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 product of the c-jun proto-oncogene is the major component of the 12-O-tetradecanoyl phorbol 13-acetate (TPA)-inducible transcription factor AP-1. Jun binds to the TPA-responsive elements (TREs) present in a large number of TPA-inducible genes, thereby regulating their expression in response to activation of protein kinase C. Previously we have shown that Jun/AP-1 can also activate cAMP-responsive elements (CREs), indicating the existence of cross-talk in signal transduction at the transcriptional level. Here we show that Jun/AP-1 is activated by the cAMP-dependent protein kinase A (PKA). In transient transfection experiments, TRE activation by Jun is strongly enhanced by co-transfection of the catalytic subunit of PKA or forskolin treatment, although not in all cell types studied. Jun activity can be significantly inhibited by co-transfection of the regulatory subunit of PKA. Furthermore, we show a cell-specific increase in AP-1 binding in response to forskolin treatment. However, since direct phosphorylation of Jun by PKA does not occur, we suggest an indirect activation mechanism.
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PMID:Activation of Jun/AP-1 by protein kinase A. 133 36

Two functionally distinct proteins derived from the FosB gene by alternative splicing have recently been described. FosB protein transforms fibroblasts efficiently, whereas FosB2 protein, a carboxy-terminally truncated form of FosB, does not, despite the fact that both proteins can participate in high-affinity, sequence-specific DNA binding as part of a heterodimeric complex with c-Jun protein. We show here that the functional difference between these proteins is the result of the presence of a potent proline-rich transcriptional activation domain in the carboxy-terminal amino acids unique to FosB. This conclusion is supported by three lines of evidence: (1) Mutations in the carboxy-terminal region of FosB that impair transcriptional activation also reduce transforming potential, despite the fact that DNA binding as part of a complex with c-Jun is not affected; (2) the carboxy-terminal region unique to FosB functions as an activation domain when fused to the DNA-binding domain of GAL4; and (3) transforming potential can be conferred on FosB2 by fusing any of several different well-characterized trans-activation domains. These results identify an additional functional requirement for transformation by Fos proteins and have implications for the mechanism(s) of mitogenic signaling by the AP-1 transcription complex.
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PMID:Transformation by FosB requires a trans-activation domain missing in FosB2 that can be substituted by heterologous activation domains. 137 18

Basal expression of a chimeric gene (pMHO4CAT) consisting of approximately 7 kilobase pairs (kbp) of the 5'-flanking region of the mouse heme oxygenase-1 (HO-1) gene fused to the bacterial chloramphenicol acetyltransferase gene is 2- to 10-fold greater than that of an analogous construct containing only 1287 bp of the 5'-flanking region (pMHO1CAT) in transiently transfected cultured cells. The enhancer activity has been localized to a 268-base pair (bp) fragment positioned approximately 4 kilobase pairs upstream of the transcription initiation site. This fragment contains two high affinity protein binding sites, regions A and B, as determined by DNase I protection assays using nuclear protein extracts from rat C6 glioma cells. Both sites include core sequence elements, TGAGTCA (region A) and TGTGTCA (region B), that resemble the consensus binding site, TGA(G/C)TCA, of the Jun/Fos (AP-1) family of transcription factors. Purified, bacterially expressed AP-1 (c-Jun homodimer) specifically binds to both elements, exhibiting greater affinity for the region A motif. The expression of pMHO4CAT, but not of pMHO1CAT, is stimulated by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), and the 268-bp enhancer fragment confers TPA inducibility and c-Jun/c-Fos transactivation to the heterologous SV40 promoter. These functions are mediated by the AP-1 binding sites as multiple copies of the region A motif also confer TPA induction and c-Jun/c-Fos transactivation upon a heterologous promoter.
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PMID:Distal AP-1 binding sites mediate basal level enhancement and TPA induction of the mouse heme oxygenase-1 gene. 140 Apr 99

In regenerating liver, a physiologically normal model of cell growth, LRF-1, JunB, c-Jun, and c-Fos among Jun/Fos/LRF-1 family members are induced posthepatectomy. In liver cells, high levels of c-Fos/c-Jun, c-Fos/JunB, LRF-1/c-Jun, and LRF-1/JunB complexes are present for several hours after the G0/G1 transition, and the relative level of LRF-1/JunB complexes increases during G1. We provide evidence for dramatic differences in promoter-specific activation by LRF-1- and c-Fos-containing complexes. LRF-1 in combination with either Jun protein strongly activates a cyclic AMP response element-containing promoter which c-Fos/Jun does not activate. LRF-1/c-Jun, c-Fos/c-Jun, and c-Fos/JunB activate specific AP-1 and ATF site-containing promoters, and in contrast, LRF-1/JunB potently represses c-Fos- and c-Jun-mediated activation of these promoters. Repression is dependent on a region in LRF-1 that includes amino acids 40 to 84 (domain R) and the basic/leucine zipper domain. As the relative level of LRF-1/JunB complexes increases posthepatectomy, c-Fos/Jun-mediated ATF and AP-1 site activation is likely to decrease with simultaneous transcriptional activation of the many liver-specific genes whose promoters contain cyclic AMP response element sites. Thus, through complex interactions among LRF-1, JunB, c-Jun, and c-Fos, control of delayed gene expression may be established for extended times during the G1 phase of hepatic growth.
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PMID:Interactions among LRF-1, JunB, c-Jun, and c-Fos define a regulatory program in the G1 phase of liver regeneration. 140 55

A variety of agents can induce predifferentiation growth arrest (PGA) in human keratinocytes; these include transforming growth factor beta 1 (TGF-beta 1) and razoxane. We evaluated the ability of these and other agents to induce the expression of a variety of transcription factor genes including c-fos, c-myc, junB, and c-jun. The results show that both TGF-beta 1 and razoxane induce maximal c-jun mRNA expression 4 days after initiation of treatment concurrent with the development of PGA. In contrast, no detectable induction of c-fos, c-myc, or junB was observed. Keratinocytes maintained in the presence of TGF-beta 1 for an additional 3 days continued to show high levels of c-jun mRNA, indicating stable induction. Razoxane treatment also induces PGA and high c-jun mRNA levels for 4 days, but thereafter a decay of c-jun expression occurs. Run-off transcription experiments comparing rapidly growing cells with cells treated with TGF-beta 1 for 4 days demonstrated a significant increase in transcriptional activity of the c-jun gene. This result indicates that the increase in c-jun gene expression is due in part to a change in transcriptional regulation of c-jun. The stable induction of c-jun mRNA in keratinocytes at the PGA state is unique because the induction of this gene is usually transient. The finding that c-fos is not coinduced suggests that c-Jun homodimers or other AP-1 heterodimers may be formed at the PGA state to facilitate the stable induction of c-jun mRNA. This experimental system should therefore serve as a model system to study the molecular mechanisms for the stable control of c-jun gene expression and the control of AP-1-dependent gene expression during the process of keratinocyte differentiation.
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PMID:Stable induction of c-jun mRNA expression in normal human keratinocytes by agents that induce predifferentiation growth arrest. 141 6

The main feature of cellular senescence is cessation of cell proliferation. Protooncogene c-fos, which is required for the cell to enter into DNA synthesis, is repressed in senescent fibroblasts. Diminished expression of c-fos and impaired formation of AP-1, which is a complex of c-Fos and c-Jun proteins acting as a transcription factor, was found in lymphocytes derived from old (> 18 months) mice and stimulated with Con A. There were no differences in c-jun expression and formation of other transcription factors (AP-2 and AP-3) between lymphocytes isolated from old and young mice.
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PMID:Loss of transcription factor AP-1 DNA binding activity during lymphocyte aging in vivo. 142 49

The proteins Fos and Jun dimerize to constitute the transcription factor AP-1 which is known to respond to treatment with phorbol esters. AP-1 binds to 12-O-tetradecanoylphorbol-13-acetate-responsive elements (TREs) palindromic sequences. cAMP-responsive elements (CREs) are very similar to TREs and CRE-binding proteins are similar in structure to Fos and Jun. Thus, the two main signal transduction pathways have closely related nuclear effectors which could possibly overlap and/or cross-talk. The gene CRE modulator (CREM) encodes both antagonists and an activator of the cAMP transcriptional response by alternative splicing. In this report we show that CREM antagonists are able to block the transcriptional activation elicited by c-Jun. The mechanism by which this repression is obtained does not require heterodimerization between CREM and the Fos and/or Jun proteins. In contrast, we show that both CREM and CRE-binding proteins (CREB) are able to bind TREs and therefore compete with c-Jun for this site. Removal of the phosphorylation domain in CREM does not affect the down-regulatory function. We also show that c-Fos does not affect the inhibitory function of CREM on c-Jun and that the transcriptional activation elicited by the other members of the jun family (JunB, JunD, and v-Jun) is also down-regulated by CREM.
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PMID:Transcriptional cross-talk: nuclear factors CREM and CREB bind to AP-1 sites and inhibit activation by Jun. 142 97

Transcription factor AP-1 is constituted by the various products of the fos and jun proto-oncogene family members, which associate as dimers to bind with variable efficiency to 12-O-tetradecanoyl phorbol 13-acetate (TPA)-responsive promoter elements (TREs). We have recently shown that DNA binding of AP-1 is regulated by an inhibitory protein, IP-1, whose activity is modulated by phosphorylation. Here it is shown that although AP-1 has a very high affinity for its recognition sequence, its binding to the TRE can be quickly inhibited by the addition of IP-1. IP-1 is more active on AP-1 complexes formed during a shorter period of time. IP-1 activity is blocked by stimulation of the protein kinase C (PKC) signal transduction pathway, achieved by treating HeLa cells with phorbol esters or with a diacylglycerol analog. We observed an increase in AP-1-DNA binding after treatment of the cells with either the calcium ionophore A-23187 or dibutyryl cAMP; this could be ascribed to inhibition of IP-1 activity. A decreased IP-1 activity also correlates with the increase in AP-1-DNA binding after stimulating cells with serum. This suggests that IP-1 is an important target of the various signal transduction pathways. No effect on AP-1 and IP-1 was detected in cells transformed by Ki-ras or v-raf; nor could an effect of inhibition of protein synthesis be observed. We also analysed IP-1 regulation upon differentiation of P19 embryonal carcinoma cells by retinoic acid. We conclude that IP-1 regulation has a pivotal role in the final modulation of Fos-Jun by signal transduction pathways.
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PMID:AP-1 (Fos-Jun) regulation by IP-1: effect of signal transduction pathways and cell growth. 143 49

The proto-oncogene products c-Fos and c-Jun heterodimerize through their leucine zippers to form the AP-1 transcription factor. The transcriptional activity of the heterodimer is regulated by signal-dependent phosphorylation and dephosphorylation events. The stability of c-Fos was found to also be controlled by intracellular signal transduction. In transient expression and in vitro degradation experiments, the stability of c-Fos was decreased when the protein was dimerized with phosphorylated c-Jun. c-Jun protein isolated from phorbol ester-induced cells did not target c-Fos for degradation, which suggests that c-Fos is transiently stabilized after stimulation of cell growth. v-Fos protein, the retroviral counterpart of c-Fos, was not susceptible to degradation targeted by c-Jun.
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PMID:Targeted degradation of c-Fos, but not v-Fos, by a phosphorylation-dependent signal on c-Jun. 147 Sep 18

c-Jun belongs to a family of proteins that require dimerization for activity. Dimerization occurs through a leucine-rich region near the carboxy terminus called the leucine zipper. Jun can form dimeric complexes with other Jun family as well as Fos family members. The relative proportion of these different dimeric complexes is determined by the relative abundance of each family member at a particular time. Overexpression of v-Jun or c-Jun alone will lead to cell transformation of chicken embryo fibroblasts, albeit with varying efficiencies. Upon overexpression, v-Jun or c-Jun presumably becomes the predominant AP-1 component in the cell. Theoretically, this should lead to a larger proportion of homodimers than heterodimers. It is not clear what role, if any, the other Jun and Fos family proteins play during cell transformation. We have examined the ability of Jun to induce cell transformation in chicken embryo fibroblasts in the absence of interaction with other Jun or Fos family proteins. To this end, we have constructed a chicken v-Jun mutant that is incapable of heterodimerization. This was accomplished by replacing the leucine zipper region of Jun with that of the yeast transcription factor GCN4. This chimeric protein, VJ-GLZ, retains all of the DNA binding and transcriptional activation domains of v-Jun. As expected, in vitro translated VJ-GLZ was found to be incapable of forming heterodimers with c-Fos, FosB, and JunD.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Heterodimerization with c-Fos is not required for cell transformation of chicken embryo fibroblasts by Jun. 147 69

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