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

Expression of the c-fos proto-oncogene is induced by numerous stimuli some of which are transmitted through the Ras/Raf/MAP kinase or the cAMP-dependent protein kinase (PKA) pathways. The effect of cell-specific interactions between these pathways on c-fos expression was investigated by exposing quiescent NIH3T3 cells to serum, forskolin, or a combination. Co-stimulation with serum and forskolin resulted in a more than additive increase in c-fos transcription. Synergistic increase in c-fos promoter activity was also observed in transient transfection studies after co-stimulation with serum plus forskolin or co-transfection with c-Raf and PKA expression plasmids. Analysis of the cAMP signaling pathway revealed that the synergy was neither due to an increase in PKA activity nor to Ser-133 phosphorylation/activation of CREB. The activation status of the MAP kinases ERK1 and ERK2 in co-treated cells was comparable to that in serum-treated cells. Co-stimulation with forskolin did not alter the phosphorylation state of Elk-1 compared to serum-induced phosphorylation of Elk-1. Deletion of c-fos promoter elements previously shown to be important for regulation of c-fos expression in response to mitogens indicates a role for SRE and FAP-1 elements.
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PMID:Synergistic increase in c-fos expression by simultaneous activation of the ras/raf/map kinase- and protein kinase A signaling pathways is mediated by the c-fos AP-1 and SRE sites. 951 70

The involvement of serine/threonine protein phosphatases in signaling pathways that control the expression of the cyclooxygenase-2 (COX-2) gene in human chondrocytes was examined. Okadaic acid (OKA), an inhibitor of protein phosphatases 1 (PP-1) and 2A (PP-2A), induced a delayed, time-dependent increase in the rate of COX-2 gene transcription (runoff assay) resulting in increased steady-state mRNA levels and enzyme synthesis. The latter response was dose dependent over a narrow range of 1-30 nmol/L with declining expression and synthesis of COX-2 at higher concentrations due to cell toxicity. The delayed increase in COX-2 mRNA expression was accompanied by the induction of the proto-oncogenes c-jun, junB, junD, and c-fos (but not FosB or Fra-1). Increased phosphorylation of CREB-1/ATF-1 transcription factors was observed beginning at 4 h and reached a zenith at 8 h. Gel-shift analysis confirmed the up-regulation of AP-1 and CRE nuclear binding proteins, though there was little or no OKA-induced nuclear protein binding to SP-1, AP-2, NF-kappaB or NF-IL-6 regulatory elements. OKA-induced nuclear protein binding to 32P-CRE oligonucleotides was abrogated by a pharmacological inhibitor of protein kinase A (PKA), KT-5720; the latter compound also inhibited OKA-induced COX-2 enzyme synthesis. Calphostin C (CalC), an inhibitor of PKC isoenzymes, had little effect in this regard. Inhibition of 12P-CRE binding was also observed in the presence of an antibody to CREB-binding protein (265-kDa CBP), an integrator and coactivator of cAMP-responsive genes. The binding to 32P-CRE was unaffected in the presence of excess radioinert AP-1 and COX-2 NF-IL-6 oligonucleotides, although a COX-2 CRE-oligo competed very efficiently. 32P-AP-1 consensus sequence binding was unaffected by incubation of chondrocytes with KT-5720 or CalC, but was dramatically diminished by excess radioinert AP-1 and CRE-COX-2 oligos. Supershift analysis in the presence of antibodies to c-Jun, c-Fos, JunD, and JunB suggested that AP-1 complexes were composed of c-Fos, JunB, and possibly c-Jun. OKA has no effect on total cellular PKC activity but caused a delayed time-dependent increase in total PKA activity and synthesis. OKA suppressed the activity of the MAP kinases, ERK1/2 in a time-dependent fashion, suggesting that the Raf-1/MEKK1/MEK1/ERK1,2 cascade was compromised by OKA treatment. By contrast, OKA caused a dramatic increase in SAPK/JNK expression and activity, indicative of an activation of MEKK1/JNKK/SAPK/JNK pathway. OKA stimulated a dose-dependent activation of CAT activity using transfected promoter-CAT constructs harboring the regulatory elements AP-1 (c-jun promoter) and CRE (CRE-tkCAT). We conclude that in primary phenotypically stable human chondrocytes, COX-2 gene expression may be controlled by critical phosphatases that interact with phosphorylation dependent (e.g., MAP kinases:AP-1, PKA:CREB/ATF) signaling pathways. AP-1 and CREB/ATF families of transcription factors may be important substrates for PP-1/PP-2A in human chondrocytes.
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PMID:Transcriptional induction of cyclooxygenase-2 gene by okadaic acid inhibition of phosphatase activity in human chondrocytes: co-stimulation of AP-1 and CRE nuclear binding proteins. 962 Jan 67

The role of ceramide as a second messenger is a subject of great interest, particularly since it is implicated in signaling in response to inflammatory cytokines. Ceramide induces apoptosis in both cytokine-dependent MC/9 cells and factor-independent U937 cells. Elevation of cyclic adenosine monophosphate (cAMP) levels inhibits apoptosis induced by ceramide and several other treatments. One target of cAMP-mediated signaling is the transcription factor CREB (cAMP response element binding protein), and recently CREB phosphorylation at an activating site has been shown to also be mediated by a cascade involving p38 mitogen-activated protein kinase (MAPK), one of the stress-activated MAP kinases. Because no role for p38 MAPK in apoptosis has been firmly established, we examined the relationship between p38 MAPK and CREB phosphorylation under various conditions. Ceramide, or sphingomyelinase, like tumor necrosis factor- (TNF-) or the hematopoietic growth factor, interleukin-3 (IL-3), was shown to activate p38 MAPK, which in turn activated MAPKAP kinase-2. Each of these treatments led to phosphorylation of CREB (and the related factor ATF-1). A selective p38 MAPK inhibitor, SB203580, blocked TNF-- or ceramide-induced CREB phosphorylation, but had no effect on the induction of apoptosis mediated by these agents. The protective agents cAMP and IL-3 also led to CREB phosphorylation, but this effect was independent of p38 MAPK, even though IL-3 was shown to activate both p38 MAPK and MAPKAP kinase-2. Therefore, the opposing effects on apoptosis observed with cAMP and IL-3, compared with ceramide and TNF-, could not be explained on the basis of phosphorylation of CREB. In addition, because SB203580 had no effect of TNF- or ceramide-induced apoptosis, our results strongly argue against a role for p38 MAPK in the induction of TNF-- or ceramide-induced apoptosis.
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PMID:Ceramide and cyclic adenosine monophosphate (cAMP) induce cAMP response element binding protein phosphorylation via distinct signaling pathways while having opposite effects on myeloid cell survival. 986 64

The Ca2+-calmodulin-dependent protein kinase (CaM kinase) cascade includes three kinases: CaM-kinase kinase (CaMKK); and the CaM kinases CaMKI and CaMKIV, which are phosphorylated and activated by CaMKK. Members of this cascade respond to elevation of intracellular Ca2+ levels and are particularly abundant in brain and in T cells. CaMKK and CaMKIV localize both to the nucleus and to the cytoplasm, whereas CaMKI is only cytosolic. Nuclear CaMKIV regulates transcription through phosphorylation of several transcription factors, including CREB. In the cytoplasm, there is extensive cross-talk between CaMKK, CaMKIV and other signaling cascades, including those that involve the cAMP-dependent kinase (PKA), MAP kinases and protein kinase B (PKB; also known as Akt). Activation of PKB by CaMKK appears to be important in protection of neurons from programmed cell death during development.
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PMID:The Ca-calmodulin-dependent protein kinase cascade. 1036 52

Over the past decade, the involvement of tyrosine kinases in signal transduction pathways evoked by cytokines has been intensively investigated. Only relatively recently have the roles of serine/threonine kinases in cytokine-induced signal transduction and anti-apoptotic pathways been examined. Cytokine receptors without intrinsic kinase activity such as interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF) and the interferons were thought to transmit their regulatory signals primarily by the receptor-associated Jak family of tyrosine kinases. This family of tyrosine kinases activates STAT transcription factors, which subsequently transduced their signals into the nucleus to modulate gene expression. Cytokine receptors with intrinsic tyrosine kinase activity such as c-Kit were initially thought to transduce their signals independently of serine/threonine kinase cascades. Recently, both of these types of receptor signaling pathways have been shown to interact with serine/threonine kinase pathways as maximal activation of these tyrosine kinase regulated cascades involve serine/threonine phosphorylation modulated by, for example MAP kinases. A common intermediate pathway initiating from cytokine receptors is the Ras/Raf/MEK/ERK (MAPK) cascade, which can result in the phosphorylation and activation of additional downstream kinases and transcription factors such as p90Rsk, CREB, Elk and Egr-1. Serine/threonine phosphorylation is also involved in the regulation of the apoptosis-controlling Bcl-2 protein, as certain phosphorylation events induced by cytokines such as IL-3 are anti-apoptotic, whereas other phosphorylation events triggered by chemotherapeutic drugs such as Paclitaxel are associated with cell death. Serine/threonine phosphorylation is implicated in the etiology of certain human cancers as constitutive serine phosphorylation of STATs 1 and 3 is observed in chronic lymphocytic leukemia and can be inhibited by the chemotherapeutic drug fludarabine. Serine/threonine phosphorylation also plays a role in the etiology of immunodeficiencies. Activated STAT5 proteins are detected in reduced levels in lymphocytes recovered from HIV-infected individuals and immunocompromised mice. Serine/threonine phosphorylation may be an important target of certain chemotherapeutic drugs which recognize the activated proteins. This meeting report and mini-review will discuss the interactions of serine/threonine kinases with signal transduction and apoptotic molecules and how some of these pathways can be controlled by chemotherapeutic drugs. Leukemia (2000) 14, 9-21.
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PMID:Serine/threonine phosphorylation in cytokine signal transduction. 1063 71

The c-fos enhancer can be activated by many signaling pathways through distinct elements of the enhancer. The enhancer contains at its core the serum response element (SRE) that binds serum response factor (SRF). On the 5' side of the SRE is a site for p62TCF which binds only when SRF is bound as well. p62TCF is encoded by three ets-related genes, Elk-1, SAP1 and SAP2. Each of these factors contain a transcriptional activation domain that is activated by phosphorylation by MAP kinases. On the 3' side of the SRE is the 'c-fos AP1 site' (FAP1) whose role has been less clear. We find here that the FAP1 site contributes strongly to phorbol ester (TPA) and Erk MAP kinase activation of the c-fos enhancer and that both the p62TCF and FAP1 sites are required for effective activation of the enhancer. We further find that the FAP1 site binds ATF1 and CREB from HeLa nuclear extracts and that the phosphorylation of these factors is induced by TPA. ATF1 and CREB can be phosphorylated by Rsk2 which is a protein kinase directly activated by Erk MAP kinases. These results suggest a signaling pathway in which Erk MAP kinase activates the c-fos enhancer by direct phosphorylation of p62TCF and by activation of Rsk related kinases that phosphorylate ATF1 and CREB.
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PMID:Activation of the c-fos enhancer by the erk MAP kinase pathway through two sequence elements: the c-fos AP-1 and p62TCF sites. 1072 28

High-affinity glutamate transporters ensure termination of glutamatergic neurotransmission and keep the synaptic concentration of this amino acid below excitotoxic levels. However, neuronal glutamate transporters, EAAC1 and EAAT4, are located outside the synaptic cleft and contribute less significantly to the glutamate uptake in the brain than two astroglial transporters, GLAST and GLT1. Aberrant functioning of the glutamate uptake system seems to be linked to some neurodegenerative disorders (eg amyotrophic lateral sclerosis, ALS). Expression of glutamate transporters is differentially regulated via distinct cellular mechanisms. GLT1, which is expressed at very low levels in cultured astrocytes, is strongly induced in the presence of neurons. The present immunocytochemical data provide further evidence that neuronal soluble factors, rather than physical contact between neurons and glia, determine the induction of GLT1 in astrocytes. This effect is apparently mediated by yet undefined growth factor(s) via the tyrphostin-sensitive receptor tyrosine kinase (RTK) signalling, that in turn, supports the downstream activation of p42/44 MAP kinases and the CREM and ATF-1 transcription factors. RTK-independent simultaneous activation of the CREB transcription factor suggests a possible involvement of complementary pathway(s). Neuronal soluble factors do not affect expression of GLAST, but induce supporting machinery for differential regulation of GLAST via the astroglial metabotropic glutamate receptors, mGluR3 and mGluR5. Thus, long-term treatment with the group I mGluR agonist, DHPG, causes down-regulation of GLAST, whereas the group II agonist, DCG-IV, has an opposite effect on the expression of GLAST in astrocytes. However, in BT4C glioma cells glutamate or other transportable substrates (D-aspartate and L-2,4-trans-PDC) induced cell-surface expression of EAAT4 in a receptor-independent manner. The activity-dependent trafficking of this transporter which also exhibits properties of a glutamate-gated chloride channel may play functional roles not only in neuronal excitability, but in glioma cell biology as well.
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PMID:The high-affinity glutamate transporters GLT1, GLAST, and EAAT4 are regulated via different signalling mechanisms. 1081 1

Stimulation of macrophages by lipopolysaccharide (LPS) leads to the rapid activation of MAP kinases (MAPK) and the subsequent induction of cytokine gene expression. We sought to determine whether LPS-inducible cytokine genes were differentially regulated in macrophages derived from different tissues. Our studies revealed that PD98059, an inhibitor of the extracellular-regulated kinase (ERK) pathway, blocked LPS-induced activation of tumor necrosis factor alpha (TNF-alpha) gene expression in a murine cell line derived from alveolar macrophages but not in a nonpulmonary macrophage cell line. These findings were confirmed using primary murine alveolar and peritoneal macrophages. This suggests that the TNF-alpha promoter contains MAPK-dependent and -independent regulatory elements that are used in a cell type-specific manner. We also found that differences in MAPK-regulated signaling were not mediated by NF-KB, LITAF, Egr-1, CREB, or ATF2/ c-Jun. Together, these studies demonstrate that transcriptional activation of the TNF-alpha gene requires the ERK signaling cascade in selected macrophage populations.
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PMID:Activation of TNF-alpha transcription utilizes distinct MAP kinase pathways in different macrophage populations. 1085 63

Apoptosis of arterial cells induced by oxidized low density lipoproteins (OxLDL) is thought to contribute to the progression of atherosclerosis. However, most data on apoptotic effects and mechanisms of OxLDL were obtained with extensively oxidized LDL unlikely to occur in early stages of atherosclerotic lesions. We now demonstrate that mildly oxidized LDL generated by incubation with oxygen radical-producing xanthine/xanthine oxidase (X/XO) induces apoptosis in primary cultures of human coronary endothelial and SMC, as determined by TUNEL technique, DNA laddering, and FACS analysis. Apoptosis was markedly reduced when X/XO-LDL was generated in the presence of different oxygen radical scavengers. Apoptotic signals were mediated by intramembrane domains of both Fas and tumor necrosis factor (TNF) receptors I and II. Blocking of Fas ligand (FasL) reduced apoptosis by 50% and simultaneous blocking of FasL and TNF receptors by 70%. Activation of apoptotic receptors was accompanied by an increase of proapoptotic and a decrease in antiapoptotic proteins of the Bcl-2 family and resulted in marked activation of class I and II caspases. Mildly oxidized LDL also activated MAP and Jun kinases and increased p53 and other transcription factors (ATF-2, ELK-1, CREB, AP-1). Inhibitors of Map and Jun kinase significantly reduced apoptosis. Our results provide the first evidence that OxLDL-induced apoptosis involves TNF receptors and Jun activation. More important, they demonstrate that even mildly oxidized LDL formed in atherosclerotic lesions may activate a broad cascade of oxygen radical-sensitive signaling pathways affecting apoptosis and other processes influencing the evolution of plaques. Thus, we suggest that extensive oxidative modifications of LDL are not necessary to influence signal transduction and transcription in vivo.
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PMID:Mildly oxidized low density lipoprotein activates multiple apoptotic signaling pathways in human coronary cells. 1102 84


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