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 indol alkaloid staurosporine is a potent inhibitor of protein kinase C, but has also been shown to have certain effects paradoxically similar to those of protein kinase C-activating phorbol esters. We show here that collagenase mRNA expression is stimulated by 10 nM staurosporine in normal and ras-oncogene-transformed rat fibroblasts. The kinetics of collagenase mRNA induction by staurosporine were slow compared to induction by phorbol ester. Staurosporine induction of the collagenase promoter appeared to be mediated via the TPA response element (TRE). Induction did not involve any increase in jun mRNA expression and did not require expression of c-Jun. Prolonged treatment with phorbol ester to deplete protein kinase C did not inhibit stimulation of the collagenase promoter by staurosporine. Instead, involvement of cAMP-dependent protein kinase (PKA) was indicated by inhibition of staurosporine induction by the PKA inhibitor H-89. In addition, raised levels of cAMP were observed during the first hour of staurosporine treatment. Altogether, our data indicate that staurosporine induces a PKA-dependent pathway leading to c-Jun-independent activation of the collagenase TRE element.
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PMID:Induction of the collagenase phorbol ester response element by staurosporine. 796 79

Induction of mouse glutathione S-transferase (GST) Ya gene expression by a variety of chemical agents is mediated by a regulatory element, EpRE, composed of an Ets and two adjacent AP-1-like binding sites. In this report we present evidence that the basal and inducible activity of EpRE is mediated by AP-1 transcription factor and that the cooperative interaction between AP-1 and an Ets protein contributes to enhance the EpRE inducibility. We also show that EpRE, similar to a single AP-1 site, when ligated to GST Ya gene promoter, is transactivated by c-Fos/c-Jun or c-Fos/Jun-B heterodimer and that c-Jun/c-Jun homodimer is an activator of an AP-1 site only in the context of collagenase gene promoter.
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PMID:Cooperative interaction between Ets and AP-1 transcription factors regulates induction of glutathione S-transferase Ya gene expression. 816 97

Elevated levels of the human pi class glutathione S-transferase (GSTP1-1) have been implicated in the development of antineoplastic drug resistance. Using GSTP1 promoter deletion constructs we have shown that enhanced GSTP1 transcription (up to 18-fold) is the predominant mechanism responsible for increased GSTP1-1 levels in a multidrug resistant derivative (VCREMS) of the human mammary carcinoma cell line MCF7. Furthermore, disruption of a putative AP-1 response element within the GSTP1 promoter (nucleotides -69 to -63) abrogated GSTP1 transcription in both cell lines. In addition, band shift assays demonstrated binding of a VCREMS nuclear complex to the promoter region C1 (-73 to -54) which could be competed for by a DNA fragment containing a known AP-1 binding site from the human collagenase promoter. However, no such competition was observed for the major MCF7 C1 complex. The role of a Fos-Jun-like complex in regulating GSTP1 transcription in VCREMS cells was further emphasized by the introduction of point mutations within the C1 region which were known to inhibit AP-1 binding and the interaction of antisera raised against human c-Jun and c-Fos with the major C1 complex in VCREMS cells. These studies therefore highlight cell-specific differences in the binding pattern of Jun and Fos proteins to the GSTP1 promoter which are likely to play an important role in regulating transcriptional activation of the GSTP1 gene in drug-resistant breast cancer cells.
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PMID:Involvement of Jun and Fos proteins in regulating transcriptional activation of the human pi class glutathione S-transferase gene in multidrug-resistant MCF7 breast cancer cells. 820 48

The Jun protein binds DNA and regulates transcription as a component of the AP-1 transcription factor complex. In its oncogenic form, Jun can transform cells in culture and cause tumors in animals. Both trans-activation and transformation require several functional domains of Jun, including an amino-terminal trans-activation domain. In this study, properties of Jun required for trans-activation and transformation were explored by replacing the trans-activation domains of c-Jun and its oncogenic counterpart, v-Jun, with the constitutively active trans-activation domain from the herpes simplex virus VP16 protein. The VP16-v-Jun chimera retained similar oncogenic properties to its parent, v-Jun. The VP16-c-Jun chimera, however, was considerably more oncogenic than c-Jun. Substitutions of a phenylalanine in the VP16 domain of the VP16-c-Jun chimera diminished or abolished transformation. Each of the chimeras bound to the AP-1 consensus recognition sequence from the collagenase promoter or from the human T-cell leukemia virus type I long terminal repeat in vitro. None of the VP16-Jun chimeras efficiently stimulated transcription from the collagenase promoter or an artificial promoter containing the human T-cell leukemia virus type I element in vivo. These results demonstrate that the Jun trans-activation domain can be replaced by a heterologous trans-activation domain with retention of oncogenic activity. However, this oncogenic activity is not reflected in the trans-activating properties of the chimeras.
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PMID:Chimeras of herpes simplex viral VP16 and jun are oncogenic. 824 Oct 24

In rabbit fibroblasts the AP-1 sequence (5'-ATGAGTCAC-3') is necessary but not sufficient for induction of collagenase transcription by phorbol esters (PMA) (Auble and Brinckerhoff: Biochemistry 30(18):4629-4635, 1991). In this study we identified additional sequences involved in PMA-induced transcription. Using fibroblasts transiently transfected with chimeric constructs containing fragments of the rabbit collagenase 5'-flanking DNA linked to the chloramphenicol acetyl transferase (CAT) gene, we found that deletion of nucleotides -182 to -141 in a 380 bp promoter construct resulted in about a 7-fold loss of induction by PMA. Mobility shift assays revealed that nuclear proteins from fibroblasts specifically bound to 20-bp at -182 to -161. Binding was competed completely by self and only partially by the AP-1 sequence, implying that proteins binding to the AP-1 sequence could also bind to this region. In vitro transcribed and translated c-Fos and c-Jun bound to both the AP-1 site and to the sequences from -182 to -141. DNAase I footprinting of the collagenase promoter with purified c-Jun or c-Fos/c-Jun protected the AP-1 sequence at -77 to -69 in addition to a region from -189 to -178 which overlaps a putative AP-1-like site, 5'-ATTAATCAT-3'. Finally, deletion of the -182 to -161 region in a 380-bp CAT construct resulted in a substantial reduction of PMA responsiveness. Thus, we have identified a novel phorbol-responsive region that binds c-Fos and c-Jun, and we suggest that these or similar proteins may regulate transcription of the collagenase gene by binding to sequences within and adjacent to the -182 to -161 region.
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PMID:Novel phorbol ester response region in the collagenase promoter binds Fos and Jun. 836 45

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

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

Matrix metalloproteinases belong to a family of structurally related enzymes that plays important role in tissue morphogenesis, differentiation, and wound healing. Their expression is negatively regulated by several members of the steroid hormone receptor family. This is thought to occur through interaction of the steroid receptors with the transcription factor AP-1 that is otherwise required for positive regulation. Here, we demonstrate that AP-1 is not always a target for down-regulation of expression of matrix metalloproteinases by steroid receptors. Androgen receptor negatively regulates matrix metalloproteinase-1 expression not through AP-1 but through a family of Ets-related transcription factors that are also required for positive regulation. This negative regulation is specific for the androgen receptor. It does not require the DNA binding activity but needs amino-terminal sequences of the receptor. These results identify a novel regulatory pathway for negative regulation utilized by a member of the steroid hormone receptor family for down-regulating the expression of matrix metalloproteinases.
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PMID:Androgen receptor-Ets protein interaction is a novel mechanism for steroid hormone-mediated down-modulation of matrix metalloproteinase expression. 879 22

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

We have previously reported that hydrogen peroxide, an active oxygen species and a cellular oxidant, induces c-Fos and c-Jun mRNA expression and DNA synthesis in vascular smooth muscle cells and that these events require arachidonic acid release and metabolism through the lipoxygenase pathway. Here we have identified the eicosanoids that mediate the hydrogen peroxide-induced growth-related events in these cells. Hydrogen peroxide stimulated the production of 12- and 15-hydroperoxyeicosatetraenoic acids in vascular smooth muscle cells. Both 12- and 15-hydroperoxyeicosatetraenoic acids induced the expression of c-Fos and c-Jun protein and increased activating protein 1 (AP-1) activity, as measured by AP-1-DNA binding and AP-1-dependent human collagenase promoter-driven chloramphenicol acetyltransferase reporter gene transcription. Hydrogen peroxide and arachidonic acid also induced the expression of c-Fos and c-Jun protein and AP-1 activity. Nordihydroguaiaretic acid, an inhibitor of the lipoxygenase pathway, significantly inhibited both hydrogen peroxide and arachidonic acid-stimulated c-Fos and c-Jun protein expression and AP-1 activity. Together, these findings suggest that hydrogen peroxide induces the production of eicosanoids and that the eicosanoids are potential mediators of the oxidative stress-stimulated growth-related events in vascular smooth muscle cells.
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PMID:Role of hydroperoxyeicosatetraenoic acids in oxidative stress-induced activating protein 1 (AP-1) activity. 891 Mar 70

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