EC:3.4.11.18 - FACTA Search

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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)

We have developed a novel expression screening method for identifying protein kinase substrates. In this method, a lambda phage cDNA expression library is screened by in situ, solid-phase phosphorylation using purified protein kinase and [gamma-32P]ATP. Screening a HeLa cDNA library with ERK1 MAP kinase yielded cDNAs of previously characterized ERK substrates, c-Myc and p90RSK, demonstrating the utility of this method for identifying physiological protein kinase substrates. A novel clone isolated in this screen, designated MNK1, encodes a protein-serine/threonine kinase, which is most similar to MAP kinase-activated protein kinase 2 (MAPKAP-K2), 3pK/MAPKAP-K3 and p90RSK. Bacterially expressed MNK1 was phosphorylated and activated in vitro by ERK1 and p38 MAP kinases but not by JNK/SAPK. Further, MNK1 was activated upon stimulation of HeLa cells with 12-O-tetradecanoylphorbol-13-acetate, fetal calf serum, anisomycin, UV irradiation, tumor necrosis factor-alpha, interleukin-1beta, or osmotic shock, and the activation by these stimuli was differentially inhibited by the MEK inhibitor PD098059 or the p38 MAP kinase inhibitor SB202190. Together, these results indicate that MNK1 is a novel class of protein kinase that is activated through both the ERK and p38 MAP kinase signaling pathways.
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PMID:MNK1, a new MAP kinase-activated protein kinase, isolated by a novel expression screening method for identifying protein kinase substrates. 915 18

PGI2 generation by the vessel wall is an agonist for cyclic-AMP-dependent cholesteryl ester hydrolysis. The process of enhanced PGI2 synthesis is stimulated, in part, by G-protein-coupled receptor ligands. Cellular cholesterol enrichment has been hypothesized to alter G-protein-mediated PGI2 synthesis. In the studies reported herein, cells generated PGI2 in response to AlF4-, GTPgammaS, and ATP in a dose-dependent manner. G-protein agonists stimulated eicosanoid production principally by activating phospholipase A2, but not phospholipase C. This is in contrast to PDGF, which stimulated phospholipase A2 and PLCgamma activities. Galphai subunits mediate G-protein agonist-induced PGI2 synthesis, since ATP- and PDGF-induced PGI2 synthesis was inhibited by pertussis toxin. Although cholesterol enrichment reduced arachidonic acid- and PDGF-induced PGI2 synthesis, cholesterol enrichment enhanced PGI2 release in response to AlF4-, GTPgammaS, and ATP. The enhancement of PGI2 release in cholesterol-enriched cells was augmented by mevalonate, which inhibits the ability of cholesterol enrichment to reduce membrane-associated G-protein subunits. Since cholesterol enrichment inhibited PDGF and AlF4--induced MAP kinase activity [Pomerantz, K., Lander, H. M., Summers, B., Robishaw, J. D., Balcueva, E. A., & Hajjar, D. P. (1997) Biochemistry 36, 9523-9531] (the major mechanism by which phospholipase A2 is activated), these results suggest that cholesterol enrichment induces other alternative signaling pathways leading to phospholipase A2 activation. A PKC-dependent pathway is described herein that is involved in enhanced eicosanoid production in cholesterol-enriched cells. This conclusion is supported by two observations: (1) G-protein-linked PGI2 production is inhibited by calphostin, and (2) cholesterol enrichment augments the specific translocation of the delta-isoform of PKC from the cytosol to the plasma membrane following treatment of cells with phorbol ester. These data support the concept that, in cells possessing normal levels of cholesterol, MAP-kinase-dependent pathways mediate eicosanoid synthesis in response to G-protein activation; however, under conditions of high cellular cholesterol levels, augmented G-protein-linked eicosanoid production results from enhanced PKCdelta activity.
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PMID:G-protein-mediated signaling in cholesterol-enriched arterial smooth muscle cells. 2. Role of protein kinase C-delta in the regulation of eicosanoid production. 923 99

The effect of BW755C (a dual inhibitor of cyclo- and lipoxygenase enzymes) alone and in combination with iloprost (a PGI2 analogue) on myocardial reperfusion injury was investigated in anaesthetised open-chest dogs. The left anterior descending coronary artery was occluded for a period of 40 min followed by reperfusion for 3 h. Dogs were administered either saline, BW755C (10 mg kg-1 slow bolus) or BW755C plus iloprost (100 ng kg-1 min-1 for 75 min) just prior to reperfusion. The haemodynamic data showed significant reduction in MAP and both LV peak-positive and peak-negative dP/dt following reperfusion in the saline-treated group, along with a delayed recovery of LVEDP. These changes were accompanied by significant depletion of myocardial ATP and glycogen stores. Administration of BW755C prevented the haemodynamic changes and replenished the HEP stores. Although coadministration of iloprost with BW755C afforded early normalisation of LVEDP and LV peak positive dP/dt, but MAP and LV peak negative dP/dt remained significantly depressed. Therefore, it might be concluded from this study that supplementation of BW755C with iloprost may have deleterious haemodynamic effects on the reperfused myocardium, particularly in the doses used.
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PMID:Effects of supplementation with iloprost on the cardioprotection by BW755C (a dual inhibitor of cyclooxygenase and lipoxygenase enzymes) in myocardial reperfusion injury. 934 37

The cardiovascular effects of SKP-450, a newly synthesized potassium channel activator, and its two major metabolites SKP-818 and SKP-310 were evaluated on isolated rat aorta and in freely moving rats and anesthetized beagle dogs. The rank order of potency in relaxing rat aorta precontracted with norepinephrine was SKP-450 > SKP-818 > Lemakalim > SKP-310 (EC50: 0.12, 0.55, 0.71 and 5.89 mumol/l, respectively). In rats, SKP-450, SKP-818 and lemakalim (3-100 micrograms/kg, i.v.) induced a dose-dependent decrease in mean arterial pressure (MAP; ED20: 9.8, 11.7 and 22.4 micrograms/kg, respectively) followed by reflex tachycardia. In dogs, SKP-818 and SKP-310 (0.3-1,000 micrograms/kg, i.v.) had quite similar hemodynamic profiles to SKP-450 but with a smaller potency. SKP-450, SKP-818 and SKP-310 dose-relatedly decreased MAP (ED20: 2.6, 4.2 and 588.8 micrograms/kg, respectively). They slightly increased left ventricular positive dP/dtmax with a transient decrease at the highest dose, while inducing a dose-related decrease in rate-pressure product, tension time index and systolic time. SKP-450, SKP-818 and SKP-310 induced a marked dose-dependent increase in coronary blood flow (Emax: 172.8, 257.9 and 178.7%, respectively) with less effects on blood flow through other arteries. Glybenclamide antagonized all the hemodynamic effects of SKP-450 in rats and dogs, whereas propranolol antagonized its reflex tachycardia in rats. These results indicate that SKP-450 is a potent coronary and peripheral vasodilator in rats and dogs activating ATP-sensitive potassium channels and that SKP-818 and SKP-310 exert a similar hemodynamic profile to the parent compound with equi- and weaker potency, respectively.
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PMID:Cardiovascular pharmacology of SKP-450, a new potassium channel activator, and its major metabolites SKP-818 and SKP-310. 953 10

Effect of oxyfedrine (OXF)(1 mg/kg) administered just before reperfusion (post-treatment) was investigated in a canine model of myocardial stunning. In the saline-treated animals, myocardial stunning was evidenced by fall in MAP, decrease in LV peak (+) dP/dt, rise in LVEDP and incomplete regeneration of myocardial ATP, after reperfusion. OXF was found to be effective in preventing the haemodynamic and metabolic changes associated with myocardial stunning.
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PMID:Oxyfedrine in myocardial stunning. 956 53

On the basis of the crystal structure of the MEK substrate ERK, we have synthesized a 15 amino acid peptide representing the alpha C helix of human ERK1. We find this peptide to be an inhibitor of ERK phosphorylation by its upstream activator MEK. Circular dichroic spectroscopy indicates that the peptide has little secondary structure in aqueous buffer, but can readily adopt an alpha-helical structure in aprotic solvent. Steady-state kinetic analysis indicates that the peptide serves as a competitive inhibitor of ERK binding to MEK, with a dissociation constant, Ki, of 0.84 microM. Together with ATP-competitive inhibitors of MEK, we have used this peptide to define the kinetic mechanism of MEK catalysis. These studies reveal that MEK operates through a bi-bi random-ordered sequential mechanism. The synthetic peptide inhibits also the phosphorylation of p38 and ERK by the upstream activator MKK3, but is at least 3-fold less potent as an inhibitor of SEK activation of JNK1. Interestingly, the peptide also showed some ability to inhibit ERK-mediated phosphorylation of myelin basic protein, but was inactive as an inhibitor of the unrelated kinases Raf, Abl, and PKA. These results imply that the alpha C helix is an important locus of interaction for the formation of a MEK-ERK complex. The alpha C helix cannot, however, be the sole determinant of activator selectivity among the MAP kinases. Molecules designed to target the alpha C helix binding pocket of MAP kinase activators may provide a novel means of inhibiting these signal transducers.
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PMID:Competitive inhibition of MAP kinase activation by a peptide representing the alpha C helix of ERK. 963 29

The present work was aimed to define the cardiovascular effects and underlying mechanisms of adenosine and its analogues. The results showed that (1) adenosine and 2-chloroadenosine could induce an initial increase in MAP mediated by the adenosine A2 receptors in carotid body chemoreceptor, and a subsequent decrease in MAP, being attributed to the adenosine A1 receptors in heart and A2 receptors in blood vessels; (2) N6-cyclopentyladenosine (CPA, a selective adenosine A1 receptor agonist) inhibited the electrophysiological activity of pacemaker cells in sinoatrial node; (3) CPA markedly attenuated the development of early afterdepolarization, delayed afterdepolarization and triggered activity induced by isoproterenol; (4) endogenous adenosine might play an important role in the generation of anoxic bradycardia; (5) activation of adenosine receptors along with an increase in adenosine receptor density during the course of ischemic preconditioning might provide the protective effect on the ischemic heart injury; (6) the cardiovascular effects of adenosine and its analogues were mainly mediated by activation of ATP sensitive K+ channels coupled to adenosine receptors.
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PMID:[Cardiovascular effects and underlying mechanisms of adenosine and its analogues]. 977 63

To clarify the molecular mechanism for the transduction of light signals in plants, we have established an in vitro system that uses crude membrane and soluble fractions of stem sections of etiolated Pisum sativum L. cv. Alaska after irradiation by red light, or sequential application of red and far-red light to the stem section. In a previous report (T. Hamada et al., J. Photochem. Photobiol. B: Biol. 33 (1996) 143-151) the labelling of proteins in membrane fraction by [gamma-32P] ATP at 0 degree C for 15 s and subsequent separation of proteins by two-dimensional electrophoresis allowed unambiguous identification of a heavily phosphorylated protein spot at 18 kDa (p18). In the present study we have confirmed the former results in the membrane fraction, and obtained the result that an increase in the phosphorylation of p18 by red-light irradiation is observed in the soluble fraction. Further, we have provided evidence that the p18 in the soluble fraction is purified and identified as nucleoside diphosphate (NDP) kinase by Western blotting, immuno-precipitation, amino acid sequencing and cDNA analysis. Purified p18 shows autophosphorylation activity and strong phosphorylating activity against myelin basic protein (MBP), a substrate of MAP (mitogen activated protein) kinase. The results show that phytochrome-mediated light signals are transduced to NDP kinase, which may elicit signals by providing high concentrations of, for example, GTP from GDT and ATP, by the autophosphorylation and by the protein kinase activity similar to MAP kinase.
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PMID:Phytochrome-mediated light signals are transduced to nucleoside diphosphate kinase in Pisum sativum L. cv. Alaska. 986 1

1. Metabolic and functional effects of ischaemic preconditioning (IP), pretreatment with carbachol (Ch) and combined interventions were studied in rat isolated working hearts subjected to 20 min global ischaemia (37 degrees C) and 40 min reperfusion. Prior to the ischaemic period, hearts were either perfused according to Langendorff (control group), ischaemically preconditioned by 5 min global ischaemia and 5 min reperfusion (IP group), perfused with 0.1 mumol/L Ch for 5 min and then with Ch-free Krebs'-Henseleit buffer for 5 min (Ch group) or perfused with 0.1 mumol/L Ch for 5 min and then subjected to IP (Ch + IP group). 2. Although Ch exerted slight negative chronotropic and inotropic effects during pre-ischaemic Langendorff perfusion, it did not affect myocardial contents of ATP and phosphocreatine (PCr) prior to sustained ischaemia. At the end of final reperfusion, the IP and Ch groups showed similar recovery of aortic output (67.5 +/- 5.0 and 56.8 +/- 5.4%, respectively), cardiac output (65.4 +/- 5.4 and 63.5 +/- 5.7%, respectively) and stroke volume (73.4 +/- 7.5 and 67.0 +/- 6.7%, respectively) expressed as a percentage of steady state values. These indices were higher than those in the control group (42.8 +/- 4.7, 53.8 +/- 4.3 and 56.1 +/- 5.6%, respectively; P < 0.05). The Ch + IP group exhibited complete recovery of all indices of pump function, including cardiac work, expressed as the cardiac output-mean aortic pressure (CO-MAP) product. 3. There were no differences in ATP recovery between the groups after reperfusion: the ATP content was, on average, 73.1 +/- 3.5% of the initial ATP content. However, all treated groups had enhanced PCr recovery and better preservation of total creatine (sigma Cr = PCr + Cr), an index of cell membrane integrity, than control. Metabolic efficacy of the pre-ischaemic interventions can be ranked as follows: IP < or = Ch < Ch + IP. In all groups, myocardial content of sigma Cr was positively correlated with percentage recovery of the CO-MAP product at the end of reperfusion (r = 0.79, P < 0.05). 4. The results demonstrate that Ch treatment combined with IP provides significantly greater postischaemic myocardial salvage. The similarity of the metabolic and functional effects of Ch treatment and IP strongly suggests muscarinic M2 acetylcholine receptor involvement in acute adaptation of rat heart to ischaemia/reperfusion stress.
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PMID:Metabolic and functional effects of carbachol and ischaemic preconditioning in rat isolated heart. 1002 66

The effect of perfusion with elevated glucose concentrations on hypoxic myocardium was investigated in isolated Langendorff guinea pig hearts. For that purpose, mechanical (heart rate, systolic peak pressure and coronary flow) and electrophysiological (monophasic action potential duration=MAP, ectopic beats) data were evaluated. At the end of the experiments the hearts were examined histologically after trypan blue vital staining for quantification of irreversible myocardial damage. In the absence of insulin moderate glucose elevation (from 5 to 15 mM) exerted beneficial effects on hypoxic hearts: the depressed contraction was improved, the action potential shortening partly reversed and the percentage of irreversibly damaged myocytes diminished. Glucose did not have any effect on heart rate and arrhythmias under hypoxia or reperfusion. A contribution of cardiac ATP-dependent K+ channels to the effects of glucose could be excluded by further experiments. Thus, blocking these channels with high glibenclamide concentrations did not affect the action of glucose on MAP and contraction. To some degree the glucose effect on MAP, but not on systolic pressure, was also observable under normoxic conditions.
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PMID:Effects of high glucose on the hypoxic isolated guinea pig heart: interactions with ATP-dependent K+ channels? 1021 42

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