Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.12.2 (MEK)
18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of mitogen-activated protein (MAP) kinase represents an important mechanism in hormonal regulation. To clarify the role of MAP kinase activation in insulin action, we compared the activation of the enzyme in Rat-1 cells transfected with wild-type (Hirc) and mutant insulin receptors in which the 2 carboxyl-terminal tyrosines were substituted with phenylalanine (Y/F2). Expression of the Y/F2 mutant receptor enhanced the responsiveness of MAP kinase to insulin. Moreover, the insulin responsiveness of the activator of this enzyme, MAP kinase kinase, was also increased in these cells. To explore the early signaling events that might account for this increase in responsiveness, we evaluated the tyrosine phosphorylation of the insulin receptor substrate, IRS-1, and its subsequent association with phosphatidylinositol (PI)-3 kinase. In both cell types, insulin led to a dose-dependent increase in the association of tyrosine phosphorylated IRS-1 with the SH2 domain of the p85 regulatory subunit of PI-3 kinase, and also increased the amount of PI kinase activity detected in anti-IRS-1 immunoprecipitates. The effect of insulin was significantly greater in Y/F2 cells, as determined in both assays. In previous studies, cells bearing this receptor mutant exhibited an identical metabolic response but enhanced mitogenic response to insulin when compared with wild-type receptor. These data provide further evidence for divergence of the mitogenic and metabolic signaling pathways at or near the insulin receptor.
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PMID:Mutation of the two carboxyl-terminal tyrosines in the insulin receptor results in enhanced activation of mitogen-activated protein kinase. 814 49

Somatostatin has a modulatory role in regulating the membrane conductance in hippocampal neurons. To examine the signal transducing molecules involved in this process, we isolated the cDNA encoding the dominant rat hippocampal somatostatin receptor, SSTR4. Distribution of SSTR4 in the adult central nervous system was restricted to the hippocampus, cerebral cortex, striatum, hypothalamus, and thalamus, as determined by Northern blot analysis and in situ hybridization. In SSTR4-expressing Chinese hamster ovary cells, SSTR4 was functionally coupled not only to inhibition of adenylate cyclase, but also to activation of both arachidonate release and mitogen-activated protein (MAP) kinase cascade, with similar ED50 values. All of these pathways, including both MAP kinase kinase and MAP kinase activation, were completely blocked by pretreatment with pertussis toxin. On the other hand, neither inositol 1,4,5-trisphosphate synthesis nor intracellular Ca2+ mobilization was induced upon SSTR4 stimulation. These data indicate that the hippocampal functions of somatostatin might be mediated through diverse but selective second messenger systems activated via SSTR4 and reveal an unsuspected coupling of a neuronal SSTR subtype to a mitogenic signaling pathway. SSTR4, in addition, provides a useful system to study the Ca(2+)-independent, Gi-dependent (pertussis toxin-sensitive) pathway of MAP kinase activation.
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PMID:Functional coupling of SSTR4, a major hippocampal somatostatin receptor, to adenylate cyclase inhibition, arachidonate release and activation of the mitogen-activated protein kinase cascade. 817 84

Activation of the mitogen-activated protein kinases (MAPKs) is a common event of many signal transduction pathways. MAPKs are phosphorylated and activated by an immediate upstream activating kinase, MEK. The proto-oncogene c-raf, encoding a serine/threonine kinase, has been reported to be a direct activator of MEK. In this paper, it is shown that growth factors activate MEK by stimulating c-raf and a raf-independent MEK activator. Treatment of Swiss3T3 cells with epidermal growth factor (EGF) rapidly increased the activity of MEK activator. Maximal activation was detected by 2.5 min and declined to the prestimulated level within 10 min. This stimulation of the MEK activator was temporally followed by increased activities of MEK and MAPK. The activation of MEK was accompanied by phosphorylation of this protein. To determine the relationship of this MEK activator and the c-raf kinase, cell lysates were immunoprecipitated with anti-raf antibody and assayed for MEK activation. Only a fraction (< 20%) of the MEK activating activity was detected in anti-raf immunoprecipitates from EGF-stimulated Swiss3T3 cells. Similar experiments with nerve growth factor stimulated pheochromocytoma 12 (PC-12) cells revealed that the raf kinase contributed less than 5% of the total MEK activating activity while the overwhelming majority of MEK activating activity remained in the postimmunoprecipitation supernatant in which the raf protein had been quantitatively depleted. These data demonstrate that Swiss3T3 and PC-12 cells contain at least two different growth factor sensitive MEK activators, one residing in anti-raf immunoprecipitates and a second activity that is separate from raf.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Growth factor induced MEK activation is primarily mediated by an activator different from c-raf. 818 Jan 83

The mitogen-activated protein (MAP) kinases are serine-threonine protein kinases that are activated by tyrosine and threonine phosphorylation by the dual specificity protein kinase MEK (MAP kinase/ERK kinase). The present report describes the purification to near homogeneity and characterization of a protein tyrosine phosphatase from Xenopus laevis eggs that dephosphorylates MAP kinase phosphorylated by MEK. Bacterially expressed Xenopus MAP kinase phosphorylated by purified Xenopus MEK was used as substrate throughout the purification. The purification procedure included anion-exchange, cation-exchange, gel filtration, heparin-Sepharose, and chromatography on a column of thiophosphorylated MAP kinase-Sepharose, resulting in a > 3000-fold purification. Upon analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, a protein of 47 kDa correlated with activity. The phosphatase showed absolute specificity toward phosphotyrosine and no activity toward phosphothreonyl-phosphoseryl residues of MAP kinase. The pH optimum of the enzyme was 7.0 with a Km of 9.0 microM for phosphorylated MAP kinase. The phosphatase was inhibited by ammonium molybdate (IC50, 2 microM), vanadate (IC50, 250 microM), millimolar concentrations of MnCl2, ZnCl2 and p-nitrophenylphosphate but not by okadaic acid or microcystin. This tyrosine phosphatase may be involved in deactivating MAP kinase in vivo.
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PMID:Purification and characterization of a mitogen-activated protein kinase tyrosine phosphatase from Xenopus eggs. 822 71

The platelet-activating factor (PAF) was seen to potently activate mitogen-activated protein (MAP) kinase and MAP kinase kinase through the cloned guinea pig PAF receptor stably expressed in Chinese hamster ovary (CHO) cells. Both 42- and 44-kDa MAP kinases were activated and tyrosine-phosphorylated in response to PAF. The PAF receptor also triggered the production of inositol phosphates and the release of arachidonic acid and inhibited cyclic AMP accumulation. Differential inhibitory effects of pertussis toxin (PTX) on these signals suggested that the PAF receptor couples to both PTX-sensitive and -insensitive G proteins in CHO cells. MAP kinase and MAP kinase activations were partially regulated by PTX-sensitive G proteins. The PAF receptor did not trigger any detectable increase in the GTP form of Ras under the conditions in which the human insulin receptor expressed in the same parent CHO cells potently increased the level. Since these agonists induced comparable MAP kinase activations through cognate receptors, Ras seems to play different roles in MAP kinase activation by the two different classes of receptors. The activation of MAP kinase by the cloned PAF receptor may explain part of the mechanisms underlying PAF-induced differentiation and proliferation in non-inflammatory cells.
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PMID:Transfected platelet-activating factor receptor activates mitogen-activated protein (MAP) kinase and MAP kinase kinase in Chinese hamster ovary cells. 829 89

We used a Saccharomyces cerevisiae genetic system to detect the physical interaction of RAS and RAF oncoproteins. We also observed interaction between RAS and byr2, a protein kinase implicated as a mediator of the Schizosaccharomyces pombe ras1 protein. Interaction with RAS required only the N-terminal domains of RAF or byr2 and was disrupted by mutations in either the guanine nucleotide-binding or effector-loop domains of RAS. We observed interaction between MEK (a kinase that phosphorylates mitogen-activated protein kinases) and the catalytic domain of RAF. RAS and MEK also interacted but only when RAF was overexpressed.
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PMID:Complex formation between RAS and RAF and other protein kinases. 832 1

We describe a novel Triton-disrupted mammalian cell system wherein the pathways for activation of mitogen-activated protein (MAP) kinases (MAPKs) are capable of direct biochemical manipulation in vitro. MAPKs p42mapk and p44mapk are activated in signal transduction cascade(s) initiated by occupancy of plasma membrane receptors for peptide growth factors, hormones, and neurotransmitters. One likely activation pathway for MAPKs consists of sequential activations of c-ras, c-raf-1, and a protein-tyrosine/threonine kinase, MAP kinase kinase. Triton-disrupted cells retained capacity for activation of the pathway by both peptide growth factors and by addition of GTP-loaded p21 rasVal12. Incubation of disrupted cells with an antibody that neutralized the function of c-ras (Y13-259) abolished receptor-mediated stimulation of MAPK as did acute addition of 200 microM azatyrosine. Activation of the pathway was reconstituted in a cell-free system using high-speed supernatants generated from Triton-disrupted cells together with purified plasma membranes from parental cells and as a heterogeneous system using purified plasma membranes from v-ras-transformed cells. These systems will allow biochemical dissection in vitro of the interaction(s) between c-ras and the MAPK pathway in mammalian cells.
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PMID:Activation of the mitogen-activated protein kinase pathway in Triton X-100 disrupted NIH-3T3 cells by p21 ras and in vitro by plasma membranes from NIH 3T3 cells. 833 4

The mitogen-activated protein (MAP) kinase homologue FUS3 mediates both transcription and G1 arrest in a pheromone-induced signal transduction cascade in Saccharomyces cerevisiae. We report an in vitro kinase assay for FUS3 and its use in identifying candidate substrates. The assay requires catalytically active FUS3 and pheromone induction. STE7, a MAP kinase kinase homologue, is needed for maximal activity. At least seven proteins that specifically associate with FUS3 are phosphorylated in the assay. Many of these substrates are physiologically relevant and are affected by in vivo levels of numerous signal transduction components. One substrate is likely to be the transcription factor STE12. A second is likely to be FAR1, a protein required for G1 arrest. FAR1 was isolated as a multicopy suppressor of a nonarresting fus3 mutant and interacts with FUS3 in a two hybrid system. Consistent with this FAR1 is a good substrate in vitro and generates a FUS3-associated substrate of expected size. These data support a model in which FUS3 mediates transcription and G1 arrest by direct activation of STE12 and FAR1 and phosphorylates many other proteins involved in the response to pheromone.
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PMID:FUS3 phosphorylates multiple components of the mating signal transduction cascade: evidence for STE12 and FAR1. 833 5

Xenopus 45-kDa mitogen-activated protein (MAP) kinase kinase (MAPKK) is a serine/threonine/tyrosine kinase, which activates MAP kinase (MAPK) by phosphorylating its threonine and tyrosine residues. MAPKK is active only when its threonine and/or serine residues are phosphorylated. We have identified from Xenopus eggs two protein kinases responsible for phosphorylation of MAPKK. The two kinases are separated by Sephacryl S-300 gel filtration chromatography. The higher molecular weight kinase phosphorylates MAPKK previously dephosphorylated and inactivated by phosphatase 2A treatment on mainly serine and slightly threonine residues, and reactivates the MAPKK, and is thus assumed to work as MAPKK kinase (MAPKKK) in vivo. The lower molecular weight kinase, identified as MAPK, phosphorylates the dephosphorylated MAPKK on mainly threonine and faintly serine residues, but does not reactivate the MAPKK activity. As Xenopus MAPKK contains a single phosphorylation consensus sequence (PXT388P) for MAPK in the C-terminal region, this T388 residue may be a major phosphorylation site catalyzed by MAPK. Thus, Xenopus MAPKK is phosphorylated in mature oocytes by not only an upstream kinase, MAPKKK, but also a downstream kinase, MAPK.
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PMID:Phosphorylation of Xenopus mitogen-activated protein (MAP) kinase kinase by MAP kinase kinase kinase and MAP kinase. 838 23

To identify the direct target molecule of ras p21 in higher eukaryotes, we have recently developed the cell-free system in which ras p21 activates mitogen-activated protein (MAP) kinase/extracellular signal-regulated kinase (ERK). In this cell-free system, the guanosine 5'-[gamma-thio]triphosphate- bound form of Ki-ras p21, but not the GDP-bound form, activates endogenous Xenopus MAP kinase as well as recombinant ERK2 in the presence of the cytosol fraction of Xenopus oocytes. We separated two protein factors from the cytosol fraction of Xenopus oocytes by column chromatography: one was the inactive form of MAP kinase kinase and the other was a factor tentatively named ras p21-dependent ERK-kinase stimulator (REKS). The former and latter showed M(r) values of approximately 45,000 and 150,000-200,000, respectively, as estimated by gel filtration. Both factors were necessary for Ki-ras p21-dependent activation of MAP kinase/ERK2. These results indicate that an additional protein factor (REKS) is essential for Ki-ras p21 to activate MAP kinase through MAP kinase kinase.
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PMID:A protein factor for ras p21-dependent activation of mitogen-activated protein (MAP) kinase through MAP kinase kinase. 838 39


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