Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.12.2 (MEK)
 18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The deposition of amyloid beta protein (A beta) in the cerebral cortex is the pathological characteristic of Alzheimer's disease (AD), and patients with AD suffer from progressive memory loss. Transgenic experiments have revealed that long-term memory is dependent on cyclic AMP-response element binding protein, CREB. CREB phosphorylation at serine-133 is essential for its transcriptional activity. Here we demonstrated that A beta(1-40), at a concentration more than 1 microM, induced CREB phosphorylation at serine-133 in rat pheochromocytoma PC12 cells. A beta(1-40) induced phosphorylation of p44 and p42 MAP kinases (Erk1 and Erk2) at tyrosine-204, and PD98059, a MEK1 inhibitor, inhibited A beta(1-40)-induced CREB phosphorylation at serine-133. We conclude that elevated A beta(1-40) level induces CREB phosphorylation at serine-133 via p44/42 MAP kinase-dependent pathway.
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PMID:Elevated amyloid beta protein(1-40) level induces CREB phosphorylation at serine-133 via p44/42 MAP kinase (Erk1/2)-dependent pathway in rat pheochromocytoma PC12 cells. 912 27

In contrast to the 52-kDa Shc isoform, insulin stimulation caused a quantitative, time-dependent decrease in the SDS-PAGE mobility of 66-kDa Shc in both Chinese hamster ovary/IR cells and 3T3L1 adipocytes. Alkaline phosphatase treatment and direct phosphoamino acid analysis demonstrated that insulin stimulated an increase in serine phosphorylation of the 66-kDa isoform but not 52-kDa Shc, although the latter displayed a marked increase in tyrosine phosphorylation. To identify the responsible kinase pathway, we compared the effects on 66-kDa Shc serine phosphorylation by insulin, anisomycin, and osmotic shock, agents that specifically activate the ERK, JNK, or both pathways, respectively. Insulin and osmotic shock both stimulated a decrease in 66-kDa Shc mobility, whereas anisomycin had no effect. Furthermore, expression of a dominant-interfering Ras mutant (N17Ras) prevented the insulin-stimulated, but not the osmotic shock-induced serine phosphorylation of 66-kDa Shc. Consistent with a MEK-dependent pathway mediating 66-kDa Shc serine phosphorylation, the specific MEK inhibitor (PD98059) and expression of a dominant-interfering MEK mutant partially inhibited both the insulin and osmotic shock-induced reduction in 66-kDa Shc mobility. In contrast, expression of the MAP kinase phosphatase (MKP-1) completely prevented ERK activation but did not inhibit the serine phosphorylation of 66-kDa Shc. These data demonstrate that insulin stimulates the serine phosphorylation of the 66-kDa Shc isoform through a MEK-dependent mechanism.
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PMID:Insulin stimulates the phosphorylation of the 66- and 52-kilodalton Shc isoforms by distinct pathways. 916 38

After insulin receptor activation, many cytoplasmic enzymes, including mitogen-activated protein (MAP) kinase, MAP kinase kinase (MEK) and casein kinase II (CKII) are activated, but exactly how insulin signalling progresses to the nucleus remains poorly understood. In Chinese hamster ovary cells overexpressing human insulin receptors [CHO(Hirc)], MEK, CKII and the MAP kinases ERK I and ERK II can be detected by immunoblotting in the nucleus, as well as in the cytoplasm, in the unstimulated state. Nuclear localization of MAP kinase is also observed in 3T3-F442A adipocytes, NIH-3T3 cells and Fao hepatoma cells, whereas MEK is found in the nucleus only in Fao and CHO cells. Insulin treatment for 5-30 min induces a translocation of MEK from the cytoplasm to the nucleus, whereas the MAP kinases and CKII are not translocated into the nucleus in response to insulin during this period. However, nuclear MAP kinase and CKII activities increase by 2-3-fold within 1-10 min after stimulation with insulin. By using gel-shift assays, it has been shown that insulin also stimulates nuclear protein binding to an AP-1 site with kinetics similar to MEK translocation and MAP kinase and CKII activation. Treatment of the extracts in vitro with protein phosphatase 2A or treatment of the intact cells with 5, 6-dichloro-1-beta-d-ribofuranosylbenzimidazole, a cell-permeable inhibitor of CKII, almost completely blocks the insulin-induced DNA-binding activity, whereas incubation of cells with a MEK inhibitor produces only a slight decrease. These results suggest that insulin signalling results in the activation of serine kinases in the nucleus via two pathways: (1) insulin stimulates the nuclear translocation of some kinases, such as MEK, which might directly phosphorylate nuclear protein substrates or activate other nuclear kinases, and (2) insulin activates nuclear kinases without translocation. The latter is true of CKII, which seems to regulate the binding of nuclear proteins to the AP-1 site, possibly by phosphorylation of AP-1 transcription factors.
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PMID:Insulin regulation of mitogen-activated protein kinase kinase (MEK), mitogen-activated protein kinase and casein kinase in the cell nucleus: a possible role in the regulation of gene expression. 916 93

Rat C6 glioma cells have been used to characterize molecular events involved in the regulation of inducible nitric oxide synthase (iNOS) gene expression stimulated by interferon-gamma (IFN-gamma) plus lipopolysaccharide (LPS). IFNs induce a signaling event which involves activation of Stat1 transcription factor. Previous studies have shown that IFNs also induce extracellular signal-regulated kinase/mitogen-activated protein kinase (ERK/MAPK) activation. However, the mechanisms by which IFNs stimulate MAPK activation remain elusive. Here we show that in C6 glioma cells, transiently expressing the dominant-negative form of c-Ha-Ras (Asn-17) abrogated IFN-gamma-induced ERK1 and ERK2 activation. Furthermore, PD98059, a specific MEK1 inhibitor, also blocked this activation. These results indicate that p21ras and MEK1 are required for IFN-gamma-induced ERK1 and ERK2 activation. Recent studies have reported that MAPK is responsible for serine phosphorylation of Stat1 which is required for Stat1's DNA binding and maximal transcriptional activity. Thus, we examined the role of the Ras-MAPK pathway in Stat1 activation and subsequent iNOS induction in C6 glioma cells. Further experiments showed that neither Asn-17 Ras expression nor concentrations of PD98059, which completely abrogated IFN-gamma-induced ERK1 and ERK2 activation, affected Stat1 DNA binding activity or iNOS induction, indicating that the Ras-MAPK pathway does not appear to be involved in the activation of Stat1 and subsequent iNOS induction in C6 glioma cells.
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PMID:Activation of Stat1 and subsequent transcription of inducible nitric oxide synthase gene in C6 glioma cells is independent of interferon-gamma-induced MAPK activation that is mediated by p21ras. 918 Feb 63

c-Jun N-terminal kinases/stress-activated protein kinases (JNKs/SAPKs) are mitogen-activated protein kinase (MAPK)-related protein kinases that are involved in several cellular events, including growth, differentiation, and apoptosis. Mixed lineage kinases (MLKs) form a family of protein kinases sharing two leucine zipper-like motifs and a kinase domain whose primary structure is similar to both the tyrosine-specific and the serine/threonine-specific kinase classes. We have reported that a member of the MLK family, MUK/DLK/ZPK, can activate JNK/SAPK in vivo, and here we show that another member of the MLK family, MST/MLK2, activates JNK/SAPK. Both MUK/DLK/ZPK and MST/MLK2 cause a slight activation of p38/Mpk2 when overexpressed in COS-1 cells, whereas MST/MLK2, but not MUK/DLK/ZPK, activates extracellular response kinase (ERK) to a certain degree. The activity of SEK1/MKK4/JNKK, a MAPK kinase class protein kinase designated as a direct activator of JNK/SAPK, is also induced by MUK/DLK/ZPK or MST/MLK2 overexpression. Furthermore, recombinant MST/MLK2 produced in bacteria directly phosphorylates and activates SEK1/MKK4/JNKK in vitro, showing that MST/MLK2 acts like a MAPK kinase kinase. Taken together, these results suggest that MLK family members are MAPK kinase kinases preferentially acting on the JNK/SAPK pathway.
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PMID:MST/MLK2, a member of the mixed lineage kinase family, directly phosphorylates and activates SEK1, an activator of c-Jun N-terminal kinase/stress-activated protein kinase. 918 38

Many cytokines, hormones, and growth factors activate Janus kinases to tyrosine phosphorylate select members of the Stat transcription factors. For full transcriptional activation, Stat1 and Stat3 also require phosphorylation of a conserved serine residue within a mitogen-activated protein kinase phosphorylation consensus site. On the other hand, two recently identified and highly homologous Stat5a and Stat5b proteins lack this putative mitogen-activated protein kinase phosphorylation site. The present study set out to establish whether Stat5a and Stat5b are under the control of an interleukin-2 (IL2)-activated Stat5 serine kinase. We now report that IL2 stimulated marked phosphorylation of serine and tyrosine residues of both Stat5a and Stat5b in human T lymphocytes and in several IL2-responsive lymphocytic cell lines. No Stat5a/b phosphothreonine was detected. Phosphoamino acid analysis also revealed that Stat5a/b phosphotyrosine levels were maximized within 1-5 min of IL2 stimulation, whereas serine phosphorylation kinetics were slower. Interestingly, IL2-induced serine phosphorylation of Stat5a differed quantitatively and temporally from that of Stat5b with Stat5a serine phosphorylation leveling off after 10 min and the more pronounced Stat5b response continuing to rise for at least 60 min of IL2 stimulation. Furthermore, we identified two discrete domains of IL2 receptor beta (IL2Rbeta) that could independently restore the ability of a truncated IL2Rbeta mutant to mediate Stat5a/b phosphorylation and DNA binding to the gamma-activated site of the beta-casein gene promoter. These observations demonstrated that there is no strict requirement for one particular IL2Rbeta region for Stat5 phosphorylation. Finally, we established that the IL2-activated Stat5a/b serine kinase is insensitive to several selective inhibitors of known IL2-stimulated kinases including MEK1/MEK2 (PD98059), mTOR (rapamycin), and phosphatidylinositol 3-kinase (wortmannin) as determined by phosphoamino acid and DNA binding analysis, thus suggesting that a yet-to-be-identified serine kinase mediates Stat5a/b activation.
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PMID:Two discrete regions of interleukin-2 (IL2) receptor beta independently mediate IL2 activation of a PD98059/rapamycin/wortmannin-insensitive Stat5a/b serine kinase. 918 78

BCL-6 gene alterations have been observed in 27-45% of diffuse large B-cell lymphomas (DLBs) with chromosomal translocations at 3q27. The deregulated expression of normal BCL-6 protein caused by this chromosomal translocation is believed to be responsible for lymphomagenesis. Recently, we demonstrated that BCL-6 is expressed at high levels in germinal center B-cells as a 92-98 kDa nuclear protein in a constitutively phosphorylated form. In this study, we show that BCL-6 is phosphorylated by mitogen-activated protein kinase (MAPK) in vitro at the sites phosphorylated in vivo. These numerous phosphorylation sites were found to be located in its serine- and proline-clustered (SPC) region (amino acids-250-483). BCL-6 phosphorylation significantly increased in Ramos cells following stimulation with 12-o-tetradecanoylphorbol-13-acetate (TPA) or BCL-6- and erk1-transfected COS-7 cells stimulated with epidermal growth factor (EGF), and the increase of phosphorylation was inhibited by MEK1 inhibitor, PD98059. Furthermore, we observed that BCL-6 was associated with MAPK in vivo and its SPC region was important for this association. These results suggest that the functions of BCL-6 are regulated by phosphorylation mediated by the MAPK signaling pathway.
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PMID:BCL-6 is phosphorylated at multiple sites in its serine- and proline-clustered region by mitogen-activated protein kinase (MAPK) in vivo. 918 61

Calcium deposition diseases caused by calcium pyrophosphate dihydrate (CPPD) and basic calcium phosphate (BCP) crystals are a significant source of morbidity in the elderly. We have shown previously that both types of crystals can induce mitogenesis, as well as metalloproteinase synthesis and secretion by fibroblasts and chondrocytes. These responses may promote degradation of articular tissues. We have also shown previously that both CPPD and BCP crystals activate expression of the c-fos and c-jun proto-oncogenes. Phosphocitrate (PC) can specifically block mitogenesis and proto-oncogene expression induced by either BCP or CPPD crystals in 3T3 cells and human fibroblasts, suggesting that PC may be an effective therapy for calcium deposition diseases. To understand how PC inhibits BCP and CPPD-mediated cellular effects, we have investigated the mechanism by which BCP and CPPD transduce signals to the nucleus. Here we demonstrate that BCP and CPPD crystals activate a protein kinase signal transduction pathway involving p42 and p44 mitogen-activated protein (MAP) kinases (ERK 2 and ERK 1). BCP and CPPD also cause phosphorylation of a nuclear transcription factor, cyclic AMP response element-binding protein (CREB), on serine 133, a residue essential for CREB's ability to transactivate. Treatment of cells with PC at concentrations of 10(-3) to 10(-5) M blocked both the activation of p42/p44 MAP kinases, and CREB serine 133 phosphorylation, in a dose-dependent fashion. At 10(-3) M, a PC analogue, n-sulfo-2-aminotricarballylate and citrate also modulate this signal transduction pathway. Inhibition by PC is specific for BCP- and CPPD-mediated signaling, since all three compounds had no effect on serum-induced p42/P44 or interleukin-1beta induced p38 MAP kinase activities. Treatment of cells with an inhibitor of MEK1, an upstream activator of MAPKs, significantly inhibited crystal-induced cell proliferation, suggesting that the MAPK pathway is a significant mediator of crystal-induced signals.
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PMID:Phosphocitrate inhibits a basic calcium phosphate and calcium pyrophosphate dihydrate crystal-induced mitogen-activated protein kinase cascade signal transduction pathway. 922 71

Activation of the Raf serine/threonine protein kinases is tightly regulated by multiple phosphorylation events. Phosphorylation of either tyrosine 340 or 341 in the catalytic domain of Raf-1 has been previously shown to induce the ability of the protein kinase to phosphorylate MEK. By using a combination of mitogenic and enzymatic assays, we found that phosphorylation of the adjacent residue, serine 338, and, to a lesser extent, serine 339 is essential for the biological and enzymatic activities of Raf-1. Replacement of S338 with alanine blocked the ability of prenylated Raf-CX to transform Rat-1 fibroblasts. Similarly, the loss of S338-S339 in Raf-1 prevented protein kinase activation in COS-7 cells by either oncogenic Ras[V12] or v-Src. Consistent with phosphorylation of S338-S339, acidic amino acid substitutions of these residues partially restored transforming activity to Raf-CX, as well as kinase activation of Raf-1 by Ras[V12] or v-Src. Two-dimensional phosphopeptide mapping of wild-type Raf-CX and Raf-CX[A338A339] confirmed the presence of a phosphoserine-containing peptide with the predicted mobility in the wild-type protein which was absent from the mutant. This peptide could be quantitatively precipitated by an antipeptide antibody specific for the 18-residue tryptic peptide containing S338-S339 and was demonstrated to contain only phosphoserine. Phosphorylation of this peptide in Raf-1 was significantly increased by coexpression with Ras[V12]. These data demonstrate that Raf-1 residues 338 to 341 constitute a unique phosphoregulatory site in which the phosphorylation of serine and tyrosine residues contributes to the regulation of Raf by Ras, Src, and Ras-independent membrane localization.
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PMID:Phosphorylation of Raf-1 serine 338-serine 339 is an essential regulatory event for Ras-dependent activation and biological signaling. 923 8

SOS, the guanine nucleotide exchange factor for Ras, becomes phosphorylated on serine and threonine residues following stimulation of cells with growth factors. These phosphorylations may play a role in negative feedback of Ras stimulation and have been shown to be mediated in part by the MAP kinases Erk-1 and Erk-2. Here we show that in addition to MAP kinase, a major mitogen activated kinase for SOS is p90 Rsk-2, a downstream target of MAP kinase. p90 Rsk-2 phosphorylates SOS in an in gel assay and also in solution in vitro. The ability of p90 Rsk-2 to phosphorylate SOS increases greatly following EGF treatment of PC12 cells and is blocked by expression of N17 Ras or treatment with the MEK inhibitor PD98059. Phosphopeptide mapping revealed that the sites phosphorylated by p90 Rsk-2 in vitro were also phosphorylated in intact cells in response to EGF treatment. Several major sites of in vivo phosphorylation correlated with p90 Rsk-2 phosphorylation sites rather than MAP kinase sites. It is therefore likely that p90 Rsk-2 plays an important role in the down regulation of the Ras activation pathway through SOS.
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PMID:EGF induced SOS phosphorylation in PC12 cells involves P90 RSK-2. 924 73


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