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)

JNK protein kinases are distantly related to mitogen-activated protein kinases (ERKs) and are activated by dual phosphorylation on Tyr and Thr. The JNK protein kinase group includes the 46-kDa isoform JNK1. Here we describe the molecular cloning of a second member of the JNK group, the 55-kDa protein kinase JNK2. The activities of both JNK isoforms are markedly increased by exposure of cells to UV radiation. Furthermore, JNK protein kinase activation is observed in cells treated with tumor necrosis factor. Although both JNK isoforms phosphorylate the NH2-terminal activation domain of the transcription factor c-Jun, the activity of JNK2 was approximately 10-fold greater than that of JNK1. This difference in c-Jun phosphorylation correlates with increased binding of c-Jun to JNK2 compared with JNK1. The distinct in vitro biochemical properties of these JNK isoforms suggest that they may have different functions in vivo. Evidence in favor of this hypothesis was obtained from the observation that JNK1, but not JNK2, complements a defect in the expression of the mitogen-activated protein kinase HOG1 in the yeast Saccharomyces cerevisiae. Together, these data indicate a role for the JNK group of protein kinases in the signal transduction pathway initiated by proinflammatory cytokines and UV radiation.
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PMID:Signal transduction by tumor necrosis factor mediated by JNK protein kinases. 796 72

c-Jun transcriptional activity is augmented by expression of oncogenic Ras and Raf proteins. This study demonstrates a direct correlation between Ras transforming activity and c-Jun activation, supporting an important role for c-Jun in transformation by Ras. Since we observed that Ras activated c-Jun transcriptional activity by increasing phosphorylation of the c-Jun activation domain at residues Ser-63/Ser-73 and that oncogenic Ras proteins activated extracellular signal-regulated protein kinases (ERK1 and ERK2) (also known as mitogen-activated protein kinases), we evaluated the possibility that ERKs were directly responsible for c-Jun activation. Coexpression of wild-type ERKs with oncogenic Ras proteins potentiated, while kinase-defective ERKs inhibited, Ras-induced transcriptional activation from the Ras-responsive element (Ets-1/AP-1) present in the NVL-3 enhancer and the serum-response element in the c-fos promoter. In contrast, coexpression of either wild-type or kinase-defective ERKs inhibited Ras and Raf activation of c-Jun transcriptional activity. Thus, although activation of both ERK and c-Jun are downstream consequences of activation of the Ras signal transduction pathway, our results suggest that Ras-induced c-Jun phosphorylation and transcriptional activation are not a direct consequence of ERK1 and ERK2 activation.
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PMID:Oncogenic Ras activates c-Jun via a separate pathway from the activation of extracellular signal-regulated kinases. 801 10

Ras proteins exert their mitogenic and oncogenic effects through activation of downstream protein kinases. An important question is how Ras-generated signals reach the nucleus to activate downstream target genes. AP-1, a heterodimeric complex of Jun and Fos proteins, which activates mitogen-inducible genes, is a major nuclear target of Ras. Ras can stimulate AP-1 activity by inducing c-fos transcription, a process which is probably mediated by the ERK1 and -2 mitogen-activated protein (MAP) kinases, which phosphorylate the transcription factor Elk-1/TCF. Besides inducing transcription from fos and jun genes, mitogens and Ras proteins enhance AP-1 activity through phosphorylation of c-Jun. Phosphorylation of the c-Jun activation domain leads to c-jun induction through an autoregulatory loop. Ras- and ultra-violet-responsive protein kinases that phosphorylate c-Jun on serine residues at positions 63 and 73 and stimulate its transcriptional activity have been identified. These proline-directed kinases, termed JNKs, are novel MAP kinases. It is not clear, however, whether c-Jun is the only recipient and JNK the only transducer of the Ras signal to AP-1 proteins. A short sequence surrounding the major JNK phosphorylation site of c-Jun is conserved in c-Fos and is part of its activation domain, suggesting that c-Fos may be similarly regulated. Here we show that Ras does indeed augment the transcriptional activity of c-Fos through phosphorylation at Thr 232, the homologue of Ser 73 of c-Jun. However, this is mediated by a novel Ras- and mitogen-responsive proline-directed protein kinase that is different from JNKs and ERKs. Therefore, at least three types of proline-directed kinases transmit Ras- and mitogen-generated signals to the transcriptional machinery.
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PMID:c-Fos transcriptional activity stimulated by H-Ras-activated protein kinase distinct from JNK and ERK. 807 47

The activator protein-1 (AP-1) transcription factor modulates expression of genes involved in growth regulation, differentiation, and neoplastic transformation. Several mitogen-activated protein kinases (MAP kinases) as well as other kinases phosphorylate c-Jun and c-Fos in vitro and are postulated to control AP-1 activity. However, since many protein kinases phosphorylate substrates in vitro with which they have no association in vivo, we sought evidence for interaction in vivo between AP-1 and MAP kinase proteins. We now report detection of an association in vivo of MAP kinase-related proteins with c-Jun and AP-1 dimers by peptide mapping and two-dimensional electrophoretic analyses of proteins co-immunoprecipitated with AP-1 antigens. Extracellular signal-regulated kinase-2 and several apparently novel MAP kinase-related proteins are among the species that bind to AP-1. The large number of MAP kinase-related proteins associated with AP-1 implicates them on an important gene regulation pathway. Combinatorial association between MAP kinase-related proteins and AP-1 dimers could potentially create numerous distinct complexes that could regulate diverse genes.
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PMID:A family of mitogen-activated protein kinase-related proteins interacts in vivo with activator protein-1 transcription factor. 814 22

The mitogen-activated protein (MAP) kinases Erk-1 and Erk-2 are proline-directed kinases that are themselves activated through concomitant phosphorylation of tyrosine and threonine residues. The kinase p54 (M(r) 54,000), which was first isolated from cycloheximide-treated rats, is proline-directed like Erks-1/2, and requires both Tyr and Ser/Thr phosphorylation for activity. p54 is, however, distinct from Erks-1/2 in its substrate specificity, being unable to phosphorylate pp90rsk but more active in phosphorylating the c-Jun transactivation domain. Molecular cloning of p54 reveals a unique subfamily of extracellularly regulated kinases. Although they are 40-45% identical in sequence to Erks-1/2, unlike Erks-1/2 the p54s are only poorly activated in most cells by mitogens or phorbol esters. However, p54s are the principal c-Jun N-terminal kinases activated by cellular stress and tumour necrosis factor (TNF)-alpha, hence they are designated stress-activated protein kinases, or SAPKs. SAPKs are also activated by sphingomyelinase, which elicits a subset of cellular responses to TNF-alpha (ref. 9). SAPKs therefore define a new TNF-alpha and stress-activated signalling pathway, possibly initiated by sphingomyelin-based second messengers, which regulates the activity of c-Jun.
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PMID:The stress-activated protein kinase subfamily of c-Jun kinases. 817 21

Treatment of human myeloid leukemia cells with 12-O-tetradecanoylphorbol-13-acetate (TPA), an activator of protein kinase C (PKC), is associated with induction of monocytic differentiation. Since PKC can act immediately upstream to the cytoplasmic Raf-1 serine/threonine protein kinase, we studied activation of Raf-1 during induction of the differentiated monocytic phenotype. The results demonstrate that Raf-1 is activated during TPA-induced monocytic differentiation of HL-60 cells. In contrast, there was little effect of TPA on this kinase in an HL-60 variant, designated HL-525, which is resistant to TPA-induced differentiation. Treatment of both HL-60 and HL-525 cells with okadaic acid, an inhibitor of serine/threonine protein phosphatases 1 and 2A, was associated with Raf-1 activation and induction of the monocytic phenotype. Since Raf-1 can activate the mitogen-activated protein (MAP) kinases, we also studied the relationship between MAP kinase activation and monocytic differentiation. Treatment of HL-60, but not HL-525, cells with TPA was associated with increased MAP kinase activity as determined by phosphorylation of myelin basic protein and the c-Jun Y peptide. Okadaic acid-induced differentiation of both HL-60 and HL-525 cells was similarly accompanied by increases in MAP kinase activity. These findings indicated that activation of Raf-1/MAP kinase signaling is associated with induction of a differentiated monocytic phenotype and that okadaic acid bypasses a defect in this cascade in TPA-treated HL-525 cells. While recent studies have shown that HL-525 cells are deficient in PKC beta, the present results demonstrate that PKC beta expression is up-regulated in the HL-525 variant by treatment with retinoic acid. The results also demonstrate that retinoic acid-treated HL-525 cells respond to TPA with activation of Raf-1 and MAP kinase, as well as induction of monocytic differentiation. Taken together, the results indicate that activation of Raf-1/MAP kinase signaling is associated with monocytic differentiation and that stimulation of serine/threonine protein phosphorylation by TPA or okadaic acid is sufficient for reversal of the leukemic HL-60 phenotype.
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PMID:Activation of Raf-1 and mitogen-activated protein kinases during monocytic differentiation of human myeloid leukemia cells. 828 41

Glycogen synthase kinase-3 (GSK-3) is a protein serine kinase implicated in the cellular response to insulin. The enzyme is the mammalian homologue of the zeste-white3 (shaggy) homeotic gene of Drosophila melanogaster and has been implicated in the regulation of the c-Jun/AP-1 transcription factor. In mammals this protein serine kinase is encoded by two related genes termed GSK-3 alpha and beta. Here, we demonstrate that these two proteins and the fruit fly protein are phosphorylated on tyrosine in vivo. Moreover, GSK-3 beta activity and function are shown to be dependent on tyrosine phosphorylation. The modified tyrosine residue is conserved in all members of the GSK-3 family and is equivalent to that required for activity by mitogen-activated protein (MAP) kinases. However, unlike MAP kinases, GSK-3 is highly phosphorylated on tyrosine and thus active in resting cells.
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PMID:Modulation of the glycogen synthase kinase-3 family by tyrosine phosphorylation. 838 13

A variety of protein kinases, including pp42 and pp54 mitogen-activated protein (MAP) kinases, p34cdc2, and a partially purified protein kinase from 4 beta-phorbol 12-myristate 13 alpha-acetate (PMA)-treated U937 cells have been shown to phosphorylate the NH2-terminal activation domain of c-Jun in vitro. To investigate the role of pp42 MAP kinase in mediating c-Jun phosphorylation in vivo, we have treated U937 monocytic leukemia cells with a variety of pharmacological agents, including PMA, cycloheximide, AIF4, and okadaic acid. Although all of these agents stimulated c-Jun phosphorylation, cycloheximide and okadaic acid had no effect on pp42 MAP kinase phosphorylation, suggesting that MAP kinase activation was not necessary for c-Jun phosphorylation in vivo. Because dominant-negative RasAsn17 has been shown to block the effects of PMA on pp42 MAP kinase phosphorylation, we assessed its effect on c-Jun phosphorylation by cotransfection with a truncated c-Jun construct (c-Jun234). We found that c-Jun234 was expressed only in the cytosol and was inducibly phosphorylated with kinetics similar to those of endogenous nuclear c-Jun. Furthermore, we found that RasAsn17 had no effect on PMA-induced phosphorylation of c-Jun234. Because Ha-Ras requires isoprenylation for membrane binding, we examined the effect of the isoprenylation inhibitors lovastatin and perillic acid on PMA-induced c-Jun phosphorylation. Pretreatment of U937 cells with these agents had no effect on PMA-induced c-Jun or pp42 MAP kinase phosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Multiple signal transduction pathways mediate c-Jun protein phosphorylation. 839 Aug 55

Phorbol esters, such as phorbol myristate acetate (PMA), cause differentiation of U937 human monomyelocytic cells along the macrophage pathway. Within 15 min of PMA treatment DNA binding of the c-jun transcription factor is increased and is accompanied by rapid changes in the phosphate content of the c-jun protein. Phorbol esters stimulate phosphorylation of serines 63 and 73 located within the A1 transactivation domain of c-Jun that have previously been shown to positively regulate activity. A protein kinase activity is detectable in extracts of phorbol ester-treated U937 cells that specifically targets these two serines. Using novel assays, the protein kinase activity has been purified over 1000-fold. The major portion of protein kinase activity co-chromatographs over three columns with pp42/44 mitogen-activated protein kinases as judged by immunological methods. The significance of these results with respect to mitogen-induced transcription of AP-1-responsive genes is discussed.
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PMID:Co-purification of mitogen-activated protein kinases with phorbol ester-induced c-Jun kinase activity in U937 leukaemic cells. 842 47

Previous studies have shown that structurally diverse tumor promoters can modulate protein kinases involved in signal transduction. In this study, we show that palytoxin, a potent non-12-O-tetradecanoylphorbol-13-acetate (TPA)-type skin tumor promoter, induces a signaling pathway leading to the activation of the stress-activated protein kinases/c-Jun N-terminal kinases (JNK) in Swiss 3T3 fibroblasts. Treatment of cells with doses as low as 0.1 mN palytoxin results in significant activation of JNK. In contrast to epidermal growth factor, which induces a transient activation of JNK in Swiss 3T3 cells, palytoxin causes prolonged enzyme activation. Since stimulation of ion flux appears to play an important role in the mechanism of action of palytoxin in other systems, we investigated the role of sodium and calcium in the activation of JNK: (a) our results show that incubation of Swiss 3T3 cells in a sodium-free medium dramatically reduced the magnitude of JNK activation by palytoxin; and (b) we found that the sodium ionophore gramicidin activates JNK. Together, these results suggest that sodium influx, which is a hallmark of palytoxin action, may play a key role in the activation of JNK by palytoxin. Our results indicate that calcium influx is not necessary or sufficient for palytoxin-induced activation of JNK. In contrast to palytoxin, the TPA-type tumor promoter phorbol 12,13-dibutyrate and the non-TPA-type tumor promoters thapsigargin and okadaic acid do not appear to activate JNK in this system. In contrast to phorbol 12,13-dibutyrate, palytoxin does not activate the p42/p44 mitogen-activated protein kinases. Our results demonstrate that Swiss 3T3 fibroblasts, palytoxin can activate a protein kinase signaling pathway that is distinct from that activated by the prototypical phorbol ester tumor promoters and other potent skin tumor promoters.
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PMID:Activation of stress-activator protein kinase/c-Jun N-terminal kinase by the non-TPA-type tumor promoter palytoxin. 856 84


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