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)

Recent evidence suggests that vasoconstrictive substances, including angiotensin II (Ang II), may function as a vascular smooth muscle growth promoting substance and may contribute to vascular hypertrophy in hypertension. Atrial natriuretic polypeptide (ANP) is known to be a physiological antagonist to Ang II in blood pressure and fluid homeostasis. Moreover, we have demonstrated that ANP can attenuate Ang II's action on vascular hypertrophy. In this study, we investigated the potential molecular mechanisms for the interaction of ANP and Ang II on vascular cell growth. Ang II dose-dependently induced RNA synthesis in post confluent cultured rat aortic smooth muscle (RASM) cells. ANP (10(-7) M) inhibited the hypertrophic effect of Ang II at the concentration of 10(-10) - 10(-8) M) but exerted no effect on the action of higher doses (10(-7) - 10(-6) M) of Ang II. Ang II (10(9) - 10(-8) M) and a protein kinase C activator, phorbol 12-myristate 13-acetate (PMA, 10(-8) M) rapidly induced c-fos as well as c-Jun and Jun-B mRNA expression in RASM cells. ANP (10(-7) M) itself had no apparent effect on the expression of these protooncogenes. Furthermore, ANP did not inhibit the induction of these protooncogenes by Ang II or PMA. Paradoxically, ANP (10(-7) M) significantly enhanced c-fos mRNA expression induced by Ang II and PMA. However, the chloramphenicol acetyl transferase (CAT) assay using a CAT expression vector containing the AP-1 binding element showed that ANP had no effect on the basal and PMA-stimulated AP-1 activity in transfected RASM cells. We conclude, therefore, that the inhibitory effect of ANP on the growth of vascular smooth muscle cells in vitro does not occur through the regulation of these protooncogene expressions.
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PMID:Interaction of atrial natriuretic polypeptide and angiotensin II on protooncogene expression and vascular cell growth. 182 53

Transcription of the human vasoactive intestinal peptide (VIP) gene is regulated by both cyclic AMP and phorbol esters. A 17-nucleotide enhancer element within the human VIP gene mediates transcriptional activation by both phorbol esters and forskolin. Mutations of this element decrease responses to both agents, suggesting that the trans-acting proteins that mediate both modes of transcriptional regulation have similar DNA-binding characteristics. The response of the VIP enhancer element to forskolin, but not to 12-O-tetradecanoylphorbol-13-acetate, was attenuated by treatment with a recombinant inhibitor of the cAMP-dependent protein kinase, suggesting that the cAMP-dependent protein kinase and protein kinase C second messenger pathways that converge on this single enhancer element are distinct. The transcriptional activator cAMP-responsive element-binding (CREB) proteins and the c-fos.c-Jun complex interact with the VIP enhancer. The dual second messenger responses of the VIP gene may result from the interaction of this second messenger enhancer with different transcriptional activator proteins.
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PMID:Cyclic AMP- and phorbol ester-induced transcriptional activation are mediated by the same enhancer element in the human vasoactive intestinal peptide gene. 184 91

Polyomavirus (Py) DNA replication is regulated by its enhancer, which contains an AP1 site, c-Jun and c-Fos, the products of nuclear protooncogenes c-jun and c-fos, form the heterodimeric transcriptional activating factor AP1. Overexpression of c-fos and c-jun genes strongly stimulated Py DNA replication from the Py origin of replication as well as transcription from the Py early promoter through the AP1 binding site. The cAMP response element (CRE)-binding protein CREB stimulated only transcription, not DNA replication, through the CRE under similar conditions. The results indicate that AP1 functions as a regulator of DNA replication and that the mechanism of activation of Py DNA replication by AP1 is distinct from that of activation of transcription from the Py early promoter.
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PMID:The nuclear protooncogenes c-jun and c-fos as regulators of DNA replication. 185 Aug 42

Products of the adenovirus E1A gene can act synergistically with cAMP to activate transcription of several viral early genes and the cellular genes c-fos and jun-B. Transcription factor AP-1-binding activity is also induced by the combined action of E1A and cAMP. Mouse S49 cells were infected with adenovirus variants expressing either the 243- or 289-amino acid E1A protein and treated with the cAMP analog dibutyryl-cAMP. Significant E1A-dependent induction of c-fos mRNA and AP-1-binding activity was observed in cells expressing either E1A protein. These effects absolutely required the presence of cAMP. In contrast, the 243-amino acid protein was a poor activator of the viral early genes E2 and E4 compared with the 289-amino acid protein. These data suggest that the 243- and 289-amino acid E1A proteins both interact functionally with the cAMP signaling system to activate transcription of a cellular gene and AP-1-binding activity. The mechanism involved in this process is probably different from the mechanism of transcriptional activation of viral genes.
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PMID:Induction of c-fos mRNA and AP-1 DNA-binding activity by cAMP in cooperation with either the adenovirus 243- or the adenovirus 289-amino acid E1A protein. 185 Aug 43

Liver regeneration provides one of the few systems for analysis of mitogenesis in the fully developed, intact animal. Several proteins have been identified as part of the primary growth response in regenerating liver and in mitogen-stimulated cells. Some of these proteins, such as the Jun and Fos families of transcription factors, are thought to have a role in activating transcription of genes expressed subsequently in the growth response. Through differential screening of a regenerating-liver cDNA library, we have identified a rapidly and highly induced gene encoding a 21-kDa leucine-zipper-containing protein that we have designated liver regeneration factor 1 (LRF-1). LRF-1 has no homology with other leucine-zipper proteins outside the basic and leucine-zipper domains. LRF-1 alone can bind DNA, but it preferentially forms heteromeric complexes with c-Jun and Jun-B and does not interact with c-Fos. In solution, it binds with highest affinity to cAMP response elements but also has affinity for related sites. In cotransfection studies, LRF-1 in combination with c-Jun strongly activates a c-Jun-responsive promoter. The induction of the LRF-1 gene in regenerating liver greatly increases the potential variety of heterodimeric combinations of leucine-zipper transcription factors. While LRF-1 mRNA is rapidly induced in the absence of protein synthesis, its peak induction is later than c-fos mRNA, suggesting that LRF-1 may regulate responsive genes at a later point in the cell cycle. As such, LRF-1 may have a unique and critical role in growth regulation of regenerating liver and mitogen-stimulated cells.
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PMID:Identification of LRF-1, a leucine-zipper protein that is rapidly and highly induced in regenerating liver. 190 65

Human T-cell leukemia virus type 1 (HTLV-1) is an etiological agent of adult T-cell leukemia (ATL). We showed here by mobility-shift assay that T-cell lines transformed with the virus contained high levels of AP-1 activities. Consistent with this result, these cell lines expressed increased levels of mRNAs encoding the AP-1 proteins, c-Fos, Fra-1, c-Jun, JunB, and JunD. Previously, transcription of the c-fos gene has been reported to be transactivated by the viral transcription factor, Tax1. By using the human T-cell line (JPX-9), in which expression of the Tax1 is inducible, we showed that expression of mRNAs for Fra-1, c-Jun, and JunD was also transactivated by Tax1. Moreover, Tax1 activated expression of two other transcription factors having zinc finger motifs, Egr-1 and Egr-2, in the same cells. The Tax1-inducible transcription factors identified here are encoded by the members of immediate early genes under the control of growth signals. Thus, Tax1 was suggested to replace growth signals, at least in part, by this mechanism.
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PMID:HTLV-1 Tax induces expression of various immediate early serum responsive genes. 190 55

Many essential biological pathways, including cell growth, development, and metabolism, are regulated by thyroid hormones (THs). TH action is mediated by intracellular receptors that belong to a large family of ligand-dependent transcription factors, including the steroid hormone and retinoic acid receptors. So far it has been assumed that TH receptors (TRs) regulate gene transcription only through the classical protein-DNA interaction mechanism. Here we provide evidence for a regulatory pathway that allows cross-talk between TRs and the signal transduction pathway used by many growth factors, oncogenes, and tumor promoters. In transient transfection studies, we observed that the oncogenes c-jun and c-fos inhibit TR activities, while TRs inhibit induction of the c-fos promoter and repress AP-1 site-dependent gene activation. A truncated TR that lacks only 17 amino acids from the carboxy terminus can no longer antagonize AP-1 activity. The cross-regulation between TRs and the signal transduction pathway appears to be based on the ability of TRs to inhibit DNA binding of the transcription factor AP-1 in the presence of THs. The constituents of AP-1, c-Jun, and c-Fos, vice versa, can inhibit TR-induced gene activation in vivo, and c-Jun inhibits TR DNA binding in vitro. This novel regulatory pathway is likely to play a major role in growth control and differentiation by THs.
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PMID:Novel pathway for thyroid hormone receptor action through interaction with jun and fos oncogene activities. 194 74

Fra-2, one of the Fos-related antigens, is promptly expressed after the growth stimulation of fibroblasts, but its induction peak is later than that of c-Fos. In this report, we examined biochemical properties of Fra-2 and compared them with those of two other Fos family proteins, c-Fos and Fra-1. Like c-Fos and Fra-1, Fra-2 formed stable heterodimers with c-Jun, JunB or JunD in vitro and all these complexes had specific DNA-binding activity to AP-1-binding sites (AP-1 sites) or related sequences. When transiently introduced into a mouse embryonic carcinoma cell line, F9, with reporter genes containing the AP-1 site from the collagenase gene, fra-2 plus c-jun suppressed the transactivation by c-jun alone. This property of Fra-2 is in clear contrast to that of c-Fos, which stimulates the transcriptional activity of c-Jun by forming a stable heterodimer. Analysis of chimeric proteins between c-Fos and Fra-2 indicated that this difference is mainly attributable to their C terminal-half regions. Interestingly, this suppressive effect of Fra-2 was not observed in the combination with JunD: fra-2 plus junD, like c-fos plus junD, had higher transcriptional activity than junD alone. Fra-1 showed essentially the same transcriptional regulatory properties as Fra-2. These differential properties greatly expand the potential range of regulatory functions of the Fos family proteins.
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PMID:Difference in transcriptional regulatory function between c-Fos and Fra-2. 194 31

Chemically and electrically induced seizures elicit the rapid transcriptional activation in neurons of a class of genes referred to as cellular immediate-early genes. Since the products of these genes include transcription factors and cytokines, they are proposed to be involved in coupling neuronal excitation to a complex, and poorly understood, programme of cellular responses that involves the regulation of gene expression. Products of two cellular immediate-early genes, c-fos and c-jun, are components of the transcription factor AP-1. In this review, Jim Morgan and Tom Curran discuss how these gene products have begun to reveal some of the molecular details of stimulus-transcription coupling in the nervous system following seizures. In addition, these genes have provided novel reagents and concepts for investigating the biochemical and cellular sequelae of seizure in the CNS, and point towards new avenues of research and potential therapeutic targets in epilepsy.
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PMID:Proto-oncogene transcription factors and epilepsy. 194 3

The regulation of jun family genes and AP1 activity during the course of differentiation of F9 embryonal carcinoma stem cells was investigated. The induction of differentiation by retinoic acid (RA) leads to an accumulation of c-jun mRNA caused by increased c-jun transcription. This induction is an indirect response to RA and requires a functional AP1 binding site within the c-jun promoter. Expression of jun-B mRNA, however, is transiently induced but at a later time point is repressed by RA. The third member of the family, jun-D, is already active in undifferentiated cells and is only slightly induced after differentiation. Differentiation also converts c-jun from being refractory to phorbol esters to a highly inducible state. The development of this response is correlated with increased AP1 activity in RA-treated cells. By contrast, the induction of c-fos by phorbol esters or cAMP is greatly diminished after RA treatment. Transfection experiments indicate that, in the absence of c-Fos, only c-Jun is an effective transactivator. Hence, the major increase in AP1 activity is due to elevated c-jun expression and probably involves positive autoregulation by the c-Jun protein. Furthermore, these results demonstrate that AP1 activity can be stimulated by phorbol ester without concomitant c-fos induction. Forced expression of c-Jun and v-Jun results in activation of at least two differentiation marker genes, EndoB and tissue plasminogen activator, whose regulatory regions contain AP1 binding sites. Thus, the induction of c-jun transcription by RA, although indirect, can have an important role in the differentiation process.
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PMID:Elevation of AP1 activity during F9 cell differentiation is due to increased c-jun transcription. 196 81

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