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:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelet-derived growth factor (PDGF) BB is a potent mitogen for renal mesangial cells and stimulates a biphasic mitogen-activated protein kinase (MAP kinase) activation. A rapid increase in activity (maximal at 10 min) is followed by a lower persistent level of activity which is maximal at 4-6 h. The second peak of MAP kinase activity is markedly attenuated by the protein synthesis inhibitor cycloheximide and, consequently, is paralleled by a marked de-novo synthesis of p42 and p44 MAP kinases, as measured by immunoprecipitation of [35S]methionine-labeled mesangial cells and by a 700% increase in total MAP kinase protein, as detected by Western-blot analysis. A 30-min treatment with PDGF-BB is sufficient to induce pronounced de-novo synthesis of MAP kinase. However, for maximal induction of MAP kinase synthesis, PDGF is required to be present for at least 4 h. In addition, an increased de-novo synthesis of MAP kinase kinase, the upstream activator of MAP kinase, is observed in response to PDGF stimulation. We propose that PDGF-induced de-novo synthesis of MAP kinase and MAP kinase kinase is important for the potent mitogenic activity of this growth factor.
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PMID:Platelet-derived growth factor stimulates de-novo synthesis of mitogen-activated protein kinase in renal mesangial cells. 785 88

We have used the two-hybrid system of Fields and Song to identify protein-protein interactions that occur in the pheromone response pathway of the yeast Saccharomyces cerevisiae. Pathway components Ste4p, Ste5p, Ste7p, Ste11p, Ste12p, Ste20p, Fus3p and Kss1p were tested in all pairwise combinations. All of the interactions we detected involved at least one member of the MAP kinase cascade that is a central element of the response pathway. Ste5p, a protein of unknown biochemical function, interacted with protein kinases that operate at each step of the MAP kinase cascade, specifically with Ste11p (an MEKK), Ste7p (an MEK), and Fus3p (a MAP kinase). This finding suggests that one role of Ste5p is to serve as a scaffold to facilitate interactions among members of the kinase cascade. In this role as facilitator, Ste5p may make both signal propagation and signal attenuation more efficient. Ste5p may also help minimize cross-talk with other MAP kinase cascades and thus ensure the integrity of the pheromone response pathway. We also found that both Ste11p and Ste7p interact with Fus3p and Kss1p. Finally, we detected an interaction between one of the MAP kinases, Kss1p, and a presumptive target, the transcription factor Ste12p. We failed to detect interactions of Ste4p or Ste20p with any other component of the response pathway.
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PMID:Protein-protein interactions in the yeast pheromone response pathway: Ste5p interacts with all members of the MAP kinase cascade. 785 59

ENGAGEMENT of the T-cell receptor (TCR) with cognate ligands provokes different outcomes depending on the developmental stage of the T cell and on the properties of the ligand. In immature thymocytes TCR stimulation may result in maturation (positive selection) or death (negative selection), whereas in mature T cells it may induce proliferation, death or unresponsiveness. To investigate the different signals involved in these processes, we have analysed the role of the MAP kinase (MAPK) cascade, which is required for growth-factor-stimulated replication and for differentiation in other cell types, by expressing a catalytically inactive form of MAPK kinase (MEK-1) in thymocytes, thereby blocking MAPK activation. We find that positive selection of these cells is inhibited but that negative selection and TCR-induced proliferation are unaffected. Our results indicate that the intracellular signals regulating lineage commitment in T cells parallel those in photoreceptor cell specification in Drosophila and vulval cell differentiation in Caenorhabditis elegans, suggesting that general rules for cell-type specification could apply among all metazoans.
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PMID:Selective requirement for MAP kinase activation in thymocyte differentiation. 785 19

Activation of the mitogen activated protein kinase (MAPK) plays essential roles in many signal transduction pathways. MAPK has been demonstrated to phosphorylate and regulate numerous cellular proteins, including growth factor receptor, transcription factors, cytoskeletal proteins, phospholipase and other protein kinases. Activation of MAPK requires phosphorylation of both threonine and tyrosine residues, which are catalysed by a single protein kinase known as MAPK kinase or MEK. MEK itself is activated by phosphorylation on two conserved serine residues. Three distinct mammalian Ser/Thr kinases, including Raf, Mos and MEKK (for MEK kinase), have been demonstrated to phosphorylate and activate MEK. The MAP kinase cascade is highly conserved in all eukaryotes and involved in numerous cellular responses. Activation of MAPK is a transient event that is tightly regulated by both kinases and phosphatases. A growth factor induced dual specific phosphatase is likely to play an important role in MAPK regulation.
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PMID:The mitogen activated protein kinase signal transduction pathway: from the cell surface to the nucleus. 785 62

With the goal of discovering the cellular functions of type 2C protein phosphatases, we have cloned and analyzed two ptc (phosphatase two C) genes, ptc2+ and ptc3+, from the fission yeast Schizosaccharomyces pombe. Together with the previously identified ptc1+ gene, the enzymes encoded by these genes account for approximately 90% of the measurable PP2C activity in fission yeast cells. No obvious growth defects result from individual disruptions of ptc genes, but a delta ptc1 delta ptc3 double mutant displays aberrant cell morphology and temperature-sensitive cell lysis that is further accentuated in a delta ptc1 delta ptc2 delta ptc3 triple mutant. These phenotypes are almost completely suppressed by the presence of osmotic stabilizers, strongly indicating that PP2C has an important role in osmoregulation. Genetic suppression of delta ptc1 delta ptc3 lethality identified two loci, mutations of which render cells hypersensitive to high-osmolarity media. One locus is identical to wis1+, encoding a MAP kinase kinase (MEK) homolog. The Wis1 sequence is most closely related to the Saccharomyces cerevisiae MEK encoded by PBS2, which is required for osmoregulation. These data indicate that divergent yeasts have functionally conserved MAP kinase pathways, which are required to increase intracellular osmotic concentrations in response to osmotic stress. Moreover, our observations implicate PP2C enzymes as also having an important role in signal transduction processes involved in osmoregulation, probably acting to negatively regulate the osmosensing signal that is transmitted through Wis1 MAP kinase kinase.
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PMID:Counteractive roles of protein phosphatase 2C (PP2C) and a MAP kinase kinase homolog in the osmoregulation of fission yeast. 785 38

Cellular growth control requires the coordination and integration of multiple signaling pathways which are likely to be activated concomitantly. Mitogenic signaling initiated by thyrotropin (TSH) in thyroid cells seems to require two distinct signaling pathways, a cyclic AMP (cAMP)-dependent signaling pathway and a Ras-dependent pathway. This is a paradox, since activated cAMP-dependent protein kinase disrupts Ras-dependent signaling induced by growth factors such as epidermal growth factor and platelet-derived growth factor. This inhibition may occur by preventing Raf-1 protein kinase from binding to Ras, an event thought to be necessary for the activation of Raf-1 and the subsequent activation of the mitogen-activated protein (MAP)/extracellular signal-regulated kinase (ERK) kinases (MEKs) and MAP kinase (MAPK)/ERKs. Here we report that serum-stimulated hyperphosphorylation of Raf-1 was inhibited by TSH treatment of Wistar rat thyroid cells, indicating that in this cell line, as in other cell types, increases in intracellular cAMP levels inhibit activation of downstream kinases targeted by Ras. Ras-stimulated expression of genes containing AP-1 promoter elements was similarly inhibited by TSH. On the other hand, stimulation of thyroid cells with TSH resulted in stimulation of DNA synthesis which was Ras dependent but both Raf-1 and MEK independent. We also show that Ras-stimulated DNA synthesis required the use of this kinase cascade in untreated quiescent cells but not in TSH-treated cells. These data suggest that in TSH-treated thyroid cells, Ras might be able to signal through effectors other than the well-studied cytoplasmic kinase cascade.
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PMID:Thyrotropin-induced mitogenesis is Ras dependent but appears to bypass the Raf-dependent cytoplasmic kinase cascade. 786 10

MAP kinase kinase (MAPKK), a key component of the MAP kinase cascade, is activated through phosphorylation by several protein kinases, including the oncogene v-Mos and its cellular counterpart, c-Mos. The v-Mos-catalyzed phosphorylation sites on recombinant MAPKK1 were identified by electrospray ionization mass spectrometry as S218 and S222, located within a sequence that aligns with the T loop structure of cAMP-dependent protein kinase; these are the same as the Raf-1 phosphorylation site identified previously [Alessi, D. R., et al. (1994) EMBO J. 13, 1610-1619]. Phosphorylation of these sites was kinetically ordered, with S222 preferred over S218. Intramolecular autophosphorylation of these sites was kinetically ordered, with S222 preferred over S218. Intramolecular autophosphorylation of MAPKK occurred at several residues and was increased upon the stimulation of MAPKK activity by v-Mos. Major autophosphorylation sites were residues S298 and Y300. Minor autophosphorylation sites included T23, S299, S218, and either S24 or S25. Sequence similarities were noted between MAPKK autophosphorylation sites and exogenous phosphorylation sites on MAP kinase. Phosphorylation of either S218 or S222 was sufficient for partial MAPKK activation by Mos, and phosphorylation of S222 alone was sufficient for autophosphorylation at S298 and Y300. Mass spectral analysis was also performed on MAPKK1 purified from rabbit skeletal muscle. The peptide containing S218 and S222 was observed in only a singly phosphorylated form, and the peptide containing S298, S299, and Y300 was observed in multiply phosphorylated forms, suggesting that MAPKK is only partially phosphorylated within the T loop but significantly modified in the autophosphorylation loop under physiological conditions.
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PMID:Determination of v-Mos-catalyzed phosphorylation sites and autophosphorylation sites on MAP kinase kinase by ESI/MS. 787 42

GATA-2 is a member of a family of transcription factors which bind a common DNA sequence motif (WGA-TAR) through an evolutionarily conserved zinc finger domain. An essential role for GATA-2 in the development of hematopoietic stem cells has recently been shown in gene targeting experiments in mice. Here we show that GATA-2 exists in hematopoietic progenitor cells as a phosphoprotein. Stimulation of progenitors with interleukin-3 (IL-3) results in enhanced phosphorylation of GATA-2 which occurs within 5 min. IL-3 is known to signal in part through mitogen-activated protein (MAP) kinase, and evidence for MAP kinase signaling in the control of GATA-2 phosphorylation was obtained by genetically manipulating the MAP kinase pathway in COS cells using either constitutively activating or interfering mutants of MAP kinase kinase. Furthermore, using an interfering mutant of MAP kinase kinase, we directly demonstrated a critical role for the MAP kinase pathway in the IL-3-dependent phosphorylation of GATA-2 in hematopoietic progenitor cells. Finally, in vitro phosphorylation experiments using recombinant GATA-2 raise the possibility that MAP kinase itself may phosphorylate GATA-2. Our results provide evidence for phosphorylation via the MAP kinase pathway constituting a cytoplasmic link between GATA-2 and growth factor receptors and are consistent with the hypothesis that GATA-2 is involved in the growth factor responsiveness and proliferation control of hematopoietic progenitor cells.
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PMID:Regulation of GATA-2 phosphorylation by mitogen-activated protein kinase and interleukin-3. 787 60

In Xenopus oocytes, activation of MAP kinase occurs during meiotic maturation through a protein kinase cascade (the MAP kinase cascade), which is utilized commonly in various intracellular signaling pathways in eukaryotes. Studies with a neutralizing antibody against Xenopus MAP kinase kinase (MAPKK), a direct upstream activator for MAP kinase, have shown that the MAP kinase cascade plays a crucial role in both initiating oocyte maturation and inducing metaphase arrest.
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PMID:Regulation and function of the MAP kinase cascade in Xenopus oocytes. 788 86

MAP kinases (MAPK) are serine/threonine kinases which are activated by a dual phosphorylation on threonine and tyrosine residues. Their specific upstream activators, called MAP kinase kinases (MAPKK), constitute a new family of dual-specific threonine/tyrosine kinases, which in turn are activated by upstream MAP kinase kinase kinases (MAPKKK). These three kinase families are successively stimulated in a cascade of activation described in various species such as mammals, frog, fly, worm or yeast. In mammals, the MAP kinase module lies on the signaling pathway triggered by numerous agonists such as growth factors, hormones, lymphokines, tumor promoters, stress factors, etc. Targets of MAP kinase have been characterized in all subcellular compartments. In yeast, genetic epistasis helped to characterize the presence of several MAP kinase modules in the same system. By complementation tests, the relationships existing between phylogenetically distant members of each kinase family have been described. The roles of the MAP kinase cascade have been analyzed by engineering various mutations in the kinases of the module. The MAP kinase cascade has thus been implicated in higher eukaryotes in cell growth, cell fate and differentiation, and in low eukaryotes, in conjugation, osmotic stress, cell wall construct and mitosis.
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PMID:Deciphering the MAP kinase pathway. 788 35


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