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 transcription factor CHOP (C/EBP homologous protein 10) is a bZIP protein induced by a variety of stimuli that evoke cellular stress responses and has been shown to arrest cell growth and to promote programmed cell death. CHOP cannot form homodimers but forms stable heterodimers with the C/EBP family of activating transcription factors. Although initially characterized as a dominant negative inhibitor of C/EBPs in the activation of gene transcription, CHOP-C/EBP can activate certain target genes. Here we show that CHOP interacts with members of the immediate-early response, growth-promoting AP-1 transcription factor family, JunD, c-Jun, and c-Fos, to activate promoter elements in the somatostatin, JunD, and collagenase genes. The leucine zipper dimerization domain is required for interactions with AP-1 proteins and transactivation of transcription. Analyses by electrophoretic mobility shift assays and by an in vivo mammalian two-hybrid system for protein-protein interactions indicate that CHOP interacts with AP-1 proteins inside cells and suggest that it is recruited to the AP-1 complex by a tethering mechanism rather than by direct binding of DNA. Thus, CHOP not only is a negative or a positive regulator of C/EBP target genes but also, when tethered to AP-1 factors, can activate AP-1 target genes. These findings establish the existence of a new mechanism by which CHOP regulates gene expression when cells are exposed to cellular stress.
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PMID:CHOP enhancement of gene transcription by interactions with Jun/Fos AP-1 complex proteins. 1052 47

In the blast crisis phase of chronic myelogenous leukemia (CML), Bcr-Abl(+) myeloblasts fail to undergo terminal maturation. The extracellular signal-regulated kinase (Erk) mitogen-activated protein (MAP) kinase has been shown to mediate terminal differentiation of myeloid cells. Interestingly, Bcr-Abl(+) CML cell lines established from blast crisis were found to have low Erk MAP kinase activity. In this study, we analyzed the role of the Gab2 docking protein in regulation of the Erk MAP kinase in Bcr-Abl(+) K562 human CML cells. Overexpression of Gab2 in K562 cells resulted in transcriptional activation of the c-fos serum response element (SRE) promoter, whereas overexpression of SHP2, Grb2, and CrkL had no effect. Activation of the c-fos SRE transcriptional activity by Gab2 required tyrosine 604, which is a SHP2 docking site on Gab2, and the SHP2 tyrosine phosphatase activity. Elk1, c-Jun, and CHOP trans-reporting assays indicated that overexpression of Gab2 selectively activated the Erk2-Elk1 signaling pathway. To determine cellular consequences of elevating the Gab2 level in K562 cells, stable cell lines for doxycycline-inducible expression of the wild-type Gab2 (Gab2WT) and an SHP2-binding defective Gab2 (Gab2Tyr604Phe) were established. Analysis of these cell lines indicated that induction of Gab2WT expression, but not Gab2Tyr604Phe expression, led to Erk activation, growth arrest, cell spreading, and enlargement; expression of megakaryocyte/platelet lineage-specific integrins alphaIIb/beta3 (CD41/CD61); and upregulation of RNA for megakaryocyte/platelet proteins. All of these changes are characteristics of megakaryocytic differentiation. Together, these results reveal Gab2 as a limiting signaling component for Erk MAP kinase activation and terminal differentiation of K562 CML cells.
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PMID:Regulation of the Erk2-Elk1 signaling pathway and megakaryocytic differentiation of Bcr-Abl(+) K562 leukemic cells by Gab2. 1183 Apr 91

Ultraviolet (UV) irradiation induces various cellular responses by activating many UV-responsive enzymes including mitogen-activated protein kinases (MAPKs). Various G protein-coupled receptor agonists also activate MAPKs, but it is not known whether or not G proteins also mediate the UV-induced activation of MAPKs. Therefore, this study was undertaken to determine whether the G protein betagamma-subunit (Gbetagamma) mediates the UV-induced activation of p38 and JNK. Gbetagamma overexpression in COS-1 cells amplified the UV-induced activation of p38 but reduced JNK activation. The overexpression of the C-terminal region of beta-adrenergic receptor kinase (betaARKct) decreased the UV-induced activation of p38 but increased JNK activation. Gbeta(1)gamma(2) expression increased MKK3/6 phosphorylation with a concomitant decrease in MKK4 phosphorylation, which contrasts with betaARKct expression. Gbeta(1)gamma(2) or betaARKct expression resulted in corresponding changes in the transcriptional activity of CHOP and c-Jun. Treatment with a p38 inhibitor, SB203580, or the expression of a kinase-inactive p38 increased the UV-induced JNK activation. Expression of the constitutively active MKK6 decreased the UV-induced JNK activation. In summary, although the endogenous Gbetagamma was found to mediate about half of the UV-induced activation of p38, it was found that exogenous Gbetagamma mediates the bi-directional regulation of UV-induced p38 and JNK activation, and that this bi-directional regulation results from the inhibition of JNK activation by the p38 activated via Gbetagamma in the COS-1 cells.
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PMID:Bi-directional regulation of UV-induced activation of p38 kinase and c-Jun N-terminal kinase by G protein beta gamma-subunits. 1197 90

Genes associated with Parkinson's disease (PD) have suggested a role for ubiquitin-proteasome dysfunction and aberrant protein degradation in this disorder. Inasmuch as oxidative stress has also been implicated in PD, the present study examined transcriptional changes mediated by the Parkinsonism-inducing neurotoxins 6-hydroxydopamine (6-OHDA) and 1-methyl-4-phenylpyridinium (MPP+) in a dopaminergic cell line. Microarray analysis of RNA isolated from toxin treated samples revealed that the stress-induced transcription factor CHOP/Gadd153 was dramatically up-regulated by both 6-OHDA and MPP+. Treatment with 6-OHDA also induced a large number of genes involved in endoplasmic reticulum stress and unfolded protein response (UPR) such as ER chaperones and elements of the ubiquitin-proteasome system. Reverse transcription-PCR, Western blotting, and immunocytochemical approaches were used to quantify and temporally order the UPR pathways involved in neurotoxin-induced cell death. 6-OHDA, but not MPP+, significantly increased hallmarks of UPR such as BiP, c-Jun, and processed Xbp1 mRNA. Both toxins increased the phosphorylation of UPR proteins, PERK and eIF2 alpha, but only 6-OHDA increased phosphorylation of c-Jun. Thus, 6-OHDA is capable of triggering multiple pathways associated with UPR, whereas MPP+ exhibits a more restricted response. The involvement of UPR in these widely used neurotoxin models supports the role of ubiquitin-proteasome pathway dysfunction in PD.
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PMID:Parkinsonian mimetics induce aspects of unfolded protein response in death of dopaminergic neurons. 1259 33

Mitogen-activated protein kinases (MAPKs) mediate signaling from the cell membrane to the nucleus following their phosphorylation at conserved threonine and tyrosine residues within their activation loops. We show that protein tyrosine phosphatase epsilon (PTP epsilon) inhibits ERK1 and ERK2 kinase activity and reduces their phosphorylation; in agreement, ERK phosphorylation is increased in fibroblasts and in mammary tumor cells from mice genetically lacking PTP epsilon. PTP epsilon inhibits events downstream of ERKs, such as transcriptional activation mediated by Elk1 or by the serum response element. PTP epsilon also inhibits transcriptional activation mediated by c-Jun and C/EBP binding protein (CHOP) but not that mediated by the unrelated NFkB, attesting that it is broadly active within the MAPK family but otherwise specific. The effect of PTP epsilon on ERKs is at least in part indirect because phosphorylation of the threonine residue in the ERK activation loop is reduced in the presence of PTP epsilon. Nonetheless, PTP epsilon is present in a molecular complex with ERK, providing PTP epsilon with opportunity to act on ERK proteins also directly. We conclude that PTP epsilon is a physiological inhibitor of ERK signaling. Slow induction of PTP epsilon and its lack of nuclear translocation following mitogenic stimulation suggest that PTP epsilon functions to prevent inappropriate activation and to terminate prolonged, rather than acute, activation of ERK in the cytosol.
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PMID:Protein tyrosine phosphatase epsilon inhibits signaling by mitogen-activated protein kinases. 1275 1

The CAAT/enhancer binding protein homologous transcription factor CHOP, also known as GADD153, is involved in DNA damage, growth arrest, and the induction of apoptosis after endoplasmic reticulum stress and nutrient deprivation. CHOP dimerizes with and inhibits the binding of C/EBP-related transcription factors to their consensus DNA target sequences and also forms novel complexes with other transcriptional proteins (e.g. c-Jun, c-Fos). The transcriptional activation of these complexes is modified by their phosphorylation. Phosphorylation of CHOP at serine 79 and serine 81 by p38-MAP kinase enhances its transcriptional activity. Here we show that an interactive association between CHOP and casein kinase II (CK2) results in the phosphorylation of its amino-terminal transactivation domain. Mapping of the functional domains of CHOP indicates that the region in CHOP required for association with CK2 differs from that required for its phosphorylation. Th binding of CK2 to CHOP requires only the carboxylterminal bZip domain of CHOP, whereas phosphorylation involves residues located in the amino-terminal domain. The presence of the bZip domain, however, facilitates the phosphorylation of CHOP. Analyses of the effect of point mutations of CHOP on its transcriptional activity and the effect of specific inhibitors of CK2 lead us to conclude that CK2-mediated phosphorylation of CHOP inhibits its transcriptional activity. Our findings suggest that inhibition of the proapoptotic functions of CHOP by CK2 may be a mechanism by which CK2 prevents apoptosis and promotes cellular proliferation.
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PMID:CHOP transcription factor phosphorylation by casein kinase 2 inhibits transcriptional activation. 1287 86

In susceptible strains of mice, infection with the mutant retrovirus MoMuLV-ts1 causes a neurodegeneration and immunodeficiency syndrome that resembles human human immunodeficiency virus-acquired immunodeficiency syndrome (HIV-AIDS). In this study the authors show increased expression of cyclooxygenase-2 (COX-2) in the brainstem tissues of ts1-infected mice. Up-regulated central nervous system (CNS) levels of this enzyme are associated with HIV-associated dementia and other inflammatory and neurodegenerative diseases such as amyotrophic lateral sclerosis, Alzheimer's disease, and Parkinson's disease. In brainstem sections, the authors find that astrocytes surrounding spongiform lesions contain increased amounts of immunoreactive COX-2. COX-2 is also up-regulated in cultured ts1-infected cells from the C1 astrocytic cell line, and activation of c-Jun N-terminal kinase, or JNK, pathway. Markers of endoplasmic reticulum (ER) stress, specifically the CCAAT/enhancer-binding protein (CHOP), the glucose-related protein 78 (GRP78), and phosphorylated eukaryotic initiation factor 2 alpha (eIF2 alpha), were also up-regulated in ts1-infected C1 astrocytes. Up-regulation of COX-2 and the above ER signaling factors was reversed by treatment of the infected cells with curcumin which specifically inhibits the JNK/c-Jun pathway. These findings indicate that the JNK/c-Jun pathway is most likely responsible for COX-2 expression induced by ts1 in astrocytes, and that ts1 infection in astrocytes may lead to up-regulation of both inflammatory and ER stress pathways in the central nervous system. Because COX-2 inhibitors are now widely used to treat inflammatory conditions in animals and humans, this finding suggests that these drugs may be useful for therapeutic intervention in neurodegenerative syndromes as well.
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PMID:Up-regulation of astrocyte cyclooxygenase-2, CCAAT/enhancer-binding protein-homology protein, glucose-related protein 78, eukaryotic initiation factor 2 alpha, and c-Jun N-terminal kinase by a neurovirulent murine retrovirus. 1603 95

To obtain insight into the morphological and molecular correlates of motoneuron degeneration in amyotrophic lateral sclerosis (ALS) mice that express G93A mutant superoxide dismutase (SOD)1 (G93A mice), we have mapped and characterized 'sick' motoneurons labelled by the 'stress transcription factors' ATF3 and phospho-c-Jun. Immunocytochemistry and in situ hybridization showed that a subset of motoneurons express ATF3 from a relatively early phase of disease before the onset of active caspase 3 expression and motoneuron loss. The highest number of ATF3-expressing motoneurons occurred at symptom onset. The onset of ATF3 expression correlated with the appearance of ubiquitinated neurites. Confocal double-labelling immunofluorescence showed that all ATF3-positive motoneurons were immunoreactive for phosphorylated c-Jun. Furthermore, the majority of ATF3 and phospho-c-Jun-positive motoneurons were also immunoreactive for CHOP (GADD153) and showed Golgi fragmentation. A subset of ATF3 and phosphorylated c-Jun-immunoreactive motoneurons showed an abnormal appearance characterized by a number of distinctive features, including an eccentric flattened nucleus, perikaryal accumulation of ubiquitin immunoreactivity, juxta-nuclear accumulation of the Golgi apparatus and the endoplasmic reticulum, and intense Hsp70 immunoreactivity. These abnormal cells were not immunoreactive for active caspase 3. We conclude that motoneurons in ALS-SOD1 mice prior to their death and disappearance experience a prolonged sick phase, characterized by the gradual accumulation of ubiquitinated material first in the neurites and subsequently the cell body.
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PMID:ATF3 expression precedes death of spinal motoneurons in amyotrophic lateral sclerosis-SOD1 transgenic mice and correlates with c-Jun phosphorylation, CHOP expression, somato-dendritic ubiquitination and Golgi fragmentation. 1626 28

The proteasome inhibitor bortezomib (Velcade) is known to trigger endoplasmic reticulum (ER) stress via the accumulation of obsolete and damaged proteins. The selective cyclooxygenase-2 (COX-2) inhibitor celecoxib (Celebrex) causes ER stress through a different mechanism (i.e., by causing leakage of calcium from the ER into the cytosol). Each of these two mechanisms has been implicated in the anticancer effects of the respective drug. We therefore investigated whether the combination of these two drugs would lead to further increased ER stress and would enhance their antitumor efficacy. With the use of human glioblastoma cell lines, we show that this is indeed the case. When combined, bortezomib and celecoxib triggered elevated expression of the ER stress markers GRP78/BiP and CHOP/GADD153, caused activation of c-Jun NH(2)-terminal kinase and ER stress-associated caspase-4, and greatly increased apoptotic cell death. Small interfering RNA-mediated knockdown of the protective ER chaperone GRP78/BiP further sensitized the tumor cells to killing by the drug combination. The contribution of celecoxib was independent of the inhibition of COX-2 because a non-coxib analogue of this drug, 2,5-dimethyl-celecoxib (DMC), faithfully and more potently mimicked these combination effects in vitro and in vivo. Taken together, our results show that combining bortezomib with celecoxib or DMC very potently triggers the ER stress response and results in greatly increased glioblastoma cytotoxicity. We propose that this novel drug combination should receive further evaluation as a potentially effective anticancer therapy.
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PMID:Aggravated endoplasmic reticulum stress as a basis for enhanced glioblastoma cell killing by bortezomib in combination with celecoxib or its non-coxib analogue, 2,5-dimethyl-celecoxib. 1824 86

The c-Jun dimerization protein 2, JDP2, is a member of the activating protein 1 (AP-1) family of transcription factors. Overexpression of JDP2 has been shown to result in repression of AP-1-dependent transcription and inhibition of cellular transformation. Other studies suggested that JDP2 may function as an oncogene. Here we describe the identification of CHOP10, a member of the CCAAT enhancer binding proteins, as a protein associating with JDP2. In contrast to the inhibition of transcription by JDP2, JDP2-CHOP complex strongly enhances transcription from promoters containing TPA response elements (TRE), but not from those containing cyclic AMP response elements (CRE). The association between JDP2 and CHOP10 involves the leucine zipper motifs of both proteins, whereas, the basic domain of CHOP10 contributes to the association of the JDP2-CHOP10 complex with the DNA. DNA binding of JDP2-CHOP complex is observed both in vitro and in vivo. Finally, overexpression of JDP2 results in increased cell viability following ER stress and counteracts CHOP10 pro-apoptotic activity. JDP2 expression may determine the threshold for cell sensitivity to ER stress. This is the first report describing TRE-dependent activation of transcription by JDP2 and thus may provide an explanation for the as yet unexplored oncogenic properties of JDP2.
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PMID:TRE-dependent transcription activation by JDP2-CHOP10 association. 1846 34

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