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 formation of cell membrane following CSF-1 stimulation of a macrophage cell line is coordinated with cell cycle progression. The majority of membrane phospholipid accumulates during the S phase and results from cell-cycle dependent oscillations in the rates of phosphatidylcholine biosynthesis and degradation. Both synthesis and degradation are enhanced during the G1 phase, resulting in a high rate of phosphatidylcholine turnover. Degradation of phosphatidylcholine after CSF-1 stimulation is mediated by a phospholipase C, and the release of diacylglycerol during G1 phase is biphasic. The degradation essentially stops during the S phase, thus allowing biosynthesis to supply the necessary membrane for cell division and doubling. The degradation of phosphatidylcholine during G1 signals the downstream activation of c-fos and junB transcription and can be mimicked by incubation of the macrophage cells with exogenous bacterial phospholipase C. In contrast, the expression of c-myc transcripts normally associated with CSF-1 stimulation is severely compromised in phospholipase C-treated cells, indicating that the diacylglycerol signals a pathway distinct from the pathway that governs c-myc activation. Constitutive expression of c-myc complements phospholipase C activity and permits the growth of cells in the presence of exogenous bacterial enzyme and the absence of CSF-1. Protein kinase C is not required to mediate the diacylglycerol signal that supports cell growth. GTP exchange on Ras is not enhanced, and MAP kinase activity is not stimulated in response to phosphatidylcholine degradation by exogenous phospholipase C. The 85 kDa cytoplasmic phospholipase A2 is activated, however, as well as a novel protein we have called p96. Rapid serine phosphorylation of p96 follows stimulation of cells with either CSF-1 or exogenous phospholipase C. Analysis of the murine cDNA encoding p96 reveals an amino-terminal domain with significant similarity to the amino-terminal domain of the Drosophila-disabled gene product and a carboxy-terminal domain containing proline-rich sequences characteristic of SH3 binding regions. The sequence of p96 suggests an interactive role for this unique protein in the CSF-1 signal transduction cascade.
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PMID:Phosphatidylcholine signaling in response to CSF-1. 898 60

The significant contributions this past year to our understanding of IgE receptor (Fc epsilon RI) signaling in mast cells include studies with truncated Syk in a vaccinia expression system and Syk-negative variants of rat basophilic (RBL-2H3) cells. These studies demonstrate an essential role for Syk in initiating signals for secretion and release of arachidonic acid via phospholipase A2 and mitogen-activated protein kinase. A newly recognized addition to the repertoire of Fc epsilon RI-mediated signaling systems is the activation of sphingosine kinase, which contributes to calcium mobilization in mast cells. Advances have been made in our understanding of other receptors that regulate proliferation and differentiation of mast cells, and in our understanding of the ability of mast cells to mount acquired and acute responses to antigenic and bacterial challenge.
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PMID:Downstream signals initiated in mast cells by Fc epsilon RI and other receptors. 899 53

Annexin V belongs to a family of proteins that interact with phospholipids in a Ca2+-dependent manner. This protein has been demonstrated to have anti-phospholipase A2 activity. However, this effect has never yet been reported with the 85-kDa cytosolic PLA2 (cPLA2). We studied, in a model of differentiated and streptolysin O-permeabilized HL-60 cells, the effect of annexin V on cPLA2 activity after stimulation by calcium, GTPgammaS (guanosine 5'-O-(3-thiotriphosphate)), formyl-Met-Leu-Phe, or phorbol 12-myristate 13-acetate. Both recombinant and human placental purified annexin V inhibit cPLA2 activity whatever the stimulus used. The decrease of arachidonic acid release is of 40 and 50%, respectively, at [Ca2+] of 3 and 10 microM. The mechanism of inhibition was also analyzed. cPLA2 requires calcium and protein kinase C (PKC) or mitogen-activated protein kinase phosphorylation for its activation. As annexin V was shown to be an endogenous inhibitor of PKC, PKC-stimulated cPLA2 activity was analyzed. Using GF109203x, a specific PKC inhibitor, we demonstrated that this pathway is of minor importance in our model. cPLA2 inhibition by annexin V is not linked to PKC inhibition. To test the hypothesis of phospholipid depletion, mutants of annexin V were constructed using mutagenesis directed to Ca2+ site. We demonstrate that the Ca2+ site located in domain I is necessary for the inhibitory effect of annexin V on cPLA2 activity. The site in domain IV is also involved but with less efficiency. In contrast, mutations in site II and III do not modify this effect. Moreover, annexin V mutated on all sites does not inhibit cPLA2. Thus, we propose a predominant role of module (I/IV) in the biological action of annexin V, which, in physiological conditions, may control cPLA2 activity by depletion of the phospholipid substrate.
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PMID:Inhibition of cytosolic phospholipase A2 by annexin V in differentiated permeabilized HL-60 cells. Evidence of crucial importance of domain I type II Ca2+-binding site in the mechanism of inhibition. 909 90

Analysis of phospholipases A2 on model phospholipid bilayers in which enzyme is essentially irreversibly bound at the lipid-water interface, termed "scooting mode", is a useful tool for studying the kinetic properties of interfacial enzymes. It is shown that human cytosolic 85 kDa phospholipase A2 (cPLA2) hydrolyzes sn-2-arachidonyl-containing phospholipids or the gamma-linolenoyl ester of 7-hydroxycoumarin (GLU) dispersed in vesicles of 1,2-dioleoyl-sn-glycero-3-phosphomethanol (L-DOPM) in the scooting mode. Trapping of cPLA2 on L-DOPM vesicles is rapid and independent of product formation. Slowing of cPLA2-catalyzed hydrolysis of substrates present in phosphatidylmethanol and phosphatidylcholine vesicles is primarily due to apparent inactivation rather than to substrate depletion. cPLA2 phosphorylated on serine 505 by mitogen-activated protein kinase displays a 30% increase in the rate of sn-2-arachidonylphosphatidylcholine hydrolysis in the scooting mode compared to that of the nonphosphorylated enzyme. Kinetic parameters of cPLA2 acting on a variety of different phosphatidylmethanol vesicles were evaluated, and the results are discussed in terms of active site affinities for substrates and of lateral organization of substrates in the bilayer. A key result is that the sigmoidal kinetics reported previously using 1,2-dimyristoyl-sn-glycero-3-phosphomethanol (DMPM) vesicles are most prominent near the phase transition temperature of DMPM. No sigmoidal kinetics was observed using L-DOPM vesicles. The results of kinetic experiments and the behavior of a fluorescent substrate analog are consistent with nonideal mixing of substrate in DMPM vesicles, but not in L-DOPM vesicles, suggesting that apparent saturation and sigmoidal kinetics are more a result of nonideal mixing of substrate in DMPM vesicles than of active site binding of substrate. The fluorescence assay described using L-DOPM/GLU vesicles is useful for evaluating the interfacial behavior of cPLA2, including its substrate preferences and the effect of active site-directed inhibitors.
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PMID:Interfacial catalysis by human 85 kDa cytosolic phospholipase A2 on anionic vesicles in the scooting mode. 911 99

Reactive oxygen species modulate major cellular functions by mechanisms which are still poorly understood. Recently, H2O2 has been reported to stimulate the activity of the mitogen-activated protein kinases (MAPKs) ERK and JNK, and the expression of the proto-oncogenes c-fos and c-jun. As their expression is enhanced by H2O2 in astrocytes, we studied whether these MAPKs were stimulated by H2O2 in primary cultured astrocytes. The result was positive, a maximum of stimulation being reached with 200 microM H2O2 (0.3 pmol H2O2/cell) for both ERK and JNK. ERK was previously reported to stimulate cytosolic phospholipase A2 phosphorylation and activity. H2O2 stimulated the release of arachidonic acid in astrocytes, as already reported in other cell types. We found also that cPLA2 phosphorylation was increased by H2O2. Moreover, the stimulation by H2O2 of ERK and JNK was decreased by phospholipase A2 activity inhibitors. When astrocytes were incubated first with eicosatetraynoic acid, a structural analogue competing in arachidonic acid metabolism, the stimulation of JNK by H2O was also inhibited, suggesting the involvement of arachidonic acid metabolites. Cyclooxygenase or cytochrome P450 monooxygenase inhibitors failed in decreasing the MAPK stimulation by H2O2, whereas lipoxygenase inhibitors completely abolished that of JNK. Mitogenicity has been reported to be stimulated by H2O2 in other cell types. Although ERK was strongly and durably stimulated by 200 microM H2O2 in astrocytes, at the same extent as by mitogenic growth factors, basal thymidine incorporation rate was decreased by more than 80% after 12-15 h. Moreover, the stimulation of thymidine incorporation induced by basic fibroblast growth factor was transiently abolished by H2O2. Furthermore, H2O2 likely induced the expression of CL100/PAC1/MKP-1, a dual specificity phosphatase which has been implicated in ERK and JNK inactivation in the nucleus. Finally, the prior treatment of astrocytes with MK886, a 5-lipoxygenase-activating protein inhibitor, prevented JNK from stimulation, but did not prevent thymidine incorporation from inhibition, both induced by H2O2. These results strongly suggest an involvement of arachidonic acid and/or its metabolites in the stimulation of both ERK and JNK following the oxidative stress evoked by H2O2, which induced a cell cycle arrest probably independent of the stimulation of JNK.
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PMID:Mediation by arachidonic acid metabolites of the H2O2-induced stimulation of mitogen-activated protein kinases (extracellular-signal-regulated kinase and c-Jun NH2-terminal kinase). 911 28

The phospholipase A2 (PLA2) enzymes play a central role in diverse cellular processes including phospholipid digestion and metabolism, host defense, and cell signaling. We investigated the ability of CD16 clustering to trigger PLA2 and extracellular signal-regulated kinase (ERK) activation in human NK cells, as well as their possible involvement in CD16-stimulated degranulation. Both secretory (sPLA2) and cytosolic (cPLA2) PLA2 were rapidly activated upon CD16 cross-linking; sPLA2 was found in the supernatant and also in a cell-associated form. cPLA2 activation was controlled by the ERK pathway as indicated by the close correlation between their kinetics of activation and by the ability of the specific MEK inhibitor, PD 098059, to abolish cPLA2 activation. CD16 stimulation also resulted in the generation of platelet-activating factor (PAF) and leukotrienes; both phospholipases contributed to their biosynthesis. Using the pharmacologic inhibitors AACOCF3, p-bromophenacyl bromide (pBPB), and PD 098059, which specifically inhibit cPLA2, sPLA2, and MEK, respectively, we demonstrated that the ERK signaling pathway, but not cytosolic or secretory PLA2, is required for CD16-triggered granule release.
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PMID:CD16 cross-linking induces both secretory and extracellular signal-regulated kinase (ERK)-dependent cytosolic phospholipase A2 (PLA2) activity in human natural killer cells: involvement of ERK, but not PLA2, in CD16-triggered granule exocytosis. 912 Feb 68

The actions of bradykinin (BK) in Madin-Darby canine kidney (MDCK) and other cell types involve formation of arachidonic acid (AA) and AA products by as-yet-undefined mechanisms. We found that BK promoted AA release and an increase in phospholipase A2 (PLA2) activity in subsequently prepared MDCK-D1 cell lysates, both of which were Ca2+ dependent and were inhibited by the 85-kDa cytosolic PLA2 (cPLA2) inhibitor arachidonyl trifluoromethyl ketone. In addition, BK treatment of cells led to increased PLA2 activity of cPLA2 immunoprecipitated from lysates. Thus BK receptors mediate AA release via cPLA2 in MDCK-D1 cells. The BK-promoted increase of cPLA2 activity was reversed by treatment of cell lysates with potato acid phosphatase, implying that phosphorylation underlies the activation of cPLA2. However, extracellular signal-regulated kinase (ERK) appeared not to be responsible for this phosphorylation, because treatment of cells with BK (in contrast with the results obtained with epinephrine and phorbol ester) caused neither enzyme activation nor phosphorylation (as judged by molecular mass shift) of this kinase. Although the alpha isoform of protein kinase C (PKC alpha) is responsible for AA release promoted by phorbol ester treatment of MDCK-D1 cells (C. Godson, K.S. Bell, and P.A. Insel. [corrected] J. Biol. Chem. 268: 11946-11950, 1993), neither treatment of cells with the PKC alpha-selective inhibitor GF109203X nor transfection of cells with PKC alpha antisense cDNA altered BK-mediated AA release. We conclude that PKC alpha is unlikely to play an important role in the regulation of cPLA2 by BK receptors in MDCK-D1 cells. The tyrosine kinase inhibitor herbimycin A, on the other hand, inhibited both BK-promoted AA release in intact cells and cPLA2 activation in cell lysates, suggesting the involvement of tyrosine kinase in the regulation of this lipase by BK receptors. Taken together, these data suggest that BK receptors in MDCK-D1 cells regulate cPLA2 via phosphorylation mediated by kinases other than ERK and PKC alpha.
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PMID:Role of extracellular signal-regulated kinase and PKC alpha in cytosolic PLA2 activation by bradykinin in MDCK-D1 cells. 914 65

We demonstrate discrete pathways for activation of mitogen-activated protein (MAP) kinase in cultured RBL-2H3 mast cells through protein kinase C (PKC), cytosolic calcium, and a third pathway that provides sustained signals for activation in Ag-stimulated cells. Thus, p42 MAP kinase was activated by increasing intracellular free Ca2+ with thapsigargin or by stimulating PKC with PMA. The latter stimulation was selectively blocked by the protein kinase C inhibitor, Ro31-7549. Stimulation of p42 MAP kinase by Ag resulted in relatively sustained activation of MAP kinase which was only partially suppressed by Ro31-7549. Kinetic studies revealed two components of the MAP kinase response to Ag: a rapid but transient component that was Ro31-7549 sensitive and presumably PKC dependent; and a more sustained component that was Ro31-7549 resistant and presumably PKC independent. Similarly, Ro31-7549 inhibited the early but not late release of arachidonic acid, a finding that was consistent with the known regulation of phospholipase A2 by MAP kinase. Early tyrosine phosphorylation events which were thought to be essential for Ag-induced activation of p42 MAP kinase and release of arachidonic acid were unaffected by Ro31-7549. The findings suggested that release of arachidonic acid was regulated primarily through MAP kinase but that PKC may transiently influence this release, either directly or indirectly through MAP kinase.
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PMID:Antigen activation of mitogen-activated protein kinase in mast cells through protein kinase C-dependent and independent pathways. 914 16

Lysophosphatidylcholine (lyso-PC), a natural lipid generated through the action of phospholipase A2 on membrane phosphatidylcholine, has been implicated in atherogenesis and the inflammatory process. In vitro studies have established a role for lyso-PC in modulation of gene expression and other cellular responses including differentiation and proliferation. There is also evidence that lyso-PC may act as an intracellular second messenger transducing signals elicited from membrane-associated receptors. The mechanisms behind the diverse activities of lyso-PC are poorly understood. We report, in this study, that treatment of cultured cells with exogenous lyso-PC, at nontoxic concentrations, potently induced activator protein-1 (AP-1) DNA binding and transcriptional activity independent of well known AP-1 activators, protein kinase C or mitogen-activated protein kinases ERK1 and ERK2. Lyso-PC also activated the c-Jun N-terminal kinase (JNK/SAPK), a recently characterized member of the mitogen-activated protein kinase family, known to activate AP-1. The stimulated JNK and AP-1 activities probably mediate or contribute to some bioactive effects of lyso-PC.
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PMID:Lysophosphatidylcholine stimulates activator protein 1 and the c-Jun N-terminal kinase activity. 915 19

Phosphorylation and activation of cytosolic phospholipase A2 (PLA2) can occur independently of the activation of 42/44-kDa mitogen-activated protein (MAP) kinase in human platelets. We have investigated the hypothesis that the stress-activated p38 MAP kinase plays a role in the regulation of cytosolic PLA2. The specific inhibitor of p38 MAP kinase, SB 203580 [4-(4-fluorophenyl)-2-(4-methylsulfinylphenyl)-5-(4-pyridyl) imidazole], completely blocked the collagen-stimulated phosphorylation of cytosolic PLA2 in the presence of a cyclooxygenase blocker, and reduced the release of [3H]arachidonic acid by low concentrations of collagen. Stimulation of platelets with collagen (100 microg/ml) enhanced in vitro PLA2 activity of platelet lysates twofold over basal levels. In vitro PLA2 activity was reduced to basal levels when platelets were stimulated in the presence of SB 203580, but not in the presence of an inhibitor of the kinase that activates p42/p44 MAP kinase. SB 203580 only partially inhibited phosphorylation of cytosolic PLA2 in platelets that had not been treated with a cyclooxygenase blocker indicating that secondary stimulation by thromboxane A2 induces cytosolic PLA2 phosphorylation, by kinase(s) other than p38 MAP kinase. Under these conditions, inhibition of p42/p44 MAP kinase did not result in a reduction of cytosolic PLA2 phosphorylation, which is in agreement with the results obtained in the presence of cyclooxygenase blockers. In contrast to collagen, both p38 MAP kinase and p42/p44 MAP kinase participated in the phosphorylation of cytosolic PLA2 in platelets stimulated by cross-linking of the low-affinity receptor for immune complexes, Fc gammaRIIA. The present results demonstrate an important role for p38 MAP kinase in the regulation of cytosolic PLA2 activity in collagen-stimulated human platelets.
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PMID:Phosphorylation and activation of cytosolic phospholipase A2 by 38-kDa mitogen-activated protein kinase in collagen-stimulated human platelets. 918 15


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