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)

The sphingomyelin pathway, initiated by hydrolysis of sphingomyelin to ceramide and stimulation of a Ser/Thr ceramide-activated protein (CAP) kinase, mediates tumour necrosis factor-alpha (TNF-alpha) and interleukin-1 beta action. CAP kinase is membrane-bound and proline-directed, recognizing the minimal substrate motif Thr-Leu-Pro. TNF may use the sphingomyelin pathway to signal Raf1 to activate the MAP kinase cascade. Evidence shows that cytoplasmic Raf1 binds to GTP-ras upon cellular stimulation, is recruited to the plasma membrane, and activated. How membrane-bound Raf1 is activated is uncertain, but regulation of its kinase activity may involve its phosphorylation. Specific Raf kinases, however, have not hitherto been identified. Here we report that CAP kinase phosphorylates Raf1 on Thr 269, increasing its activity towards MEK (MAP kinase or ERK kinase). Moreover, in intact HL-60 cells, CAP kinase complexes with Raf1 and, in response to TNF and ceramide analogues, phosphorylates and activates Raf1, implicating CAP kinase as a link between the TNF receptor and Raf1.
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PMID:Phosphorylation of Raf by ceramide-activated protein kinase. 747 54

The mouse protein mSos1 has a central Ras guanine nucleotide exchange domain, and a long proline-rich C-terminal tail which contains several potential binding sites for the SH3 domains of the adaptor protein, Grb2. In fibroblasts, growth factor stimulation results in the recruitment of Grb2-mSos1 into complexes with activated receptors and cytoplasmic phosphoproteins such as Shc, which are apparently involved in Ras activation, and subsequently to an increase in mSos1 phosphorylation on serine and threonine. The catalytic and C-terminal domains of mSos1 contain several potential sites for phosphorylation by mitogen-activated protein kinases. In vitro, purified p42/p44 MAP-kinase selectively phosphorylated the C-terminal tail of mSos1. Comparative tryptic phosphopeptide mapping of mSos1 phosphorylated in vitro by MAP kinase and of mSos1 immunoprecipitated from EGF-stimulated cells, revealed several phosphopeptides in common. These common phosphorylation sites have been mapped to a region encompassing the first three proline (pro)-rich motifs in the tail of mSos1. Furthermore, a region of mSos1 containing the first two pro-rich motifs could associate with MBP kinase activity in vitro. Phosphorylation of mSos1 did not affect binding of Grb2 to mSos1, but appeared to decrease binding of the mSos1-Grb2 complex to Shc and the EGF-receptor. These findings suggest a potential inhibitory role for MAP-kinase in attenuating nucleotide exchange on Ras, by uncoupling mSos1 from membrane-bound receptor complexes that lead to Ras activation.
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PMID:MAP kinase phosphorylation of mSos1 promotes dissociation of mSos1-Shc and mSos1-EGF receptor complexes. 747 66

The cellular signaling events leading to the systemic inflammatory response syndrome and sepsis in monocytes/macrophages activated by lipopolysaccharide (LPS) are well understood. LPS is a glycolipid component of Gram-negative bacterial cell wall. It exerts its effect through the lipid A moiety. LPS binds to monocytes/macrophages via a membrane-bound receptor, CD14, an interaction which is optimized in the presence of plasma factors, LPS-binding protein, and septin. Although LPS is known to bind to other receptors, the roles of these receptors in transmembrane signaling and activation of monocytes/macrophages are not as well understood as is that of the CD14 receptor. Intracellular events in response to LPS stimulation are mediated by phospholipase (PL) C, protein kinases, PLA2, and PLD. Activation of PLC by LPS results in the release of diacylglycerol and inositol 1,4,5-trisphosphate. The former mediates the stimulation of protein kinase C, and the latter induces an increase in intracellular calcium concentration. LPS stimulation of monocytes/macrophages also results in the phosphorylation and activation of several protein kinases, including protein tyrosine kinases which mediate cytokine production, and mitogen-activated protein kinase which activates cytosolic PLA2 to release arachidonate. LPS also plays a role in cellular proliferation and differentiation. Upregulation of the secretory form of PLA2 has also been documented in response to LPS. PLD is stimulated by LPS to release phosphatidic acid (PA). PA can activate the respiratory burst by increasing diacylglycerol production and by modulating the effects of guanine nucleotide-binding proteins. Therapeutic strategies to decrease the clinical effects of sepsis would logically include agents which block at initial receptor-ligand interaction, as well as those which attenuate the intracellular events that follow LPS stimulation. Early in vivo studies are promising, but clearly much work remains to be done.
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PMID:Signaling events in monocytes and macrophages. 758 75

The role of the C-terminal domain of CTP: phosphocholine cytidylyltransferase (CT) was explored by the creation of a series of deletion mutations in rat liver cDNA, which were expressed in COS cells as a major protein component. Deletion of up to 55 amino acids from the C-terminus had no effect on the activity of the enzyme, its stimulation by lipid vesicles or on its intracellular distribution between soluble and membrane-bound forms. However, deletion of the C-terminal 139 amino acids resulted in a 90% decrease in activity, loss of response to lipid vesicles and a significant decrease in the fraction of membrane-bound enzyme. Identification of the domain that is phosphorylated in vivo was determined by analysis of 32P-labelled CT mutants and by chymotrypsin proteolysis of purified CT that was 32P-labelled in vivo. Phosphorylation was restricted to the C-terminal 52 amino acids (domain P) and occurred on multiple sites. CT phosphorylation in vitro was catalysed by casein kinase II, cell division control 2 kinase (cdc2 kinase), protein kinases C alpha and beta II, and glycogen synthase kinase-3 (GSK-3), but not by mitogen-activated kinase (MAP kinase). Casein kinase II phosphorylation was directed exclusively to Ser-362. The sites phosphorylated by cdc2 kinase and GSK-3 were restricted to several serines within three proline-rich motifs of domain P. Sites phosphorylated in vitro by protein kinase C, on the other hand, were distributed over the N-terminal catalytic as well as the C-terminal regulatory domain. The stoichiometry of phosphorylation catalysed by any of these kinases was less than 0.2 mol P/mol CT, and no effects on enzyme activity were detected. This study supports a tripartite structure for CT with an N-terminal catalytic domain and a C-terminal regulatory domain comprised of a membrane-binding domain (domain M) and a phosphorylation domain (domain P). It also identifies three kinases as potential regulators in vivo of CT, casein kinase II, cyclin-dependent kinase and GSK-3.
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PMID:Functions of the C-terminal domain of CTP: phosphocholine cytidylyltransferase. Effects of C-terminal deletions on enzyme activity, intracellular localization and phosphorylation potential. 765 14

The B cell antigen receptor is a complex containing the antigen-binding immunoglobulin molecules and the Ig-alpha/Ig-beta heterodimer which presumably connects the B cell antigen receptor to intracellular signaling components. To analyze the functional properties of the cytoplasmic parts of the B cell antigen receptor, we used the K46 B lymphoma line (IgG2a, kappa) to express chimeric molecules composed of the extracellular and transmembrane part of the CD8 alpha molecule and the cytoplasmic sequence of either the Ig-alpha (CD8 alpha/Ig-alpha), the Ig-beta (CD8 alpha/Ig-beta) protein or the membrane-bound gamma 2a heavy chain (CD8 alpha/gamma 2a). From these three types of chimeric molecules only (CD8 alpha/Ig-alpha and CD8 alpha/Ig-beta, but not CD8 alpha/gamma 2a, could transduce signals, thus providing the first evidence that the cytoplasmic tail of Ig-alpha and Ig-beta have a signaling capacity. After cross-linking with anti-CD8 alpha antibodies, both molecules induced a similar increase in intracellular free calcium ion and in MAP kinase phosphorylation. Protein tyrosine kinases, however, were strongly activated via the CD8 alpha/Ig-alpha and only marginally via the CD8 alpha/Ig-beta molecule. This suggests that the Ig-alpha and Ig-beta proteins have distinct roles during signal transduction through the B cell antigen receptor.
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PMID:Differential signaling through the Ig-alpha and Ig-beta components of the B cell antigen receptor. 768 2

Raf is a mitogen-stimulated protein kinase that functions as a component of the signaling cascade that leads to the stimulation of mitogen-activated protein kinase. Here we show that the native structure of Raf is a large multi-subunit protein complex with an apparent mass of 300-500 kDa that interacts with Ras and the mitogen-activated protein kinase kinase Mek. Analysis of the structure of the Raf complex demonstrates that it contains a single Raf protein kinase together with the molecular chaperones hsp90 and p50. The Raf-hsp90-p50 complex was observed in starved cells and in cells activated with serum or phorbol ester. Thus, changes in complex formation with hsp90 and p50 are not required for activation of the Raf protein kinase. However, Raf activation caused by Ras was associated with the translocation of the cytoplasmic Raf-hsp90-p50 complex to the cell membrane. Significantly, it is only the membrane-bound complex that exhibits increased protein kinase activity. Thus, the Ras-activated Raf protein kinase functions as a membrane-bound multi-subunit complex.
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PMID:The native structure of the activated Raf protein kinase is a membrane-bound multi-subunit complex. 812 27

A conserved tyrosine kinase-activated signal transduction pathway has recently been identified that comprises the plasma membrane-bound small guanine-nucleotide-binding protein Ras and the protein kinases Raf, MAP-kinase kinase and MAP kinase. GTP-bound Ras interacts directly with the amino-terminal regulatory domain of Raf, but although Ras and Raf can be coimmunoprecipitated from ligand-stimulated cells, Ras-GTP does not stimulate the kinase activity of Raf in vitro. Furthermore, we have failed to detect Ras in preparations of active detergent-solubilized Raf, demonstrating that once it is activated, Raf does not require Ras. Whereas Raf is normally cytosolic, in cells expressing active Ras, Raf is associated with the plasma membrane. This led us to investigate whether Ras is required to localize Raf to the plasma membrane in order for Raf to become activated. We fused the membrane localization signal of K-Ras(4B) to the carboxy terminus of Raf. This protein is constitutively active and can be further activated by epidermal growth factor, independently of Ras. Our results indicate that Ras functions as a regulated, membrane-bound anchor for Raf, and that other signal(s) also contribute to Raf activation.
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PMID:Requirement for Ras in Raf activation is overcome by targeting Raf to the plasma membrane. 819 69

Protein kinase C (PKC) translocates from the cytosol to the surface membrane at the time it mediates agonist-induced contraction of ferret vascular smooth muscle cells (R. A. Khalil and K. G. Morgan. J. Physiol. Lond. 455: 585-599, 1992). However, no direct communication between membrane-associated PKC and the contractile filaments has been identified. Mitogen-activated protein (MAP) kinase is a substrate for PKC and is also capable of phosphorylating the actin-binding protein caldesmon at sites phosphorylated during smooth muscle contraction in vivo (L. P. Adam, C. J. Gapinski, and D. R. Hathaway. FEBS Lett. 302: 223-226, 1992). In the present study, the hypothesis that PKC and MAP kinase are involved in a signal-transduction cascade leading to smooth muscle contraction was tested. Immunofluorescence and digital-imaging microscopy were used to localize the epsilon-PKC isoform and MAP kinase during phenylephrine-induced Ca(2+)-independent activation of ferret aorta cells. We report that maintained phenylephrine-induced translocation of cytosolic PKC to the surface membrane is associated with transient redistribution of cytosolic MAP kinase to the surface membrane before cell contraction. Coincident with cell contraction, MAP kinase undergoes a second redistribution away from the plasmalemma and toward the vicinity of contractile filaments. Redistribution of MAP kinase is not stimulated by Ca2+ but is completely prevented by PKC inhibitors. The transient Ca(2+)-independent but PKC-dependent redistribution of MAP kinase points to MAP kinase as a missing link in the signal-transduction cascade between membrane-bound PKC and smooth muscle activation.
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PMID:PKC-mediated redistribution of mitogen-activated protein kinase during smooth muscle cell activation. 836 70

The growth hormone receptor (GHR) belongs to the superfamily of transmembrane proteins that includes the prolactin receptor and a number of cytokine receptors. Two forms exist for the GHR: the full-length membrane-bound human receptor is a protein of 620 amino acids with a single transmembrane region; and the GH binding protein (GHBP) is a short soluble from corresponding to the extracellular domain of the full-length receptor. In rodents, GHBP is encoded by a specific mRNA of 1.2-1.5 kb, whereas in man and other species GHBP is believed to result from proteolytic cleavage of the membrane receptor. Growth hormone binding protein prolongs the half-life of GH but other functions for GHBP remain to be demonstrated. Recombinant GHBP complexed to human GH shows a 2:1 stoichiometric crystal structure. Growth hormone-induced dimerization of the cell surface GHR appears to be a prerequisite for biological activity of the hormone. JAK2 has been identified as a tyrosine kinase associated with GHR and other receptors of the superfamily. Binding of GH to its receptor results in dimerization of the GHR, phosphorylation of JAK2 and of the GHR. Other substrates for JAK2 have to be identified. Transcription factors belonging to the STAT (signal transducers and activators of transcriptions) family are involved in the transcriptional effects of GH. The activity of mutants of the GHR has been measured in functional tests to identify sequences of the cytoplasmic domain of the receptor that are important for signal transduction. A proline-rich sequence, called Box I, conserved among members of the receptor family has been shown to be crucial for GH effects on gene transcription. MAP kinase activity and cell proliferation. The C-terminal region of the GHR is required for tyrosine phosphorylation of the receptor and for a hormonal effect on gene transcription, whereas only 46 membrane proximal amino acids of the cytoplasmic domain are necessary for activation of JAK2 and transduction of the GH proliferative signal. Much work remains to be done to identify other protein kinases and signalling molecules involved in the mechanism of action of GH.
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PMID:Growth hormone receptor: structure and signal transduction. 854 48

To understand the signalling mechanisms involved in the dual stimulatory effects of endothelin-1 (ET-1) on DNA synthesis and melanization in cultured human melanocytes, we analysed the biological profile of ET-1 receptor and determined the effects of ET-1 on the protein kinase C, cyclic AMP system and mitogen-activated protein kinase (MAP kinase) in comparison with their relevant stimulants. The photoaffinity labelling of ET-1 receptors with Denny-Jaff reagents revealed an ET-1 receptor with a molecular mass of 51 kDa in human melanocytes. The ET(A) receptor subtype-sensitive antagonist BQ123(50 nM) or pertussis toxin (100 ng/ml) significantly suppressed the ET-1-induced intracellular calcium mobilization, indicating the presence of pertussis toxin-sensitive G-protein-coupled ET(A) receptors. An assay of protein kinase C activity revealed that 10nM ET-1 translocated cytosolic protein kinase C to membrane-bound protein kinase C within 5 min of the start of incubation. In contrast, receptor-mediated melanocyte activation by ET-1 was accompanied by an elevated level of cyclic AMP (4-fold over control) after 10-60 min of incubation, whereas 60 min of incubation of human melanocytes with c-Kit or c-Met ligands such as stem cell factor (10 nM) or basic fibroblast growth factor (10 nM) did not elevate the cyclic AMP level. We have also demonstrated that a specific tyrosine kinase inhibitor, tyrphostin B-42 (10 microM), inhibited the ET-1-induced growth stimulation, suggesting the involvement of the tyrosine kinase pathway in growth stimulation. Consistently, an assay of MAP kinase revealed that ET-1 caused a 10-fold activation of MAP kinase after 5 min of incubation with human melanocytes in a similar way to tyrosine kinase ligands such as stem cell factor and hepatocyte growth factor. Further, the DNA synthesis stimulated by the c-Kit ligand stem cell factor at a concentration of 1 nM was synergistically enhanced by 5 nM ET-1. These results suggest that ET-induced dual cellular events in human melanocytes are closely associated with cross-talk between the protein kinase C and A and tyrosine kinase pathways.
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PMID:Signalling mechanisms of endothelin-induced mitogenesis and melanogenesis in human melanocytes. 866 Feb 99


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