infected with the virus encoding a dominant negative mutant of AP-1 (supJunD-1), maturation markers were moderately increased 10 days after infection. The potent induction of alkaline phosphatase activity in US cells by all-trans retinoic acid was annulled by exogenous expression of either c-Jun or JunD. These results suggest that Jun family proteins negatively regulate the maturation process of chondrocytes.
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PMID:C-Jun and JunD suppress maturation of chondrocytes. 914 1

Retinyl methyl ether (RME) is known to prevent the development of mammary cancer. However, the mechanism by which RME exerts its anticancer effect is presently unclear. The diverse biological functions of retinoids, the vitamin A derivatives, are mainly mediated by their nuclear receptors, retinoic acid receptors (RARs) and retinoid X receptors (RXRs). RARs and RXRs are ligand-dependent transcriptional factors that either activate gene transcription through their binding to retinoic acid response elements or repress transactivation of genes containing the activator protein 1 (AP-1) binding site. Previous studies demonstrated that RME can modulate transcriptional activity of retinoid receptors on retinoic acid response elements, suggesting that regulation of retinoid receptor activity may mediate the anticancer effect of RME. In this study, we present evidence that RME can down-regulate AP-1 activity induced by the tumor promoter 12-O-tetradecanoylphorbol-13-acetate, insulin, growth factors, and the nuclear proto-oncogenes c-Jun and c-Fos. Transient transfection assays demonstrate that inhibition of AP-1 activity occurs on the human collagenase promoter containing an AP-1 binding site or the thymidine kinase promoter linked with an AP-1 binding site. In HeLa cells, the inhibition is observed when RAR-alpha and/or RXR-alpha but not RAR-beta or RAR-gamma expression vectors are cotransfected, whereas the endogenous retinoid receptors in breast cancer cells T-47D and ZR-75-1 were sufficient to confer the inhibition by RME. Furthermore, using gel retardation assay, we show that 12-O-tetradecanoylphorbol-13-acetate- and epidermal growth factor-induced AP-1 binding activity in breast cancer cells is inhibited by RME. These results suggest that one of the mechanisms by which RME prevents cancer development may be due to the repression of AP-1-responsive genes.
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PMID:Retinyl methyl ether down-regulates activator protein 1 transcriptional activation in breast cancer cells. 927 11

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