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)

Clinical and laboratory studies have shown that bismuth subsalicylate (BSS) is helpful in the healing of gastric ulcers because of the bactericidal effects of bismuth (Bi3+) on H. pylori. Bismuth or BSS has also been reported to possess other nonbactericidal or "gastroprotective" effects in the stomach. It is known in other cell types that the effects of extracellular divalent or trivalent cations (e.g., Ca2+) can activate a plasma membrane-bound calcium-sensing receptor (CaSR). In a previous study, we found the existence of a CaSR which was activated by extracellular Ca2+ and found to increase intracellular Ca2+ [Ca2+]i, MAP-kinase activity, and gastric epithelial cell proliferation. In the present study, we were interested in determining whether the effects of the trivalent cation Bi3+ (in the form of BSS) on [Ca2+]i, MAP-kinase activity, and proliferation of gastric cells. We found that BSS dose dependently increased [Ca2+]i, p44/p42 and p38 MAP-kinase activites, and gastric mucous epithelial cell growth. The addition of BAPTA to chelate intracellular Ca2+ blocked BSS-induced p44/p42 MAP-kinase activities but not p38 MAP-kinase activity. The p44/p42 MAP-kinase inhibitor PD98059 and the p38 MAP-kinase inhibitor SB203580 dose dependently decreased gastric mucous cell growth over a 24 hr. All of the BSS-induced changes in [Ca2+]i, MAP-kinase activity, and gastric cell proliferation could be reproduced with the CaSR-agonist gadolinium (Gd3+). Our data suggest that BSS may possess additional novel effects by increasing gastric mucous epithelial cell growth through a Ca2+/MAP-kinase-dependent pathway.
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PMID:Bismuth subsalicylate increases intracellular Ca2+, MAP-kinase activity, and cell proliferation in normal human gastric mucous epithelial cells. 1513 83

Ca(2+)-activated K(+) channels with large conductance (BK(Ca)) have been shown to play an important role in the regulation of vascular tone. We examined the role of the p42/p44 MAP-kinase (p42/p44(MAPK)) on nitric oxide (NO) production in human endothelial cells induced by the BK(Ca)-opener NS1619. Using DiBAC-fluorescence imaging a concentration-dependent (2.5-12.5 microM) hyperpolarization induced by NS1619 was observed. A significant increase of intracellular Ca(2+)-concentration by NS1619 was seen using Fura-2-fluorescence-imaging, which was blocked by 2-APB, or reduction of extracellular Ca(2+) (n=30; p<0.05). A cGMP-radioimmunoassay was used to examine NO synthesis. NS1619 significantly increased cGMP levels which was inhibited by LNMMA, iberiotoxin, BAPTA, 2-APB, reduction of extracellular Ca(2+), PD 98059, or U0126 (cGMP (pmol/mg protein): NS1619 3.25 +/- 0.85; NS1619 + L-NMMA 0.86 +/- 0.02; NS1619 + iberiotoxin 0.99 +/- 0.09; NS1619 + BAPTA 0.93 +/- 0.29; NS1619 + 2-APB 0.99 +/- 0.31; NS1619 + Ca(2+)-reduction 1.17 +/- 0.06; NS1619 + PD98059 1.06 +/- 0.49; NS1619 + U0126 1.10 +/- 0.24; n=10; p<0.05). The phosphorylation of eNOS and p42/p44(MAPK) was examined by immunocytochemistry. Phosphorylation of p42/p44(MAPK) was significantly increased after 10 minutes of NS1619 stimulation, whereas eNOS phosphorylation was not changed over a period of 1 to 30 minutes. NS1619-induced hyperpolarization was not affected by treatment with PD 98059 or U0126. Additionally, NS1619 inhibited endothelial proliferation involving a NO-dependent mechanism. Our data demonstrate that NS1619 causes a transmembrane Ca(2+)-influx leading to an increased NO production involving p42/p44(MAPK). This rise of NO formation is responsible for the NS1619 induced reduction of endothelial cell growth.
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PMID:The K+-channel opener NS1619 increases endothelial NO-synthesis involving p42/p44 MAP-kinase. 1554 39

The mechanisms that regulate prostate cancer growth and proliferation are not fully understood. IL-6, a multifunctional cytokine, has been shown to play an important role in prostate cancer biology. Functional role of MAP-kinase signal transduction pathways in prostate biology has not been evaluated in detail. In the present study we evaluated the effects of modulation of p42/44 MAP kinase signal transduction pathway on IL-6 expression and secretion by PC3 cells, a line of hormone refractory prostate cancer cells. Results presented, herein, demonstrate that modulation of p42/44 MAP kinase activity results in partial inhibition of synthesis and secretion of IL-6. These data suggest that modulation of p42/p44 may result in regulation of other survival pathways as well.
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PMID:p42/p44 Mitogen-activated protein kinase signal transduction pathway regulates interleukin-6 expression in PC3 cells, a line of hormone-refractory prostate cancer cells. 1565 4

EGF activates the ErbB1 receptor, but there appears only a limited correlation between its receptor binding affinity and mitogenic activity. This is indicated by our present observation that in cells with high ErbB1 expression, including SUM102 breast tumor cells, low affinity EGF/Notch chimeras have similarly high mitogenic activity as EGF, in spite of the fact that EGF is superior in inducing receptor tyrosine phosphorylation and p42/p44 MAP-kinase activity. However, as a result of receptor-mediated internalisation high-affinity ligands such as EGF are depleted much more rapidly from the extracellular medium than low-affinity EGF/Notch chimeras. As a consequence, the mitogenic activity of EGF on ErbB1 overexpressing cells is limited by substantial degradation of internalised ligand in the period before cells enter S-phase, a phenomenon that is not observed for low affinity mutant ligands. The mitogenic activity of EGF on ErbB1 overexpressing cells does therefore not only depend on the applied concentration but also on the total amount of ligand added, and is strongly underestimated when tested in a limited assay volume. No such dependence on the incubation volume was observed for EGF activity on cells with low ErbB1 expression levels and on cells for which EGF is growth inhibitory.
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PMID:Ligand depletion negatively controls the mitogenic activity of epidermal growth factor. 1574 6

Fibroblast growth factor-2 (FGF-2) is known for its mitogenic and motogenic effects on breast cancer cells. Here, we demonstrate that FGF-2 is also a potent stimulator of breast cancer cell survival, as it counteracts the apoptotic activity of the C2 ceramide analogue and various chemotherapeutic agents (5-fluorouracil, camptothecin, etoposide) in MCF-7, T47-D and BT-20 cells. The use of pharmacological inhibitors (PD98059, wortmannin, LY294002, SN50) and transfection with negative dominants (IkappaBm, p110(PI3K (phosphoinositide 3-kinase))*DeltaK, AktND) or small interfering RNA targeted against Akt indicated that PI3K/Akt and nuclear factor-kappaB (NF-kappaB), but not p42/p44 MAP-kinases, were required to stimulate FGF-2 antiapoptotic activity. The activation of NF-kappaB was dependent on PI3K/Akt, and using a combination of approaches based on immunoprecipitation, Western blotting and proteomics (two-dimensional electrophoresis and mass spectrometry), we identified the beta form of IkappaB kinase (IKKbeta) as a target of Akt signaling. The selective disruption of IKKbeta using small interfering RNA induced a potent inhibition of Akt-mediated activation of NF-kappaB and cell survival, indicating the functional involvement of IKKbeta in FGF-2 antiapoptotic signaling. Together, these results demonstrate Akt/IKKbeta interaction in NF-kappaB pathways, thereby emphasizing the potential of these proteins as therapeutic targets in breast cancer.
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PMID:The antiapoptotic effect of fibroblast growth factor-2 is mediated through nuclear factor-kappaB activation induced via interaction between Akt and IkappaB kinase-beta in breast cancer cells. 1585 5

Heat shock proteins (HSP) are released by cells in response to stress signals. It is hypothesized that pathogenic bacteria stimulate the cells in the periodontium to up-regulate the expression of HSP60, which would stimulate macrophages, and possibly other cells, to produce proinflammatory cytokines. We sought to determine whether oral keratinocytes responded to recombinant human HSP60 and to identify the signalling pathways involved. In addition, whether oral keratinocytes are a source of endogenous HSP60 was also investigated. RT-PCR revealed that rhHSP60 induced expression of the IL-1beta gene in the Human Oral Keratinocyte (HOK-16B) cell line and it was highest at the lowest concentration used (0.1 microg/ml). These responses were mediated via activation of p44/42 MAP-kinases and to a lesser extend the MAP-kinase SAP/JNK. Similar data was obtained from analysis of intracellular signalling pathways in HOK-16B cells by rhHSP70 and LPS (from both E. coli and the oral pathogen Porphyromonas gingivalis). However, there was little activation of p38 by rhHSP60. Blocking of the p44/42 pathway decreased HSP60-induced IL-1beta gene expression and protein secretion. In addition, we discovered that self-HSP60 proteins were constitutively secreted by HOK-16B cells. Secretion of self-HSP60 was up-regulated in cells treated with LPS from P. gingivalis, but down-regulated with LPS from E. coli. To summarize, oral keratinocytes respond to exogenous HSP60 by triggering expression of the inflammatory cytokine IL-1beta through activation of p44/42 MAP kinase. Oral keratinocytes are also a source for self-HSP60 and the secretion of this protein may be differentially modified by LPS from different bacterial species. These results highlight the importance of oral keratinocytes and HSPs in the development of an immune response against bacterial infection.
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PMID:A human oral keratinocyte cell line responds to human heat shock protein 60 through activation of ERK1/2 MAP kinases and up- regulation of IL-1beta. 1599 95

Several kinases have been implicated in the metabolic response of human and rat myocytes to glucagon-like peptide-1 (GLP-1), exendin-4 (Ex-4) and exendin-9 (Ex-9). We have investigated, in isolated rat adipocytes, the changes caused by GLP-1, Ex-4 and Ex-9 compared with those provoked by insulin or glucagon, upon the activity of phosphatidylinositol-3-kinase (PI3K), protein kinase B (PKB), p42/44 MAP kinases (MAPKs) and p70s6 kinase (p70s6k), and the participation of these kinases and protein kinase C (PKC) in their action upon 2-deoxy-d-glucose uptake, lipolysis and lipogenesis. The study was conducted in normal rats, and extended to a streptozotocin-induced type-2 diabetic model (STZ-rats). The participation of distinct kinases was estimated by using potential kinase inhibitors, including wortmannin, PD98059, rapamycin, H-7 and RO31-8220. In normal rat adipocytes, GLP-1 and both exendins share with insulin an increasing action upon the activity of all kinases studied (except PKB), PI3K, p44 and p42 MAPKs and possibly PKC, all being required for their stimulating effect upon glucose uptake. Ex-4 and Ex-9, like GLP-1 and insulin, have lipogenic action, while only Ex-4 shares with GLP-1 its lipolytic effect which is antagonized by Ex-9. MAP kinases and PKC seem to have an essential role in the GLP-1 and Ex-4 lipolytic action, as does PI3K in that of Ex-4. An increase in PI3K and MAPKs activity for the lipogenic effect of Ex-4, Ex-9 and GLP-1 are required, and in the case of Ex-4 and Ex-9, a stimulation of p70s6k activity is also needed. In cells from STZ-rats the magnitude of the above parameters was, in general, comparable to that in normal animals, with some exceptions: basal PI3K activity and lipogenesis were higher, GLP-1, Ex-4 and Ex-9 failed to modify basal lipogenesis but increased PKB activity, insulin failed to affect the activity of MAPKs and the insulin-induced glucose uptake was impaired. The impaired insulin effects upon some of the variables in the STZ-rat, distinct from those of GLP-1 and exendins, adds knowledge to the mechanism of the beneficial action of GLP-1 and Ex-4 in diabetic states.
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PMID:Effects of glucagon-like peptide-1 and exendins on kinase activity, glucose transport and lipid metabolism in adipocytes from normal and type-2 diabetic rats. 1608 19

Changes in the activity of glycogen synthase a and related kinases (phosphatidylinositol-3-kinase, protein kinase B, p44/42 MAP kinases and p70s6 kinase) evoked by GLP-1 in human myocytes from normal subjects were recently implied in the effect of this hormone upon D-glucose transport and glycogen synthesis in the same cells. The major aims of the present study were i) to investigate the possible extension of this knowledge to myocytes obtained from type 2 diabetic patients, ii) to compare in these patients the response to GLP-1, insulin or the structurally related GLP-1 peptides, exendin (1-39)amide and exendin(9-39)amide, and iii) to explore possible differences in the responsiveness to these agents between normal and diabetic subjects. Apart from the much higher basal PI3K activity and impaired response to insulin of p44/42 MAP kinases in the diabetic patients, the changes in enzyme activity caused by either hormone or peptide, although not identical, were essentially comparable. Nevertheless, significant differences in glucose transport and metabolism parameters were observed in the diabetic patients vs. normal subjects: in the diabetic patients, basal 2-deoxy-glucose uptake and glycogen synthase a activity were lower, accompanied by a similar increasing effect of GLP-1 or insulin; yet, the basal value for glycogen synthesis was higher, coinciding with a lesser relative increment in response to GLP-1 or insulin.
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PMID:GLP-1 signalling and effects on glucose metabolism in myocytes from type 2 diabetic patients. 1614 15

NK cells are lymphocytes in the non-adaptive immune system that protect the body against intracellular pathogens and eliminate tumor cells. Tributyltin (TBT) is a toxic chemical that has been detected in human foods as well as in human blood. The role of TBT in immunosuppression has been described, including inhibition of the human NK-cell cytotoxic function. Previous studies indicated that exposure of NK cells to TBT for 1 h induced progressive and irreversible inhibition of cytotoxic function. However, it was found that if NK cells were incubated in TBT-free media with either IL-2 or IL-12, loss of cytotoxic function was prevented/reversed within 24 h. Molecular studies established that loss of cytotoxic function is accompanied by alteration of MAP kinases (MAPKs) p38 and p44/42 phosphorylation. This study examined whether interleukin-mediated recovery of cytotoxicity involved reversal of tributyltin-altered p38 and p44/42 phosphorylation. The results indicated that there was no substantial IL-2 prevention/reversal of the TBT-induced alteration of phosphorylation of either p38 or p44/42 after either a 24 or 48 h recovery period. Additionally, IL-12 caused no substantial prevention/reversal of the TBT-induced alteration of phosphorylation of the MAPKs seen after either 24 or 48 h. These data suggest that IL-2 and/or IL-12-mediated recovery of NK cytotoxic function is not a result of prevention/reversal of TBT-induced phosphorylation of p38 and p44/42 MAPKs at the 24 or 48 h time points.
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PMID:Effects of interleukins 2 and 12 on TBT-induced alterations of MAP kinases p38 and p44/42 in human natural killer cells. 1625 57

Phosphatidylcholine-specific phospholipase D (PLD) is a major cellular source of phosphatidic acid and choline, which regulate various physiopathological processes. PLD activation mediated by chemoattractants involves protein phosphorylation. This study provides pharmacological and biochemical evidence of a major role of p44/42 MAP kinases (ERK1/2) in PLD activation induced by the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (fMLP). ERK1/2 inhibition by the MEK1/2 antagonist U0126 in neutrophilic HL-60 cells or HEK 293T cells stably expressing fMLP receptors abolished fMLP-mediated PLD activity. Conversely, a constitutively activated MEK1 mutant expressed in HEK 293T cells potentiated fMLP-induced PLD activity. Expression of inactive PLD mutants showed that PLD2, but not PLD1, contributed to fMLP-mediated PLD activity. PLD2 co-immunoprecipitated with ERK1/2 and became phosphorylated on MAP kinase consensus sites in fMLP-stimulated cells. In cell-free systems, ERK2 gave rise to strong ATP-dependent PLD activity and directly phosphorylated PLD2 that generated two phosphopeptides only after tryptic digestion. Finally, pharmacological inhibition of ERK activation and the inhibition of PLD expression by antisense oligonucleotides in HL-60 cells suggest that the ERK/PLD2 pathway contributes to fMLP-mediated oxidant production. In conclusion, the fMLP-mediated PLD activity is regulated by ERK1/2, involving a predominant contribution of PLD2. The ERK/PLD2 coupling may provide potential pharmacological targets to control PLD-associated cellular dysfunctions.
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PMID:A role of p44/42 mitogen-activated protein kinases in formyl-peptide receptor-mediated phospholipase D activity and oxidant production. 1625 58


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