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 previously shown that the tumor promoter okadaic acid (OA), an inhibitor of protein phosphatases 1 and 2A, transcriptionally induces the urokinase-type plasminogen activator (uPA) gene in LLC-PK1 cells. This induction occurs independently of the protein kinase C- and cAMP-dependent signaling pathways. Here we show that a sequence located 2.0 kilobases upstream of the uPA gene, which resembles an AP-1-recognition sequence, mediates the action of OA. DNA-protein interaction studies, together with mRNA and protein analyses, indicate that c-Jun, but not c-Fos, is involved in OA-dependent uPA gene induction. The appearance of high levels of uPA mRNA and DNA binding activity of c-Jun to the AP-1-like site correspond to the appearance of c-Jun accumulation, suggesting that c-Jun accumulation is a critical event in OA-dependent uPA gene induction. c-Jun protein levels increase significantly between 100 and 160 min following OA treatment, whereas c-Jun translation increases only slightly in this time frame, suggesting that post-translation mechanisms are also involved in c-Jun accumulation. Pulse-chase analyses shows that OA specifically stabilizes c-Jun. We discuss our results with respect to the possibility that protein phosphatase 2A maintains c-Jun in its down-regulated state in LLC-PK1 cells.
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PMID:Okadaic acid-dependent induction of the urokinase-type plasminogen activator gene associated with stabilization and autoregulation of c-Jun. 830 Jun 23

Urokinase-type plasminogen activator (uPA) is an extracellular protease and expressed in various cells that exhibit dynamic changes in cell morphology, suggesting a link between cytoskeletal reorganization (CSR) and uPA expression. CSR can be induced by pharmacological agents, such as by colchicine for microtubule cytoskeleton and by cytochalasin for microfilament cytoskeleton. Using these agents, we previously showed that CSR induced the uPA gene in LLC-PK1 cells independently of the protein kinase C and cAMP-dependent protein kinase. Here we show that the induction of the uPA gene by CSR is mediated by the activation of c-Jun which interacts with an AP-1-like site located 2 kb upstream of the uPA gene. 12-O-tetradecanoylphorbol 13-acetate (TPA) induces the uPA gene through the same elements, but additionally utilizes an adjacent PEA3 element and induces c-fos. Furthermore, CSR induces a greater accumulation and a more pronounced phosphorylation of c-Jun than TPA induction. AP-1 is a positive regulator of growth and oncogenesis, and CSR is an integral part of these processes. Our results provide a view how CSR and AP-1 could be coupled in these processes. We also show that TPA and CSR act synergistically, suggesting a model where an initial activation signal could be amplified by CSR.
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PMID:Cytoskeletal reorganization and TPA differently modify AP-1 to induce the urokinase-type plasminogen activator gene in LLC-PK1 cells. 834 15

The transcription factors controlling the complex genetic response to ischemia and their modes of regulation are poorly understood. We found that ATF-2 and c-Jun DNA binding activity is markedly enhanced in post-ischemic kidney or in LLC-PK1 renal tubular epithelial cells exposed to reversible ATP depletion. After 40 min of renal ischemia followed by reperfusion for as little as 5 min, binding of ATF-2 and c-Jun, but not ATF-3 or CREB (cAMP response element binding protein), to oligonucleotides containing either an ATF/cAMP response element (ATF/CRE) or the jun2TRE from the c-jun promoter, was significantly increased. Binding to jun2TRE and ATF/CRE oligonucleotides occurred with an identical time course. In contrast, nuclear protein binding to an oligonucleotide containing a canonical AP-1 element was not detected until 40 min of reperfusion, and although c-Jun was present in the complex, ATF-2 was not. Incubating nuclear extracts from reperfused kidney with protein phosphatase 2A markedly reduced binding to both the ATF/CRE and jun2TRE oligonucleotides, compatible with regulation by an ATF-2 kinase. An ATF-2 kinase, which phosphorylated both the transactivation and DNA binding domains of ATF-2, was activated by reversible ATP depletion. This kinase coeluted on Mono Q column chromatography with a c-Jun amino-terminal kinase and with the peak of stress-activated protein kinase, but not p38, immunoreactivity. In conclusion, DNA binding activity of ATF-2 directed at both ATF/CRE and jun2TRE motifs is modulated in response to the extreme cellular stress of ischemia and reperfusion or reversible ATP depletion. Phosphorylation-dependent activation of the DNA binding activity of ATF-2, which appears to be regulated by the stress-activated protein kinases, may play an important role in the earliest stages of the genetic response to ischemia/reperfusion by targeting ATF-2 and c-Jun to specific promoters, including the c-jun promoter and those containing ATF/CREs.
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PMID:Ischemia and reperfusion enhance ATF-2 and c-Jun binding to cAMP response elements and to an AP-1 binding site from the c-jun promoter. 853 Apr 13

Urokinase-type plasminogen activator (uPA) expression is induced upon cytoskeletal reorganization (CSR) by a mechanism independent of protein kinase C and cAMP protein kinase in nontransformed renal epithelial (LLC-PK1) cells. This CSR-dependent uPA gene activation is mediated by an AP-1-recognizing element located 2 kilobases upstream of the transcription initiation site. The phosphorylation of c-Jun, a component of AP-1, is induced by CSR, which seems to increase both the activity and stability of c-Jun (Lee, J. S., von der Ahe, D., Kiefer, B., and Nagamine, Y. (1993) Nucleic Acids Res. 21, 3365-3372). It has been shown that c-Jun is phosphorylated by members of the mitogen-activated protein kinase family, i.e. ERKs and JNKs. ERKs are activated through a growth factor-coupled Ras/Raf-dependent signaling pathway, while JNKs are activated through a stress-induced signaling pathway. Although CSR induces both ERK-2 and JNK activity, JNK does not seem to be involved in the uPA gene induction because UV irradiation, which activates JNK as efficiently as CSR, does not activate the uPA promoter. Further analysis showed the involvement of SOS, Ras, and Raf-1 in the pathway induced by CSR. Our results suggest that cells sense changes in cell morphology using the cytoskeleton as a sensor and respond by activating the ERK-involving signaling pathway from within the cell.
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PMID:Cytoskeleton reorganization induces the urokinase-type plasminogen activator gene via the Ras/extracellular signal-regulated kinase (ERK) signaling pathway. 899 79

The protooncogene G alpha(i-2) plays a pivotal role in signaling pathways that control renal cell growth and differentiation. Mitogen-activated protein kinases (MAPKs) are potential downstream effectors for G alpha(i-2) in these pathways. In predifferentiated LLC-PK1 renal cells, the temporal maximal expression of G alpha(i-2) coincided with maximal activation of MAPK(p42/p44). By contrast, pertussis toxin treatment of these cells inhibited cell growth and reduced MAPK(p42/p44) activity by 30%. These findings reflected upstream activation of MAPK kinase (MEK1), as transient transfection of cells with a plasmid encoding a constitutively active form of MEK1 increased MAPK(p42/p44) activity and cell growth, whereas treatment with PD-098059, an inhibitor of MEK1 activity, reduced MAPK(p42/p44) activity and cell growth. Expression of a guanosinetriphosphatase (GTPase)-deficient G alpha(i-2) in these cells increased MAPK(p42/p44) activity and correspondingly reduced cell doubling time from 24 to 10 h without altering the activity of Raf-1 or c-Jun/stress-activated protein kinases (SAPKs). By contrast, expression of a GTPase-deficient G alpha(i-3) in these cells reduced both their cell doubling time by 30% and MAPK(p42/p44) activity by 60%. As the known MEKK isoforms (MEKK1, -2, and -3) can also activate SAPKs, these findings suggest the GTP-charged G alpha(i-2) subunit transduces growth signals in renal cells via activation of MAPK(p42/p44) and that such activation may be linked to pathways containing novel MEKK isoforms that preferentially activate MEKs.
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PMID:G alpha(i-2) mediates renal LLC-PK1 growth by a Raf-independent activation of p42/p44 MAP kinase. 912 7

Bioflavonoid quercetin is known as an anti-cancer agent that induces apoptosis of tumor cells. Currently, however, little is understood about the effect of this drug on the function of normal cells. In this report, we address an unexpected, novel action of quercetin against apoptosis. Pretreatment with quercetin protected mesangial cells from hydrogen peroxide (H2O2)-induced apoptosis. A similar effect was observed in other cell types including LLC-PK1 epithelial cells and NRK49F fibroblasts. To explore the molecular mechanisms involved, we tested the effect of quercetin on c-Jun/activator protein-1 AP-1), the crucial mediator for H2O2-initiated apoptosis. Northern blot analysis revealed that quercetin suppressed the c-jun expression by H2O2. This was correlated with blunted activation of 12-O-tetradecanoylphorbol 13-acetate response element (TRE) in response to H2O2. These results suggested that quercetin inhibited apoptosis via intervention in the c-Jun/AP-1 pathway. To further investigate the action of quercetin, its effect on tyrosine kinases was studied. Immunoblot analysis revealed that H2O2 induced tyrosine phosphorylation. Quercetin inhibited this process in a dose-dependent manner. Inactivation of tyrosine kinases was an event upstream of c-Jun/AP-1, because tyrosine kinase inhibitors suppressed both activation of c-Jun/AP-1 and induction of apoptosis by H2O2. These findings elucidated the novel action of quercetin as an apoptosis inhibitor. This cytoprotective effect was found to be via suppression of the tyrosine kinase-c-Jun/AP-1 pathway triggered by oxidant stress.
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PMID:Unexpected protection of glomerular mesangial cells from oxidant-triggered apoptosis by bioflavonoid quercetin. 927 81

Transcription factor AP-1 induced by 12-O-tetradecanoylphorbol-13-acetate treatment of LLC-PK1 cells binds specifically to an AP-1 oligonucleotide. To study the effect of interaction of transcription factor AP-1 with its AP-1 element on gene expression, an AP-1 consensus sequence was cloned into a reporter vector. Expression of the reporter gene in transfected cells was greatly enhanced in the presence of the reverse-oriented AP-1 element upstream of a SV40 promoter. Mutation (G to C) of the central base in the AP-1 motif (TGAGTCA) abolished the enhancement for the reporter gene expression. These results indicate that the orientation of AP-1 element relative to the transcription machinery is important for its regulatory function. Moreover, sequences that flank the AP-1 motif are also required for its regulatory function.
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PMID:Enhancement of gene expression by transcription factor AP-1 is dependent on orientation of AP-1 element. 929 95

Several regulatory elements, including AP-1 and NF-kappa B, are present in the 5'flanking region of the human glutamatex-cysteine ligase (EC 6.3.2.2, gamma-glutamyl-cysteine synthetase) catalytic subunit (GLCLC) gene. In this study, we investigated the role of redox-sensitive transcription factors in the regulation of GLCLC gene expression in LLC-PK1 cells that were exposed to the antioxidant butylated hydroxytoluene (BHT). Exposure of LLC-PK1 cells to 100 microM BHT induced expression of transcription factor AP-1, as demonstrated by an electrophoretic mobility shift assay. Peak AP-1 induction occurred after 3 h of incubation with BHT, BHT increased luciferase gene expression in cells that were transfected with a luciferase reporter vector containing an AP-1 element upstream of a SV40 promoter. Northern analysis showed that transcription of GLCLC gene in cells after incubation with BHT was increased 30% compared with control cells. Cellular glutathione concentrations were also significantly increased in cells exposed to BHT. In contrast, exposure of LLC-PK1 cells to 100 microM BHT did not alter expression of the transcription factor NF-kappa B. These results show that induction of transcription factor AP-1 by BHT is involved in transactivation of GLCLC gene expression.
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PMID:Up-regulation of glutamate-cysteine ligase gene expression by butylated hydroxytoluene is mediated by transcription factor AP-1. 953 46

The level of phosphorylated c-Jun NH2-terminal kinase (JNK) in LLC-PK1 cells treated with CdCl2 increased after 30 min and remained elevated even at 8 hr. And the activity of JNK assayed using glutathione S-transferase-c-Jun as substrate increased dose-dependently. Consistent with the JNK activation, marked increases in the levels of c-Jun and c-Jun phosphorylated on Ser63 and Ser73 were observed in cells treated with CdCl2. The pretreatment with an intracellular Ca2+ chelator, 1, 2-bis(o-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid tetra(acetoxymethyl) ester (BAPTA/AM), abolished cadmium-induced JNK phosphorylation. However, pretreatment with a cell permeable chelator of heavy metals, N,N,N', N'-tetrakis(2-pyridylmethyl)ethylenediamine (TPEN), did not. The present results showed that cadmium induces persistent activation of JNK pathway in a renal epithelial cell line, and that intracellular Ca2+ is necessary for the activation.
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PMID:Activation of c-Jun NH2-terminal kinase (JNK/SAPK) in LLC-PK1 cells by cadmium. 979 7

In response to various environmental stresses including heavy metals, the c-Jun N-terminal kinase (JNK) is phosphorylated and then it phosphorylates c-Jun protein. In the present study, effects of mercury chloride (HgCl2) on JNK signalling pathway were examined in LLC-PK1 cells. When exposed to 10 or 20 microM HgCl2, the level of phosphorylated JNK and the activity of JNK assayed in vitro using glutathione-S-transferase-c-Jun as substrate increased markedly. The level of phosphorylated JNK increased 30 min after HgCl2 exposure and remained elevated even at 8 h. On the other hand, no changes were found in the total amount of JNK protein. Consistent with the activation of JNK, c-Jun proteins phosphorylated on Ser63 and Ser73 were accumulated in cells exposed to HgCl2. Concomitantly, the levels of c-jun mRNA and c-Jun protein were elevated. When compared to other heavy metal compounds such as manganese chloride, zinc chloride, cadmium chloride, and lead chloride, HgCl2 could phosphorylate JNK more markedly. Neither intracellular Ca2+ nor sulfhydryl groups appeared to play a major role in the activation of JNK by HgCl2 exposure in this porcine renal epithelial cell line.
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PMID:Mercury chloride activates c-Jun N-terminal kinase and induces c-jun expression in LLC-PK1 cells. 1069 84

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