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:3.4.11.18 (MAP)
7,412 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

Sodium arsenite and osmotic shock both stimulated stress-activated protein kinase-2 (SAPK2, also termed RK, p38, CSBP and Mxi2) and its downstream target mitogen-activated protein kinase (MAP kinase)-activated protein kinase-2 (MAPKAP-K2) in bovine adrenal chromaffin and rat PC12 cells. The same stimuli also increased tyrosine hydroxylase activity 2-3-fold and induced its phosphorylation at Ser19, a residue phosphorylated by MAPKAP-K2 in vitro. The arsenite-induced activation of tyrosine hydroxylase and its phosphorylation at Ser19 were prevented by SB 203580 at concentrations similar to those that inhibited SAPK2 in vitro. These results indicate that MAPKAP-K2 mediates the stress-induced activation of tyrosine hydroxylase. SB 203580 had no effect on the phosphorylation or activation of tyrosine hydroxylase induced by nerve growth factor or forskolin, which trigger the phosphorylation of Ser31 and Ser40, respectively. Stimulation of bovine adrenal chromaffin cells with acetylcholine activated SAPK2 and MAPKAP-K2, as well as p42/p44 MAP kinases and their downstream target MAPKAP-K1. The half-times for activation of MAPKAP-K1 and MAPKAP-K2 (1 min) were similar. In contrast, the activation of tyrosine hydroxylase by acetylcholine peaked within 1 min and gradually declined thereafter. Neither SB 203580 (which blocked the activation of MAPKAP-K2 by acetylcholine) nor PD 98059 (which prevented the activation of p42/p44 MAP kinases by acetylcholine) affected tyrosine hydroxylase activation after 1 min, but these compounds inhibited activation by 40-50% after 5 min. PD 98059 prevented the acetylcholine-induced phosphorylation of tyrosine hydroxylase at Ser31, the residue targetted by p42/p44 MAP kinases in vitro, but did not inhibit the phosphorylation of Ser40 (which is phosphorylated by MAPKAP-K1 in vitro). Our results establish that p42/p44 MAP kinases mediate the acetylcholine-induced phosphorylation of tyrosine hydroxylase at Ser31. SB 203580 did not suppress the phosphorylation of Ser19 or Ser40 by acetylcholine but, like PD 98059, this drug decreased the phosphorylation of Ser31. SAPK2 may therefore contribute to the acetylcholine-induced activation of tyrosine hydroxylase by facilitating (in an unknown way) its phosphorylation by MAP kinases.
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PMID:Participation of a stress-activated protein kinase cascade in the activation of tyrosine hydroxylase in chromaffin cells. 928 46

Isolated skeletal muscle from healthy individuals was used to evaluate the role of phosphoinositide 3-kinase (PI 3-kinase) in insulin signalling pathways regulating mitogen activated protein kinase (MAP-kinase) and protein kinase-B and to investigate whether MAP-kinase was involved in signalling pathways regulating glucose metabolism. Insulin stimulated glycogen synthase activity (approximately 1.7 fold), increased 3-o-methylglucose transport into human skeletal muscle strips (approximately 2 fold) and stimulated phosphorylation of the p42 ERK-2 isoform of MAP-kinase. This phosphorylation of p42 ERK2 was not blocked by the PI 3-kinase inhibitors LY294002 and wortmannin although it was blocked by the MAP-kinase kinase (MEK) inhibitor PD 98059. However, PD98059 (up to 20 micromol/l) did not block insulin activation of glycogen synthase or stimulation of 3-o-methylglucose transport. Wortmannin and LY294002 did block insulin stimulation of protein kinase-B (PKB) phosphorylation and stimulation of 3-o-methylglucose transport was inhibited by wortmannin (IC50 approximately 100 nmol/l). These results indicate that MAP-kinase is activated by insulin in human skeletal muscle by a PI 3-kinase independent pathway. Furthermore this activation is not necessary for insulin stimulation of glucose transport or activation of glycogen synthase in this tissue.
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PMID:Involvement of phosphoinositide 3-kinase in insulin stimulation of MAP-kinase and phosphorylation of protein kinase-B in human skeletal muscle: implications for glucose metabolism. 934 98

The signaling mechanisms leading to phorbol ester myristate (PMA)-induced differentiation of HL-60 cells to the macrophagelike phenotype were investigated by using different protein kinase inhibitors. The protein kinase C inhibitor Ro 31-8220 specifically blocks PMA-induced differentiation, activation of the p42/44ERK- and p38RK-MAP kinase cascades and Hsp27-phosphorylation in HL-60 cells. Because Ro 31-8220 does not inhibit activation of the MAP kinase cascades by protein kinase C (PKC)-independent signals such as epidermal growth factor (EGF), heat shock, or anisomycin in these cells, only PMA-induced activation of the MAP kinases can be downstream of PKC. The MEK1 inhibitor PD 098059 and the p38RK inhibitor SB 203580 also were used to analyze whether the PMA-induced PKC-dependent activation of MAP kinases is involved in the differentiation process. Under certain conditions, PD 098059 can completely block the PMA-induced activation of the p42ERK as monitored by immunoprecipitation kinase assay by using the substrate myelin basic protein. SB 203580 specifically inhibits activation of p38RK as judged by MAPKAP kinase 2 activity against the substrate Hsp27 and also blocks Hsp27 phosphorylation in the cells. In contrast, neither PD 098059 nor SB 203580 nor both inhibitors together prevent PMA-induced differentiation of the HL-60 cells to the macrophagelike phenotype. The results suggest the existence of a diversification of PMA-induced signaling in HL-60 cells downstream of PKC, leading to activation of MAP kinases that are not essential for differentiation and to phosphorylation of other, so far unidentified, targets responsible for differentiation.
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PMID:PMA-induced activation of the p42/44ERK- and p38RK-MAP kinase cascades in HL-60 cells is PKC dependent but not essential for differentiation to the macrophage-like phenotype. 936 43

The mechanism by which mammalian cells respond to low environmental pH is unclear. A wide range of environmental stresses are known to induce activation of MAP kinases ERK 2, JNK and p38 and recent work has shown that low pH can activate the p38 homologue in yeast HOG1. In this study we show that ERK2 MAP kinase is activated in human A431 cells exposed to low pH media. Activation is sustained throughout low pH treatment, is reversible, and occurs maximally at pH 4 or 5. Stimulation is not accompanied by tyrosine phosphorylation of the EGF receptor or Raf-1 activation, indicating that acid conditions act via pathways independendent of those required for EGF mediated MAPK stimulation. The MAP kinase homologue JNK and MAPKAP kinase-2 reactivating kinase (p38) were also activated in A431 cells by low pH and so low pH induces parallel activation of multiple MAP kinase pathways. Strong activation of p42, and p44 ERKs as well as p38 and JNK was also found in mouse Swiss 3T3 cells treated at pH 5. These results indicate that MAP kinases may be important markers of the acid induced cellular stress that occurs in human disease.
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PMID:Low extracellular pH induces activation of ERK 2, JNK, and p38 in A431 and Swiss 3T3 cells. 942 56

Vascular endothelial growth factor (VEGF) stimulated a time- and concentration-dependent increase in PGI2 synthesis in human umbilical vein endothelial cells with a mean maximum increase of 2-fold above basal levels at 25 ng/ml after 60 min. VEGF also rapidly stimulated the release of arachidonic acid and phosphorylation and activation of cytosolic phospholipase A2 (cPLA2). The VEGF-related factor, placenta growth factor (PIGF), had little effect on PGI2 synthesis, arachidonic acid release or cPLA2 activation. PD98059, a selective inhibitor of MAP kinase kinase, caused complete inhibition of VEGF-stimulated MAP kinase activity, PGI2 synthesis and cPLA2 gel retardation, but had no effect on VEGF-induced vWF secretion. These findings provide the first evidence that VEGF can stimulate PGI2 synthesis via cPLA2-mediated arachidonic acid release and indicate that VEGF stimulation of this biosynthetic pathway may occur, at least in part, via activation of p42/p44 MAP kinases.
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PMID:Vascular endothelial growth factor stimulates prostacyclin production and activation of cytosolic phospholipase A2 in endothelial cells via p42/p44 mitogen-activated protein kinase. 945 May 44

Cell cycle re-entry requires the growth factor-stimulation of at least two distinct classes of protein kinases: (i) the p42/p44 MAP kinases activated by the Ras > Raf > MKK cascade and (ii) the G1 cyclin-dependent protein kinases (CDKs). Specific inactivation of either class of kinase arrests fibroblasts in G1. Growth factors promote nuclear translocation and persistent activation of p42/p44 MAP kinases during the entire G0/G1 period. Here, we demonstrate that induction of cyclin D1, and therefore cdk4/6 activity associated with, is positively controlled by the p42/p44 MAP kinase cascade whereas the parallel cytokines/stress-activated p38MAP kinase cascade is antagonistic. Finally, using an antisense approach we demonstrate that p27Kip1 plays a key role in setting the growth factor-dependency of the G0 state.
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PMID:A temporal and biochemical link between growth factor-activated MAP kinases, cyclin D1 induction and cell cycle entry. 955 82

Here we report that IL-4 specifically enhances cell surface expression of CXCR4 on resting peripheral and cord blood T cells. Whereas polarized Th2 clones express variable levels of CXCR4, expression of this receptor is undetectable on polarized Th1 clones but can be induced on the latter cells as well, following short-term culture in the presence of IL-4. The IL-4-induced CXCR4 is functional since interaction with its ligand, stromal-derived factor (SDF)-1, activates the p42 MAP-kinase ERK-2. In addition, although CXCR4 expression is down-regulated following stimulation of T cells and T cell clones via CD28 or CD3 and CD2 cell surface molecules, respectively, it is re-induced by IL-4. These data indicate an important role for IL-4 in rendering CD4+ T cells susceptible to infection with HIV via CXCR4, as well as in promoting SDF-1-induced migration of these cells.
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PMID:IL-4 induces functional cell-surface expression of CXCR4 on human T cells. 957 13

We have examined the functional coupling of the human metabotropic glutamate receptor type 2 (mGluR2) with the regulation of the mitogen activated protein kinase (MAP kinase) signal transduction cascade. We demonstrated that L-glutamate stimulation of the human mGluR2 receptor transiently expressed in chinese hamster ovary (CHO) cells leads to a rapid increase in the activity of p42/p44 MAP kinase (also known as the extracellular signal regulated kinases, ERK1 and ERK2). Activation of p42/p44 MAP kinase has been demonstrated in a peptide phosphorylation assay and through the demonstration of a shift in electrophoretic mobility of p42 MAP kinase following activation. In both assay systems L-glutamate stimulation of MAP kinase was inhibited by pertussis toxin and by the MEK (MAP/ERK activating kinase) inhibitor PD 98059. We conclude that L-glutamate stimulation of the mGluR2 receptor in CHO cells mediated regulation of p42/p44 MAP kinase following the activation of pertussis toxin-sensitive G alpha(i) G-proteins via a distinct protein kinase signalling pathway that utilizes MEK.
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PMID:Human metabotropic glutamate receptor 2 couples to the MAP kinase cascade in chinese hamster ovary cells. 969 24

Adenosine triphosphate (ATP) is a signaling molecule for brain cells including astrocytes. In these cells, it has been shown that ATP stimulates myelin basic protein (MBP) kinase activity which is believed to represent the Erk family of MAP kinases. Indeed, we show that ATP activates simultaneously MBP kinase activity and phosphotyrosine incorporation in p42 Erk2 and p44 Erk1. Maximal effect of ATP is obtained at 50 microM after 5 min and disappears after 60 min. Effect of ATP is mimicked by 2-methylthio-ATP whereas alpha beta-methyleneadenosine 5' triphosphate (AMP-CPP) and adenosine do not promote any effect. Uridine triphosphate (UTP) activates also p42 and p44 MAP kinases. These observations indicate that p42-p44 MAP kinases activation can be obtained through P2v and P2u receptors. Purinergic stimulation of Erk is insensitive to pertussis toxin which inactivates heterotrimeric Gi protein. It is not inhibited by a PLA2 inhibitor (4 bromophenacyl bromide [B phi B]) and the PI3 kinase inhibitor, wortmannin. In contrast, purinergic stimulation of Erk is partially inhibited by the PKC inhibitor. GF109203X, at 5 microM and suppressed when extracellular calcium is complexed by ethylene glycol-bis(2-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA).
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PMID:Ca2+ dependent purinergic regulation of p42 and p44 MAP kinases in astroglial cultured cells. 975 13


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