Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05412 (c-Jun)
 11,453 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The addition of phorbol esters to U937 leukemic cells stimulates the phosphorylation of c-Jun on serines 63 and 73. To isolate the protein kinase which stimulates this phosphorylation, we have used heparin-Sepharose chromatography followed by affinity chromatography over glutathione-Sepharose beads bound with a fusion protein of glutathione S-transferase and amino acids 5-89 of c-Jun (GST-c-Jun). Using this procedure we purify a 67-kDa protein which is capable of phosphorylating GST-c-Jun as well as the complete c-Jun protein. By making mutations in serines 63 and 73 and then creating a fusion protein with GST (GST-c-Jun mut), we demonstrate that this protein kinase specifically phosphorylates these sites in the c-Jun amino terminus. Treatment of purified c-Jun amino-terminal protein kinase (cJAT-PK) with phosphatase 2A inhibits its ability to phosphorylate GST-c-Jun. This inactivated enzyme can be reactivated by phosphorylation with protein kinase C (PKC), although PKC is not capable of phosphorylating the GST-c-Jun substrate. Because v-Jun cannot be phosphorylated in vivo, we compared the ability of cJAT-PK to bind to GST-v-Jun or GST-c-Jun mut. The cJAT-PK bound 50-fold better to GST-c-Jun mut than GST-v-Jun suggesting that the delta domain which is missing in v-Jun plays a role in binding the cJAT-PK. These results suggest that there is a protein kinase cascade mediated by protein phosphatases and PKC which regulates c-Jun phosphorylation.
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PMID:Affinity-purified c-Jun amino-terminal protein kinase requires serine/threonine phosphorylation for activity. 132 19

Glutathione Transferase P (GST-P) gene expression is dominantly regulated by an upstream enhancer (GPEI) consisting of a dyad of palindromically oriented imperfect TPA (12-O-tetradecanoyl-phorbol-13-acetate)-responsive elements (TRE). GPEI is active in AP1-lacking F9 cells as well in AP1-containing HeLa cells. Despite GPEI's similarity to a TRE, c-jun co-transfection has only a minimal effect on transactivation. Antisense c-jun and c-fos co-transfection experiments further demonstrate the lack of a role for AP1 in GPEI mediated trans-activation in F9 cells, although endogenously present AP1 can influence GPEI in HeLa cells. Co-transfection of delta fosB with c-jun, which forms an inactive c-Jun/delta FosB heterodimer that binds TRE sequences, inhibits GPEI-mediated transcription in AP1-lacking F9 cells as well as AP1-containing HeLa cells. These data suggest novel factor(s) other than AP1 are influencing GPEI. Binding studies reveal multiple nucleoproteins bind to GPEI. These factors are likely responsible for the high level of GPEI-mediated transcription observed in the absence of AP1 and during hepatocarcinogenesis.
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PMID:The dyad palindromic glutathione transferase P enhancer binds multiple factors including AP1. 140 31

A strong enhancer element, GPEI, of the glutathione transferase P gene (GST-P) gene is composed of two phorbol 12-O-tetradecanoate 13-acetate (TPA) responsive element (TRE)-like sequences at opposite orientation. Unlike TRE sequences of other genes, GPEI exhibits a strong enhancer activity in F9 cells, which contains little AP-1. GPEI bound to AP-1 In vitro and GST-P expression was activated by TPA and exogenously introduced c-jun gene in a rat fibroblast cell line. Both the stimulated expression of GST-P gene by TPA and that by over-expressed c-Jun were suppressed to the basal level by dexamethasone, an inhibitor of AP-1. Basal expression of GST-P gene, however, was not inhibited by dexamethasone. Transfected chloramphenicol acetyltransferase (CAT) gene having GPEI also behaved as the endogenous GST-P gene. These results indicate that the GPEI is activated by AP-1 but constitutive activity of this enhancer in a rat fibroblast cell line 3Y1 cells is due to some unknown mechanism other than AP-1.
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PMID:Suppression of glutathione transferase P expression by glucocorticoid. 153 Jun 52

c-Jun and its oncogenic counterpart v-Jun are completely conserved within the region from Ser-63 to Ser-73; these serines are sites for phorbol ester-inducible c-Jun phosphorylation. Using a U937 human leukemic cell line stably expressing v-Jun, we have demonstrated that phorbol esters stimulate the in vivo phosphorylation of c-Jun but not v-Jun. We developed an in vitro protein kinase assay to characterize the c-Jun protein kinase and to examine the determinants underlying this differential phosphorylation. Fusion proteins between glutathione S-transferase and the N terminus of c-Jun, v-Jun, or several c-Jun mutants were used as substrates. A c-Jun kinase activity was affinity-purified 5000-fold by using glutathione S-transferase-c-Jun-glutathione-Sepharose beads and was found to phosphorylate the N terminus of c-Jun but not v-Jun or c-Jun containing a 27-amino acid N-terminal deletion found in v-Jun. These effects were also observed in vivo as phorbol 12-myristate 13-acetate did not induce the phosphorylation of v-Jun or the c-Jun deletion mutant in U937 cell lines stably expressing these proteins. These findings indicate that the delta domain of c-Jun (amino acids 34-60), which is deleted in v-Jun, plays a critical role in regulating N-terminal c-Jun phosphorylation.
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PMID:Phorbol esters stimulate the phosphorylation of c-Jun but not v-Jun: regulation by the N-terminal delta domain. 160 42

The 86-kDa immediate-early 2 protein (IE2 86) of human cytomegalovirus is a powerful transactivator of homologous and heterologous promoters, including the human cytomegalovirus 1.2-kb RNA early promoter. Two potential mechanisms for gene activation by IE2 86 include interaction with cellular proteins and direct DNA binding. In this report, we show that the 1.2-kb RNA promoter contains a cis-acting AP-1 site, critical for its activation by IE2 86 in vivo, and that IE2 86, purified as a glutathione S-transferase-IE86 fusion protein, can interact with c-Jun and JunB. Additionally, by coimmunoprecipitation, we document that JunB and IE2 86 do associate in vivo. Further in vitro analysis reveals that Fos proteins are able to associate with glutathione S-transferase-IE86 only when present as a Jun-Fos heterodimer. With a set of IE2 86 mutants, we demonstrate that three independent regions of the IE2 86 interact in vitro with c-Jun, two of which are essential for activation of the 1.2-kb RNA promoter in vivo. We also show that IE2 86 can bind directly to this promoter through a sequence located just upstream of the AP-1 site between nucleotides -125 and -97. This discrete domain shares sequence homology with the cis-repression signal on the IE gene.
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PMID:The human cytomegalovirus IE2 86-kilodalton protein interacts with an early gene promoter via site-specific DNA binding and protein-protein associations. 766 55

Since the expression of glutathione S-transferase P-form (GST-P) has been suggested from in vitro studies to be partly regulated by the oncogene product, c-Jun and c-Fos, their distributions were compared in normal rat tissues and preneoplastic hepatic lesions induced by the Solt-Farber protocol. Immunohistochemically demonstrated GST-P protein was positively correlated with expression of both c-Jun and c-Fos in the epidermis of the skin and the smooth muscle of adult lung and with either c-Jun or c-Fos respectively in the bile ducts and bronchial epithelium. However, GST-P expression was also observed in proximal and distal straight segments of the kidney and other tissues negative for c-Jun and c-Fos and both c-Jun and c-Fos were present in the renal proximal and distal convoluted tubules, where GST-P was lacking. Thus, the localization of GST-P was in some cases clearly separable from those of c-Jun or c-Fos. GST-P was found to be focally expressed from an early stage of hepatocarcinogenesis, when c-Jun was not detectable. At later stages, this oncogene product was stained in 35.7% of GST-P-positive foci, with a clear relation to the degree of GST-P staining. Since GST-P is not always accompanied by appreciable c-Jun or c-Fos, these oncogene products are apparently not prerequisites for its expression. However, c-Jun may be partly responsible for maintaining high levels of GST-P in hepatic foci at later stages of hepatocarcinogenesis.
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PMID:Lack of correlated expression between the glutathione S-transferase P-form and the oncogene products c-Jun and c-Fos in rat tissues and preneoplastic hepatic foci. 769 15

c-Mil is the avian homologue of the mammalian serine/threonine kinase c-Raf-1. c-Mil/Raf is a mediator of signal transduction leading to gene expression via the c-Jun DNA-binding site, AP-1. Here we show that c-Mil immunopurified from MC29-virus-transformed quail fibroblasts phosphorylates c-Jun in vitro near its N terminus (Ser-63 and -73). Furthermore, the viral oncogene product Gag-Mil of the avian wild-type retrovirus MH2 phosphorylates c-Jun in vitro. A contribution by other known kinases phosphorylating c-Jun, such as the mitogen-activated protein kinases (MAPKs) and the c-Jun N-terminal kinases, was excluded by control reactions. c-Raf-1 and c-Jun directly interact in vitro as shown by various immobilized glutathione S-transferase-Raf fusion proteins which specify the cysteine-rich region of c-Mil/Raf as the major N-terminal binding site. An additional minor binding site is located in the C-terminal region. The biological relevance of these results is demonstrated by coimmunoprecipitation of c-Jun and c-Mil from 32P-labeled MC29- and MH2-transformed fibroblasts as well as normal quail embryo fibroblasts, whereby c-Jun was identified by tryptic phosphopeptide analysis. The complexed c-Jun exhibits a decreased electrophoretic mobility corresponding to a more highly phosphorylated state. Cell fractionation analyses indicate that the c-Mil/c-Jun complex is located in the cytoplasm. The data demonstrate that c-Jun can be a direct target of the protein kinase c-Mil/Raf, suggesting an alternative pathway, which leads to c-Jun phosphorylation independent of the MAPKs and MAPK-related proteins.
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PMID:Direct interaction and N-terminal phosphorylation of c-Jun by c-Mil/Raf. 787 94

The rat glutathione transferase P gene has a strong enhancer element, termed GPE I, which is composed of a dyad of palindromicly oriented TPA (phorbol 12-O-tetradecanoate 13-acetate) responsive element (TRE)-like sequences. TRE is a binding sequence of the transcription factor AP-1, which consists of several closely related proteins belonging to the Jun and Fos family. The gel retardation experiments show that all the heterodimers formed between the Jun and Fos related gene products bind to the GPE I as well as to the TRE. In spite of the fact that the GPE I has a stronger activity than the TRE, the binding affinities of these heterodimers to the GPE I are much lower than to the TRE. Co-transfection studies of the reporter construct containing the GPE I and expression constructs of each of the Jun and Fos family cDNAs indicate that FosB and delta FosB repress transcription through the GPE I enhancer. These results suggests that some of Jun/Fos family may regulate the rat GST-P gene expression through the GPE I in vivo.
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PMID:Jun and Fos related gene products bind to and modulate the GPE I, a strong enhancer element of the rat glutathione transferase P gene. 791 48

Expression of the oncogene product c-Jun was examined and compared with that of class pi glutathione S-transferase (GST-II) during chemical hepatocarcinogenesis in female and male mice. A single i.p. injection of diethylnitrosamine (DEN) (10 mg/kg) was administered to B6C3F1 mice and livers were immunohistochemically investigated with anti-c-Jun and anti-GST-II antibodies at various time points thereafter. In females, almost all foci detected by hematoxylin and eosin staining were positive for c-Jun 3, 6, 9 and 11 months after the DEN administration. Seventy-one and 82% of c-Jun-positive foci at 9 and 11 months respectively, were also positive for GST-II, while this was the case for only 15% at 6 months. In males almost all foci were also positive for c-Jun at 3 and 6 months, but 23% of foci were negative at 9 months. Unlike the foci in females, 96 and 79% of those in males expressing c-Jun were negative for GST-II at 6 and 9 months respectively. Both GST-II expression in foci of females and its lack in those of males were highly correlated with c-Jun expression. Furthermore, single cells expressing c-Jun were also observed in both sexes at 3 months and thereafter, but not at 2 or 4 weeks. Alterations in the numbers of c-Jun-positive single cells, minifoci and foci followed sequentially revealed the number of such single cells to decrease, while foci increased, the sum being relatively constant. On the other hand, while a large number of GST-II-positive single cells were detected in female livers 2 and 4 weeks after the DEN administration, they markedly decreased thereafter, suggesting that the majority were unlikely to give rise to foci. Thus, c-Jun may be a better positive marker not only for preneoplastic foci, but also putative precursor single cells in both female and male mice and therefore be useful for analysis of hepatocarcinogenic processes.
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PMID:c-Jun expression in single cells and preneoplastic foci induced by diethylnitrosamine in B6C3F1 mice: comparison with the expression of pi-class glutathione S-transferase. 792 77

The signal transduction pathways that mediate activation of trans acting factors controlling an organ's response to ischemia are unknown. The stress-activated protein kinases (SAPKs), a subfamily of the extracellular signal-regulated kinases (ERKs), phosphorylate c-Jun within the amino-terminal transactivation domain and are activated in response to a variety of cellular stresses. We determined whether SAPKs are activated in response to ischemia, an extreme, albeit common, pathophysiologic stress. Rats underwent 40 min of renal ischemia followed by reperfusion for 0, 5, 20, or 90 min. SAPKs were immunoprecipitated from kidney lysates and kinase activity assayed with recombinant GST-c-Jun(1-135), containing the amino-terminal transactivation domain of c-Jun as substrate. SAPKs were not activated by ischemia alone, but reperfusion for as little as 5 min was associated with a 4.6-fold increase in kinase activity. Kinase activity was increased 7.6-fold at 20 min following reperfusion and remained elevated at 90 min of reperfusion (4.9-fold). In contrast, activity of the related ERK-1 and -2 was increased only 1.3-fold and only at the 5-min reperfusion time point. When SAPKs were immunodepleted from kidney extracts prior to incubation of the extracts with agarose-coupled GST-c-Jun(1-135), it was found that SAPKs accounted for the majority of the amino-terminal c-Jun kinase activity of kidney at 5 min following reperfusion. In Madin-Darby canine kidney epithelial cells, ATP repletion, following ATP depletion induced by chemical anoxia, was associated with a 9-15-fold activation of SAPKs with a similar time course of activation to that seen in the kidney after ischemia and reperfusion. In conclusion, the SAPKs are markedly activated very early after reperfusion of ischemic kidney and following ATP repletion of anoxic cells in culture. We propose that this activation of SAPKs may trigger part of the kidney's early genetic response to ischemia, possibly by enhancing trans acting activity of c-Jun.
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PMID:The stress-activated protein kinases are major c-Jun amino-terminal kinases activated by ischemia and reperfusion. 792 79


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