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)

We have studied interactions between bacterially produced E1A linked to Sepharose and the various DNA-binding proteins present in HeLa cell nuclear extracts (NE). DNA-binding activities and cross-reactive polypeptides recognizing the cAMP-responsive element (CRE) and the activator protein 1 (AP1) sites were bound to the E1A column, whereas nuclear factor 1 (NF1) and the activator protein 2 (AP2) DNA-binding activities were not retained by E1A. The binding activities that were retained belonged to the CRE and JUN protein family, as judged by Western blot analysis. Authentic CRE-BP1, c-Jun and c-Fos proteins produced by in-vitro translation also bound to the E1A column. However, efficient binding of in-vitro-translated CRE-BP1 and c-Fos proteins to E1A required preincubation with NE. We show here that immobilized E1A sequesters several cellular upstream transcription activators, and suggest a role for members of the AP1 family of transcription factors in E1A-mediated gene regulation.
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PMID:Interactions between adenovirus E1A and members of the AP-1 family of cellular transcription factors. 183 15

We present evidence that CRE-BP1 binding to the cyclic AMP (cAMP) response element (CRE) is a transcriptional activator. Transcriptional activation was assayed by cotransfection into CV-1 cells of a CRE-BP1 expression plasmid together with a reporter plasmid in which the thymidine kinase promoter and four tandem repeats of CRE were linked to the chloramphenicol acetyltransferase (CAT) gene. Cotransfection with the CRE-BP1 expression plasmid caused an 8-fold stimulation of CAT activity, while cotransfection with the plasmids to express CRE-BP1 and c-Jun induced a 32-fold stimulation of CAT activity, suggesting that a heterodimer of CRE-BP1 with c-Jun is a stronger trans-activator than a homodimer of CRE-BP1. By using a series of deletion and point mutants of CRE-BP1 in this cotransfection assay, two functional domains of CRE-BP1 were identified: the putative metal finger structure in the amino-terminal region and the leucine zipper motif linked to a cluster of basic amino acids in the carboxyl-terminal region. The former was a transcriptional activation domain in the absence of c-Jun. The latter was a DNA-binding domain, and was essential in both the presence and absence of c-Jun.
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PMID:Identification of the functional domains of the transcriptional regulator CRE-BP1. 183 93

The adenovirus E1A protein stimulates transcription of various genes. Recent experiments using a fusion protein have shown that E1A can function through a specific CRE (cyclic AMP response element)-binding protein, CRE-BP1 (also designated ATF-2), which stimulates the transcription from a CRE-containing promoter by homodimer formation or heterodimer formation with c-Jun. In this paper, the functional domains required for mediation of the E1A-induced trans-activation were analyzed using deletion and point mutants of CRE-BP1. The mutation in the putative metal finger structure or leucine zipper structure completely abolished the ability of CRE-BP1 to mediate the E1A-induced trans-activation. Furthermore, overexpression of CRE-BP1 or c-Jun interfered with the E1A-induced trans-activation. These results suggest that the complete putative metal finger structure in the N-terminal region of CRE-BP1 plays an important role for the E1A-induced trans-activation, and the heterodimer of CRE-BP1 with the unidentified protein participates in the interaction with E1A.
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PMID:Complete putative metal finger and leucine zipper structures of CRE-BP1 are required for the E1A-induced trans-activation. 183 14

Proto-oncogene products c-Fos and c-Jun form a complex which binds with high affinity to the 12-O-tetradecanoylphorbol-13-acetate (TPA) response DNA element and which stimulates transcription of phorbol ester- inducible genes. We have previously identified, by screening a lambda gt11 expression library, murine protein mXBP, which binds to a sequence which overlaps the 3' end of the murine class II major histocompatibility complex A alpha gene X box, a conserved transcription element found upstream of all class II genes. Here, we demonstrate that the target sequence for mXBP is a consensus cyclic AMP response element (CRE). mXBP is a member of the leucine zipper family of DNA-binding proteins and has significant homology to oncoproteins c-Fos and c-Jun. The inferred amino acid sequence of mXBP shows near identity to human CRE-BP1, except it does not contain an internal proline-rich domain. Immunoprecipitation and glutaraldehyde cross-linking studies show that mXBP/CRE-BP2 can form a complex with c-Jun. Complex formation is dependent on intact leucine zipper domains in both proteins. mXBP-c-Jun complexes can coexist with c-Fos-c-Jun complexes and can bind with high affinity to CRE, but not to TPA response DNA element, sequences. These results suggest that changes in the expression of mXBP/CRE-BP2, c-Fos, and c-Jun, which alter the ratio of mXBP-c-Jun to c-Fos-c-Jun complexes, would affect the relative expression of cyclic AMP and phorbol ester-responsive genes. This provides support for a combinatorial model of gene regulation, whereby protein-protein interactions which alter the DNA binding specificity of protein complexes can expand the flexibility of cellular transcriptional responses.
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PMID:mXBP/CRE-BP2 and c-Jun form a complex which binds to the cyclic AMP, but not to the 12-O-tetradecanoylphorbol-13-acetate, response element. 213 7

The cyclic AMP response element (CRE) is found in many cellular genes regulated by cyclic AMP, and similar elements are present in the early genes of adenovirus that are activated by E1A. The transcription factor CREB has previously been shown to bind this site, and cDNAs for CREB have recently been characterized. We report here the isolation of a cDNA encoding a human DNA-binding protein that also recognizes this motif in cellular and viral promoters. This protein, HB16, displays structural similarity to CREB and to c-Jun and c-Fos, which bind the related 12-O-tetradecanoylphorbol-13-acetate response element (TRE). HB16 contains a highly basic, putative DNA-binding domain and a leucine zipper structure thought to be involved in dimerization. Deletional analysis of HB16 demonstrated that the leucine zipper is required for its interaction with DNA. In addition, HB16 could form a complex with c-Jun but not with c-Fos. Despite its structural similarity to c-Jun and c-Fos and its interaction with c-Jun, HB16 had approximately a 10-fold-lower affinity for the TRE sequence than for the CRE sequence. Although HB16 and CREB both recognized the CRE motif, an extensive binding analysis of HB16 revealed differences in the fine specificity of binding of the two proteins. HB16 mRNA was found at various levels in many human tissues but was most abundant in brain, where its expression was widespread. The existence of more than one CRE-binding protein suggests that the CRE motif could serve multiple regulatory functions.
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PMID:A cDNA for a human cyclic AMP response element-binding protein which is distinct from CREB and expressed preferentially in brain. 232 2

A human cDNA clone for ERM, a member of the ets gene family, has been obtained by polymerase chain reaction with degenerate primers corresponding to highly conserved regions within an Ets DNA binding domain. ERM mRNA is expressed ubiquitously. The gene was mapped to chromosome 3q27. In in vivo transient-expression assays, ERM induced transcription more efficiently from a synthetic element containing both an ets-binding site (EBS) and a cyclic AMP response element (CRE) than from one containing an EBS alone. The activation of a synthetic EBS-CRE site by ERM was likely to involve a leucine zipper protein capable of dimerizing with CRE-BP1 leucine zipper. Indeed, ERM and c-Jun synergistically activated the EBS-CRE without making an apparent ternary complex. The synergy between c-Jun and ERM may be attributed to the enhancing effect of c-Jun on the transcription activity of ERM, because c-Jun increased ERM transcription activity by more than 20-fold in an assay system using a variety of fusion proteins between a Gal4 DNA-binding domain and a portion of ERM. This enhancing effect of c-Jun required the amino-terminal portion of ERM.
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PMID:ERM, a PEA3 subfamily of Ets transcription factors, can cooperate with c-Jun. 755 55

CRE-BPa, here designated as CRE-BPa alpha, is a novel member of the CRE (cAMP response element)-binding protein CRE-BP1 family. CRE-BPa alpha has four regions highly homologous to CRE-BP1, including a putative metal finger structure and a DNA-binding domain consisting of a basic amino acid cluster and a leucine zipper. CRE-BPa specifically binds to CRE as a homodimer or heterodimer with c-Jun or CRE-BP1. Here we report three alternative splicing forms of CRE-BPa alpha: two of them, CRE-BPa beta and CRE-BPa gamma, lack the N-terminal 7 and 33 amino acids of CRE-BPa alpha, and the third one CRE-BPa delta, has 16 additional amino acids in the N-terminus and amino acids 156-508 of CRE-BPa alpha. In CAT cotransfection experiments using CV-1 cells, transient expression of each of four CRE-BPa proteins caused a 1.6- to 3.4-fold increase of CRE-dependent transcription, respectively. Interestingly, these weak trans-activating capacities of CRE-BPa proteins were enhanced 2.7- to 3.6-fold by treatment of cells with 12-O-tetradecanoyl-phorbol 13-acetate (TPA). However, CRE-BPa did not affect the TPA-induced and TRE (TPA response element)-dependent transcription. These results indicate that CRE-BPa is a CRE-dependent trans-activator, and that CRE-BPa can confer TPA inducibility on CRE. Thus, CRE-BPa has an unique characteristic of cross-talk between cAMP pathway and TPA pathway.
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PMID:Regulation of trans-activating capacity of CRE-BPa by phorbol ester tumor promoter TPA. 837 84

Among multiple CRE (cyclic AMP response element)-binding proteins, CRE-BP1 (also designated ATF-2) has two unique characteristics: it mediates the adenovirus E1A-induced trans-activation and forms a heterodimer with c-Jun. Two structures, a putative metal finger and a leucine zipper, in CRE-BP1 are responsible for these capacities. As a new member of a CRE-BP1 family that has similar metal finger and leucine zipper structures, we have isolated cDNA clones of CRE-BPa by cross-hybridization with CRE-BP1 cDNA. CRE-BPa protein consists of 508 amino acids and has a molecular weight of 56,840. CRE-BPa protein is highly homologous with CRE-BP1 in four regions: two of them are the regions containing the putative metal finger or the DNA-binding domain consisting of the basic amino acid cluster and the leucine zipper. Like CRE-BP1, CRE-BPa binds to CRE with higher affinity than to the 12-O-tetradecanoylphorbol-13-acetate response element as a homodimer or a CRE-BPa/c-Jun or CRE-BPa/CRE-BP1 heterodimer. However, using the c-Myb-CRE-BPa fusion protein, it was show that CRE-BPa could not mediate the E1A-induced trans-activation. Expression of CRE-BPa mRNA was found in a limited number of cell lines, and multiple sizes of CRE-BPa mRNA species were detected in some cell lines and tissues. CRE-BPa will be useful to clarify the mechanism of CRE-mediated transcriptional activation by E1A or c-Jun.
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PMID:Isolation and characterization of a novel member of the gene family encoding the cAMP response element-binding protein CRE-BP1. 844 Jul 10

The enteropathogenic bacterium Yersinia enterocolitica counteracts host defense mechanisms by interfering with eukaryotic signal transduction pathways. In this study, we investigated the mechanism by which Y. enterocolitica prevents macrophage tumor necrosis factor-alpha (TNFalpha) production. Murine J774A.1 macrophages responded to Y. enterocolitica infection by rapid activation of mitogen-activated protein kinases (MAPK) extracellular signal-regulated kinase (ERK), p38, and c-Jun NH2-terminal kinase (JNK). However, after initial activation, the virulent Y. enterocolitica strain harboring the Y. enterocolitica virulence plasmid caused a substantial decrease in ERK1/2 and p38 tyrosine phosphorylation. Simultaneously, the virulent Y. enterocolitica strain gradually suppressed phosphorylation of the transcription factors Elk-1, activating transcription factor 2 (ATF2), and c-Jun, indicating time-dependent inhibition of ERK1/2, p38, and JNK kinase activities, respectively. Analysis of different Y. enterocolitica mutants revealed that (i) MAPK inactivation parallels the inhibition of TNFalpha release, (ii) the suppressor effect on TNFalpha production, which originates from the lack of TNFalpha mRNA, is distinct from the ability of Y. enterocolitica to resist phagocytosis and to prevent the oxidative burst, (iii) the tyrosine phosphatase YopH, encoded by the Y. enterocolitica virulence plasmid, is not involved in the decrease of ERK1/2 and p38 tyrosine phosphorylation or in the cytokine suppressive effect. Altogether, these results indicate that Y. enterocolitica possesses one or more virulence proteins that suppress TNFalpha production by inhibiting ERK1/2, p38, and JNK kinase activities.
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PMID:Yersinia enterocolitica promotes deactivation of macrophage mitogen-activated protein kinases extracellular signal-regulated kinase-1/2, p38, and c-Jun NH2-terminal kinase. Correlation with its inhibitory effect on tumor necrosis factor-alpha production. 918 92

Regulatory proteins are often ubiquitinated, depending on their phosphorylation status as well as on their association with ancillary proteins that serve as adapters of the ubiquitination machinery. We previously demonstrated that c-Jun is targeted for ubiquitination by its association with inactive c-Jun NH2-terminal kinase (JNK). Phosphorylation by activated JNK protects c-Jun from ubiquitination, thus by prolonging its half-life. In the study reported here, we determined the ability of JNK to target ubiquitination of its other substrates (Elk1 and activating transcription factor 2 (ATF2)) and associated proteins (ATF2 and JunB). We demonstrate that phosphorylation by JNK protects ATF2, but not Elk1, from JNK-targeted ubiquitination. We also show that association of inactive JNK with JunB or ATF2 is necessary to target them for ubiquitination. Unlike its targeting of c-Jun, JNK requires additional cellular components, yet to be identified, to target the ubiquitination of ATF2. Elk1 is phosphorylated by JNK, but JNK neither associates with nor targets Elk1 for ubiquitination. The implications for the dual role of JNK in the regulation of ubiquitination and stability of c-Jun, ATF2, and JunB in normally growing versus stressed cells are discussed.
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PMID:c-Jun NH2-terminal kinases target the ubiquitination of their associated transcription factors. 940 16

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