EC:2.7.12.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.12.2 (MEK)
18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Benzo[a]pyrene (B[a]P), a tobacco-derived carcinogen, induces lung tumors in rodents through its carcinogenic metabolite, anti-7,8-dihydroxy-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (B[a]PDE). Tumorigenesis is inhibited by dietary myo-inositol in the post-initiation phase. However, little is known about how B[a]PDE and myo-inositol affect normal human lung cells. We addressed this question using untransformed human small airway epithelial (SAE) cells. SAE cell viability decreased <50% in parallel to an increase of apoptotic cells (>20%) 2 days after the cells were treated for 1 h with B[a]PDE (>100 nM). In contrast, the cell number and viability were not altered in A549 human lung cancer cells by B[a]PDE treatment up to 10 microM with <5% apoptotic cells and <10 U/l LDH in the medium. SAE cells retain the features of basal cells in serum-free, low Ca2+ (4 nM) medium up to 4-5 passages, but in serum-supplemented or serum-free, high Ca2+ (1 mM) cultures, they differentiate into non-ciliated epithelial cells expressing Clara cell secretory protein (CCSP). A non-toxic, physiologically relevant dose of B[a]PDE (1 nM) partially inhibited serum and Ca2+-induced SAE cell differentiation. This effect was abolished by wortmannin, a phosphatidylinositol-3 kinase (PI-3K) inhibitor, and PD98059, a mitogen activated protein kinase (MAPK) kinase-1 (MEK1) inhibitor, but not by SB202190, a p38 MAPK inhibitor, or melittin, a protein kinase C inhibitor. Myo-inositol (10-100 microM) did not alter growth or differentiation of untreated SAE or A549 cells, but reversed the inhibitory effect of B[a]PDE on serum and Ca2+-induced SAE cell differentiation when supplemented to the culture after B[a]PDE treatment. This myo-inositol action was not altered by PD98059, wortmannin or melittin, but was partially suppressed by SB202190. Collectively, these results indicate that B[a]PDE inhibits serum-induced SAE cell differentiation, possibly involving activating signals through a PI-3K/MEK1 mediated MAPK pathway, whereas myo-inositol protects SAE cells against this inhibitory effect of B[a]PDE perhaps through both PI-3K/MEK1 and p38 MAPK pathways.
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PMID:Effects of anti-7,8-dihydroxy-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene on human small airway epithelial cells and the protective effects of myo-inositol. 993 61

Many receptors that couple to heterotrimeric guanine nucleotide-binding (G) proteins mediate rapid activation of the mitogen-activated protein kinases, Erk1 and Erk2. The Gi-coupled serotonin (5-hydroxytryptamine (5-HT)) 5-HT1A receptor, heterologously expressed in Chinese hamster ovary or human embryonic kidney 293 cells, mediated rapid activation of Erk1/2 via a mechanism dependent upon both Ras activation and clathrin-mediated endocytosis. This activation was attenuated by chelation of intracellular Ca2+ and Ca2+/calmodulin (CAM) inhibitors or the CAM sequestrant protein calspermin. The CAM-dependent step in the Erk1/2 activation cascade is downstream of Ras activation, because inhibitors of CAM antagonize Erk1/2 activation induced by constitutively activated mutants of Ras and c-Src but not by constitutively activated mutants of Raf and MEK (mitogen and extracellular signal-regulated kinase). Inhibitors of the classical CAM effectors myosin light chain kinase, CAM-dependent protein kinases II and IV, PP2B, and CAM-sensitive phosphodiesterase had no effect upon 5-HT1A receptor-mediated Erk1/2 activation. Because clathrin-mediated endocytosis was required for 5-HT1A receptor-mediated Erk1/2 activation, we postulated a role for CAM in receptor endocytosis. Inhibition of receptor endocytosis by use of sequestration-defective mutants of beta-arrestin1 and dynamin attenuated 5-HT1A receptor-stimulated Erk1/2 activation. Inhibition of CAM prevented agonist-dependent endocytosis of epitope-tagged 5-HT1A receptors. We conclude that CAM-dependent activation of Erk1/2 through the 5-HT1A receptor reflects its role in endocytosis of the receptor, which is a required step in the activation of MEK and subsequently Erk1/2.
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PMID:Serotonin 5-HT1A receptor-mediated Erk activation requires calcium/calmodulin-dependent receptor endocytosis. 998 12

Initiation of T-cell antigen receptor (TCR) signaling is dependent upon the activity of protein tyrosine kinases. The Src family kinase Lck is required for the initial events in TCR signaling, such as the phosphorylation of the TCR complex and the activation of ZAP-70, but little is known of its role in downstream signaling. Expression of a mutated form of Lck lacking SH3 domain function (LckW97A) in the Lck-deficient T-cell line JCaM1 revealed a requirement for Lck beyond the initiation of TCR signaling. In cells expressing LckW97A, stimulation of the TCR failed to activate the mitogen-activated protein kinase (MAPK) pathway, despite normal TCR zeta chain phosphorylation, ZAP-70 recruitment, and ZAP-70 activation. Activation of extracellular signal-regulated kinase (ERK) and MAPK kinase (MEK), as well as the induction of CD69 expression, was greatly impaired in JCaM1/LckW97A cells. In contrast, the phosphorylation of phospholipase Cgamma1 (PLCgamma1) and corresponding elevations in intracellular calcium concentration ([Ca2+]i) were intact. Thus, cells expressing LckW97A exhibit a selective defect in the activation of the MAPK pathway. These results demonstrate that Lck has a role in the activation of signaling pathways beyond the initiation of TCR signaling and suggest that the MAPK pathway may be selectively controlled by regulating the function of Lck.
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PMID:The lck SH3 domain is required for activation of the mitogen-activated protein kinase pathway but not the initiation of T-cell antigen receptor signaling. 998 64

Little is known of the mechanisms leading to mitogen-activated protein kinase (MAPK) activation via Gq-coupled receptors. We therefore examined the pathways by which angiotensin II (Ang II) activates Raf-1 kinase, an upstream intermediate in the pathway to MAPK, via the Gq-coupled AT1 angiotensin receptor in bovine adrenal glomerulosa (BAG) cells. Ang II caused a rapid and transient activation of Raf-1 that reached a peak at 5-10 min. Ang II was a potent stimulus of Raf-1 activation with an ED50 of 10 pM and a maximal response at 1 nM, although higher Ang II concentrations elicited a submaximal response. Ang II-stimulated Raf-1 activity was unaffected by down-regulation of protein kinase C and intracellular Ca2+ chelation (using BAPTA) but was partially inhibited by pertussis toxin, and was abolished by manumycin A. Removal of extracellular Ca2+ (by EGTA) or blockade of L type Ca2+ channels (by nifedipine), as well as inhibition of MEK-1 kinase (by PD98059), enhanced Raf-1 activity, whereas wortmannin (100 nM) inhibited approximately one half of Ang II-stimulated Raf-1 activity. Hence, Raf-1 kinase activation by Ang II in BAG cells is dependent on Ras, is mediated in part via Gi and phosphatidylinositol 3-kinase, and is negatively regulated via Ca2+ influx and a downstream signaling element(s).
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PMID:Raf-1 kinase activation by angiotensin II in adrenal glomerulosa cells: roles of Gi, phosphatidylinositol 3-kinase, and Ca2+ influx. 1006 66

This study investigates whether leukemia inhibitory factor (LIF), a potent cardiac hypertrophic cytokine, affects the L-type Ca2+ current (I(Ca,L)) and intracellular Ca2+ concentrations ([Ca2+]i) in cardiomyocytes. I(Ca,L) was recorded using a whole cell patch clamp configuration in guinea pig cardiomyocytes, and the [Ca2+]i transient was detected by use of Fluo-3 in rat cardiomyocytes. Cells were preincubated with LIF (1000 U/ml) for 15 min before whole cell recording. LIF increased I(Ca,L) by 41.8%. LIF synergistically increased I(Ca,L) with isoproterenol. Preincubation with H89 did not inhibit the LIF-induced increase in I(Ca,L), indicating that this phenomenon is PKA-independent. PD98059 completely inhibited the increase in I(Ca,L), and this effect was dose-dependent (IC50=3.6 micromol/l). Other signal transduction inhibitors including AG490, SB203580, chelerythrine, genistein, and KN62 did not affect the LIF-induced increase in I(Ca,L). Perforated patch clamp recording revealed that LIF maximally increased the I(Ca,L) by 25% at 15 min. LIF also increased the peak [Ca2+]i transient level by 63% at 15 min. PD98059 fully inhibited the increase in the [Ca2+]i transient. In conclusion, LIF increased I(Ca,L) and the [Ca2+]i transient in cardiomyocytes, and the Raf-1/MEK/ERK pathway might be involved in the modulation of this activation.
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PMID:Leukemia inhibitory factor, a potent cardiac hypertrophic cytokine, enhances L-type Ca2+ current and [Ca2+]i transient in cardiomyocytes. 1007 31

CRF exerts a key neuroregulatory control on the function of the hypothalamic-pituitary-adrenal axis. These effects are thought to be mediated primarily through activation of Gs-coupled plasma membrane receptors. In the present study, we investigated the effects of activation of CRF receptors by sauvagine on signaling pathways that converge on phosphorylation of the transcription factor calcium/cAMP response element-binding protein (CREB). Studies were undertaken using CHO cell lines transfected with either rat CRF-1 or CRF-2alpha receptors. Signaling pathways were investigated using immunocytochemical, Western blot, and imaging techniques. Treatment with sauvagine increased phosphorylation of p42/p44, but not of p38 or stress-activated protein kinase (SAPK)/JUN N-terminal kinase (JNK) mitogen-activated protein (MAP) kinases correlating with increased p42/p44 MAP kinase activity. Mobilization of intracellular Ca2+ stores was observed in cells treated with high concentrations (100 nM, 1 microM) of sauvagine. A time- and dose-dependent increase in phosphorylation of the transcription factor CREB was observed in cultures treated with sauvagine. Phosphorylation of CREB occurred at lower concentrations of sauvagine than those required to mobilize intracellular calcium stores, and phosphorylation was not blocked by the mitogen-activated protein kinase kinase inhibitor PD98059 at a concentration (1 microM) that fully inhibited phosphorylation of MAP kinase. Cotreatment of cultures with the protein kinase A inhibitor H89 (10 microM) blocked fully the stimulatory actions of sauvagine (0.1 nM, 1 nM) on phosphorylation of CREB, but not those on phosphorylation of MAP kinase. Phosphorylation of MAP kinase was partially blocked by the phosphoinositide 3-kinase inhibitor LY294002 (5 microM) and by the phosphoinositide-phospholipase C inhibitor U73122 (10 microM). These data demonstrate that cAMP-, Ca2+-, and MAP kinase-dependent signaling pathways are activated by stimulation of CRF-1 and CRF-2alpha receptors. However, in these cells, only protein kinase A-dependent pathways contribute significantly to enhanced phosphorylation of CREB. These represent the first reported observations of CRF receptor-mediated phosphorylation of the transcription factor CREB and activation of MAP kinase signal transduction pathways.
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PMID:Corticotropin-releasing factor type 1 and type 2alpha receptors regulate phosphorylation of calcium/cyclic adenosine 3',5'-monophosphate response element-binding protein and activation of p42/p44 mitogen-activated protein kinase. 1009 84

The stress-activated p38 mitogen-activated protein kinase (p38 MAPK), a member of the subgroup of mammalian kinases, appears to play an important role in regulating inflammatory responses, including cytokine secretion and apoptosis. The upstream mediators that link extracellular signals with the p38 MAPK signaling pathway are currently unknown. Here we demonstrate that pp125 focal adhesion kinase-related tyrosine kinase RAFTK (also known as PYK2, CADTK) is activated specifically by methylmethane sulfonate (MMS) and hyperosmolarity but not by ultraviolet radiation, ionizing radiation, or cis-platinum. Overexpression of RAFTK leads to the activation of p38 MAPK. Furthermore, overexpression of a dominant-negative mutant of RAFTK (RAFTK K-M) inhibits MMS-induced p38 MAPK activation. MKK3 and MKK6 are known potential constituents of p38 MAPK signaling pathway, whereas SEK1 and MEK1 are upstream activators of SAPK/JNK and ERK pathways, respectively. We observe that the dominant-negative mutant of MKK3 but not of MKK6, SEK1, or MEK1 inhibits RAFTK-induced p38 MAPK activity. Furthermore, the results demonstrate that treatment of cells with 1, 2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid, tetra(acetoxymethyl)-ester, a membrane-permeable calcium chelator, inhibits MMS-induced activation of RAFTK and p38 MAPK. Taken together, these findings indicate that RAFTK represents a stress-sensitive mediator of the p38 MAPK signaling pathway in response to certain cytotoxic agents.
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PMID:Activation of p38 mitogen-activated protein kinase by PYK2/related adhesion focal tyrosine kinase-dependent mechanism. 1018 97

Mitogen-activated protein kinase (MAPK) is an integral component of cellular signaling during mitogenesis and differentiation of mitotic cells. Recently MAPK activation in post-mitotic cells has been implicated in hippocampal long-term potentiation (LTP), a potential cellular mechanism of learning and memory. Here we investigate the involvement of MAPK in learning and memory in behaving animals. MAPK activation increased in the rat hippocampus after an associative learning task, contextual fear conditioning. Two other protein kinases known to be activated during hippocampal LTP, protein kinase C and alpha-calcium/calmodulin protein kinase II, also were activated in the hippocampus after learning. Inhibition of the specific upstream activator of MAPK, MAPK kinase (MEK), blocked fear conditioning. Thus, classical conditioning in mammals activates MAPK, which is necessary for consolidation of the resultant learning.
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PMID:The MAPK cascade is required for mammalian associative learning. 1019 68

Activation of MAP kinase kinase, also called ERK kinase (MEK), may lead to desinhibition of thin filament regulatory proteins and we therefore investigated the acute effects of the potent MEK inhibitor, PD98059 on the contractile properties of pressurized rat middle cerebral arteries. Cerebral arteries (diameter 100-150 microm) were mounted on a pressure myograph and PD98059 (10 microM, 40 microM) significantly inhibited (15% and 64%) myogenic tone (P < 0.001). At these concentrations, PD98059 also significantly reduced the vasopressin (0.1 microM)- and KCl (60 mM)-induced tone. Cumulative addition of exogenous Ca2+ (0.4-1.6 mM) increased myogenic tone to approximately 50% of constriction at 80 mmHg. This effect was inhibited by PD98059 (P < 0.001). These results demonstrate that pressure-induced myogenic tone is inhibited by PD98059 at the concentrations that have been reported to be selective for inhibition of MEK and the MAP kinase cascade. However, our results also demonstrate that PD98059 may have nonspecific effects on voltage-sensitive Ca2+ entry in vascular smooth muscle.
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PMID:Nonspecific inhibition of myogenic tone by PD98059, a MEK1 inhibitor, in rat middle cerebral arteries. 1019 44

The effect of neurotrophic factors on apoptosis induced by ionomycin, a potent Ca2+ ionophore, was investigated using cultured cortical neurons from embryonic rats. Brain-derived neurotophic factor (BDNF) and neurotrophin-3 (NT-3) prevented the ionomycin-mediated cell death in a dose-dependent manner. In contrast to the neurotrophins, cilliary neurotrophic factor (CNTF) did not rescue neurons from cell death induced by ionomycin. The protective effect of BDNF was partially blocked by wortmannin, a phosphatidylinositol 3-kinase inhibitor, and by PD98059, a MAP kinase kinase inhibitor. However, the addition of both compounds together completely inhibited the survival promoting effect of BDNF. These results suggest that the neuroprotective effect of BDNF requires activation of both phosphatidylinositol-3 kinase and the Ras/MAP kinase cascade and that CNTF signaling through other pathways is without an effect in this system.
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PMID:BDNF and NT-3 but not CNTF counteract the Ca2+ ionophore-induced apoptosis of cultured cortical neurons: involvement of dual pathways. 1021 70

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