Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exogenous nitric oxide (NO) triggers a preconditioning-like effect in heart via a pathway that is dependent on reactive oxygen species. This study examined the signaling pathway by which the NO donor S-nitroso-N-acetylpenicillamine (SNAP, 2 microM) triggers its anti-infarct effect. Isolated rabbit hearts experienced 30 min of regional ischemia and 120 min of subsequent reperfusion. Infarct size was determined by triphenyltetrazolium chloride staining. Infarct size was reduced from 30.5 +/- 3.0% of the risk zone in control hearts to 10.2 +/- 2.0% in SNAP-treated hearts. Bracketing the SNAP infusion with either the guanylyl cyclase blocker 1H-[1,2,4]oxadiazole[4,3-a]quinoxalin-1-one (2 microM) or the mitochondrial ATP-sensitive K(+) (mitoK(ATP)) channel blocker 5-hydroxydecanoate (200 microM) completely blocked the infarct-sparing effect of SNAP (34.3 +/- 3.8 and 32.2 +/- 1.6% infarction, respectively). Pretreatment of hearts with 8-(4-chlorophenylthio)-guanosine 3',5'-cyclic monophosphate (10 microM), which is a cell-permeable cGMP analog that activates protein kinase G, mimicked the preconditioning effect of SNAP by reducing infarct size to 7.5 +/- 1.1% of the risk zone. This salutary effect was abolished by either the free radical scavenger N-(2-mercaptopropionyl)glycine (1 mM) or 5-hydroxydecanoate (100 microM; 28.9 +/- 2.7 and 33.6 +/- 5.0% infarction of the risk zone, respectively). To confirm these functional data and the effect of SNAP on the guanylyl cyclase-protein kinase G signaling pathway, cGMP levels were measured. SNAP increased the level from 0.18 +/- 0.04 to 0.61 +/- 0.14 pmol/mg of protein (P < 0.05). These data suggest that exogenous NO triggers the preconditioning effect by initiating a cascade of events including stimulation of guanylyl cyclase to make cGMP, activation of protein kinase G, opening of mitoK(ATP) channels, and, finally, production of reactive oxygen species.
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PMID:Exogenous NO triggers preconditioning via a cGMP- and mitoKATP-dependent mechanism. 1504 94

We investigated the effects of nitric oxide (NO) on hepatocellular killing after simulated ischemia/reperfusion and characterized signaling factors triggering cytoprotection by NO. Cultured rat hepatocytes were incubated in anoxic Krebs-Ringer-HEPES buffer at pH 6.2 for 4 hours and reoxygenated at pH 7.4 for 2 hours. During reoxygenation, some hepatocytes were exposed to combinations of NO donors (S-nitroso-N-acetylpenicillamine [SNAP] and others), a cGMP analogue (8-bromoguanosine-3,5-cGMP [8-Br-cGMP]), and a cGMP-dependent protein kinase inhibitor (KT5823). Cell viability was determined by way of propidium iodide fluorometry. Inner membrane permeabilization and mitochondrial depolarization were monitored by confocal microscopy. SNAP, but not oxidized SNAP, increased cGMP during reperfusion and decreased cell killing. Other NO donors and 8-Br-cGMP also prevented cell killing. Both guanylyl cyclase and cGMP-dependent kinase inhibition blocked the cytoprotection of NO. However, 5-hydroxydecanoate and diazoxide- mitochondrial K(ATP) channel modulators-did not affect NO-dependent cytoprotection or reperfusion injury. During reoxygenation, confocal microscopy showed mitochondrial repolarization, followed by depolarization, inner membrane permeabilization, and cell death. In the presence of either SNAP or 8-Br-cGMP, mitochondrial repolarization was sustained after reperfusion preventing inner membrane permeabilization and cell death. In isolated rat liver mitochondria, a cGMP analogue in the presence of a cytosolic extract and adenosine triphosphate blocked the Ca(2+)-induced mitochondrial permeability transition (MPT), an effect that was reversed by KT5823. In conclusion, NO prevents MPT-dependent necrotic killing of ischemic hepatocytes after reperfusion through a guanylyl cyclase and cGMP-dependent kinase signaling pathway, events that may represent the target of NO cytoprotection in preconditioning.
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PMID:Nitric oxide protects rat hepatocytes against reperfusion injury mediated by the mitochondrial permeability transition. 1518 94

In the present study, we used the N terminus (amino acids 1 approximately 160) of type VI adenylyl cyclase (ACVI) as bait to screen a mouse brain cDNA library and identified Snapin as a novel ACVI-interacting molecule. Snapin is a binding protein of SNAP25, a component of the SNARE complex. Co-immunoprecipitation analyses confirmed the interaction between Snapin and full-length ACVI. Mutational analysis revealed that the interaction domains of ACVI and Snapin were located within amino acids 1 approximately 86 of ACVI and 33-51 of Snapin, respectively. Co-localization of ACVI and Snapin was observed in primary hippocampal neurons. Moreover, expression of Snapin specifically eliminated protein kinase C (PKC)-mediated suppression of ACVI, but not that of cAMP-dependent protein kinase (PKA) or calcium. Mutation of the potential PKC and PKA phosphorylation sites of Snapin did not affect the ability of Snapin to reverse the PKC inhibitory effect on ACVI. Phosphorylation of Snapin by PKC or PKA therefore might not be crucial for Snapin action on ACVI. In contrast, Snapin(Delta33-51), which harbors an internal deletion of amino acids 33-51 did not affect PKC-mediated inhibition of ACVI, supporting that amino acids 33-51 of Snapin comprises the ACVI-interacting region. Consistently, Snapin exerted no effect on PKC-mediated inhibition of an ACVI mutant (ACVI-DeltaA87), which lacked the Snapin-interacting region (amino acids 1-86). Snapin thus reverses its action via direct interaction with the N terminus of ACVI. Collectively, we demonstrate herein that in addition to its association with the SNARE complex, Snapin also functions as a regulator of an important cAMP synthesis enzyme in the brain.
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PMID:Regulation of type VI adenylyl cyclase by Snapin, a SNAP25-binding protein. 1531 43

In the rabbit heart, bradykinin and ACh trigger preconditioning by a mechanism involving ATP-sensitive potassium channel-dependent production of reactive oxygen species (ROS). Recent evidence indicates that the pathway by which bradykinin causes ROS generation includes nitric oxide synthase (NOS) and protein kinase G (PKG). On the other hand, Akt was shown to be essential for ACh to generate ROS. This study determines whether these two G-coupled receptor agonists indeed have similar signaling targets, i.e., whether Akt is involved in bradykinin's pathway and whether NOS is involved in ACh's pathway. Isolated adult rabbit cardiomyocytes were incubated for 15 min in reduced MitoTracker red, which becomes fluorescent only after exposure to ROS. Bradykinin (400 nM) and ACh (250 microM) caused a 51.4 +/- 14.8% and 39.8 +/- 11.7% increase, respectively, in ROS production (P <0.005). Coincubation of either agonist with Akt inhibitor (20 microM) or infection of cells with an adenovirus containing dominant negative Akt abolished this increase. The NO donor S-nitroso-N-acetyl penicillamine (SNAP, 1 microM) also increased the ROS signal by 40.8 +/- 15.7%, but this increase was unaffected by Akt inhibitor (39.0 +/- 6.4%), implying that Akt is upstream of NOS. ACh-induced ROS production could be abolished by either of the NOS inhibitors Nomega-monomethyl-L-arginine monoacetate (100 microM) and L-N5-(1-iminoethyl)ornithine hydrochloride (L-NIO, 5 microM). L-NIO also blocked the anti-infarct effect of ACh (550 microM) in isolated rabbit hearts exposed to 30 min of regional ischemia. We conclude that both bradykinin and ACh trigger ROS generation by sequentially activating Akt and NOS.
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PMID:Acetylcholine and bradykinin trigger preconditioning in the heart through a pathway that includes Akt and NOS. 1533 66

Increases in the myocardial level of cGMP usually exert negative inotropic effects in the mammalian hearts. We tested the hypothesis that the negative functional effects caused by nitric oxide (NO) or C-type natriuretic peptide (CNP) through cGMP would be blunted in hypertrophied cardiac myocytes. Contractile function, guanylyl cyclase activity, cGMP-dependent protein phosphorylation, and calcium transients were assessed in ventricular myocytes from aortic stenosis-induced hypertrophic and age-matched control mice. Basal percentage shortening was similar in control and hypertrophic myocytes. S-nitroso-N-acetyl-penicillamine (SNAP, an NO donor, 10(-6) and 10(-5) M) or CNP (10(-8) and 10(-7) M) reduced percentage shortening in both groups, but their effects were blunted in hypertrophic myocytes. Maximal rates of shortening and relaxation were depressed at the basal level, and both reagents had attenuated effects in hypertrophy. Similar results were also found after treatment with guanylin and carbon monoxide, other stimulators of particulate, and soluble guanylyl cyclase, respectively. Guanylyl cyclase activity was not significantly changed in hypertrophy. Addition of Rp-8-[(4-chlorophenyl)thio]-cGMPS triethylamine (an inhibitor of cGMP-dependent protein kinase, 5 x 10(-6) M) blocked SNAP or the effect of CNP in control mice but not in hypertrophy, indicating the cGMP-dependent kinase (PKG) may not mediate the actions of cGMP induced by NO or CNP in the hypertrophic state. Calcium transients after SNAP or CNP were not significantly changed in hypertrophy. These results suggest that in hypertrophied mice, diminished effects of NO or CNP on ventricular myocyte contraction are not due to changes in guanylyl cyclase activity. The data also indicated that PKG-mediated pathways were diminished in hypertrophied myocardium, contributing to blunted effects.
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PMID:Functional effects of C-type natriuretic peptide and nitric oxide are attenuated in hypertrophic myocytes from pressure-overloaded mouse hearts. 1555 May 20

Excessive excitatory action of glutamate and nitric oxide (NO) has been implicated in degeneration of striatal neurons. Evidence had been provided that Na+K+-ATPase might be involved in this process. Here we investigated whether glutamate-regulated messengers, such as NO and cyclic GMP, could modulate the activity of membrane Na+K+-ATPase. Our results demonstrated that NO donors sodium nitroprusside (SNP at 30 and 300 microM) and S-nitroso-N-acetylpenicillamine (SNAP at 200 microM) increased alpha2,3Na+K+-ATPase activity which was blocked by the NO chelator, haemoglobin and was independent of [Na+]. This regulation was associated with cGMP synthesis and mimicked by glutamate (300 microM) and 8-Br-cyclic GMP (4 mM). 8-Br-cGMP-induced stimulation of Na+K+-ATPase activity could be blocked by KT5823 (an inhibitor of cGMP-dependent protein kinase, PKG), but not by KT5720 (an inhibitor of cAMP-dependent protein kinase, PKA). N-Methyl-D-aspartate (NMDA) receptors appeared to be involved in the effect of glutamate, since MK-801 (NMDA receptor antagonist) produced a partial reduction in glutamate-induced activation of the enzyme. MK-801 was not synergistic to L-NAME (NOS inhibitor), suggesting that glutamate stimulates the NMDA-NOS pathway to activate alpha2,3 Na+K+-ATPase in rat striatum. This regulation was associated with cyclic GMP (but not cyclic AMP) synthesis. These data indicate the existence, in vitro, of a regulatory pathway by which glutamate, acting through NO and cGMP, can cause alterations in striatal alpha2,3 Na+K+-ATPase activity.
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PMID:Glutamate modulates sodium-potassium-ATPase through cyclic GMP and cyclic GMP-dependent protein kinase in rat striatum. 1562 18

Particulate guanylyl cyclase (pGC) and soluble guanylyl cyclase (sGC) are cGMP-generation systems distributed in different intracellular locations. Our aim was to test the hypothesis that the functional effects of cGMP produced by pGC and sGC on contraction and Ca2+ transients would differ in ventricular myocytes. We measured myocyte shortening from adult mice using a video edge-detector and investigated the functional changes after stimulating pGC with C-type natriuretic peptide (CNP; 10(-8) M and 10(-7) M) or sGC with S-nitroso-N-acetyl-penicillamine (SNAP; nitric oxide donor; 10(-6) M and 10(-5) M). Significant concentration-dependent decreases in percentage shortening (PCS), maximal rate of shortening (RSmax), and relaxation (RRmax) were produced by CNP. To a similar degree, SNAP concentration-dependently reduced PCS, RSmax, and RRmax. The addition of Rp-8-[(4-chlorophenyl)thio]-cGMPS triethylamine (cGMP-dependent protein kinase inhibitor; 5 x 10(-6) M) or erythro-9-(2-hydroxy-3-nonyl) adenine (cGMP-stimulated cAMP phosphodiesterase inhibitor; 10(-5) M) reduced the responses induced by CNP or SNAP, suggesting that their actions were through cGMP-mediated pathways. While SNAP significantly increased intracellular cGMP concentration by 57%, CNP had little effect on cGMP production. We also found that CNP markedly decreased the amplitude of Ca2+ transients while SNAP had little effect, suggesting the cGMP generated by sGC may decrease myofilament Ca2+ sensitivity. The small amount of cGMP generated by pGC had a major effect in reducing Ca2+ level. This study suggested the existence of compartmentalization for cGMP in ventricular myocytes.
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PMID:Differential effects of cGMP produced by soluble and particulate guanylyl cyclase on mouse ventricular myocytes. 1579 45

Previous findings from our laboratory and others indicate that two-dimensional gel electrophoresis (2-DE) can be used to study protein expression in defined brain regions, but mainly the proteins which are present in high abundance in glia are readily detected. The current study was undertaken to determine the protein profile in a synaptosomal subcellular fraction isolated from the cerebral cortex of the rat. Both 2-DE and liquid chromatography - tandem mass spectrometry (LC-MS/MS) procedures were used to isolate and identify proteins in the synaptosomal fraction and accordingly >900 proteins were detected using 2-DE; the 167 most intense gel spots were isolated and identified with matrix-assisted laser desorption/ionization - time of flight peptide mass fingerprinting or LC-MS/MS. In addition, over 200 proteins were separated and identified with the LC-MS/MS "shotgun proteomics" technique, some in post-translationally modified form. The following classes of proteins associated with synaptic function were detected: (a) proteins involved in synaptic vesicle trafficking-docking (e.g., SNAP-25, synapsin I and II, synaptotagmin I, II, and V, VAMP-2, syntaxin 1A and 1B, etc.); (b) proteins that function as transporters or receptors (e.g., excitatory amino acid transporters 1 and 2, GABA transporter 1); (c) proteins that are associated with the synaptic plasma membrane (e.g., post-synaptic density-95/synapse-associated protein-90 complex, neuromodulin (GAP-43), voltage-dependent anion-selective channel protein (VDACs), sodium-potassium ATPase subunits, alpha 2 spectrin, septin 7, etc.); and (d) proteins that mediate intracellular signaling cascades that modulate synaptic function (e.g., calmodulin, calcium-calmodulin-dependent protein kinase subunits, etc.). Other identified proteins are associated with mitochondrial or general cytosolic function. Of the two proteins identified as endoplasmic reticular, both interact with the synaptic SNARE complex to regulate vesicle trafficking. Taken together, these results suggest that the integrity of the synaptosomes was maintained during the isolation procedure and that this subcellular fractionation technique enables the enrichment of proteins associated with synaptic function. The results also suggest that this experimental approach can be used to study the differential expression of multiple proteins involved in alterations of synaptic function.
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PMID:A proteomic survey of rat cerebral cortical synaptosomes. 1585 43

Several nitric oxide (NO) effects in the cardiovascular system are mediated by soluble guanylate cyclase (sGC) activation but potassium channels (KC) are also emerging as important effectors of NO actions. We investigated the relationship among vascular smooth muscle cell proliferation, NO, cyclic GMP, and KC using the A7r5 smooth muscle cell line derived from rat aorta. NO donors (two nitrosothiols, S-nitroso-acetyl-d,l-penicillamine, SNAP, and S-nitroso-glutathione, GSNO, and an organic nitrate, glyceryl trinitrate, GTN; 1-1000 microM) dose-dependently inhibited cell proliferation. ODQ (a selective inhibitor of sGC; 0.1 and 1 microM) and KT5823 (a selective inhibitor of cGMP-dependent protein kinase, 1 microM) prevented NO effects, confirming that sGC is a key target. In this report, we show that tetraethylammonium (TEA, a non-selective blocker of KC, 300 microM), and 4-aminopyridine (a selective blocker of voltage-dependent KC, 100 microM) prevented SNAP inhibitory effects on cell proliferation, whereas glibenclamide (a selective blocker of ATP-dependent KC, 1 microM) was ineffective. Iberiotoxin (a selective blocker of high conductance calcium-activated KC, 100 nM), as well charybdotoxin (a blocker of high and intermediate conductance calcium-activated KC, 100 nM) and apamine (a selective blocker of small conductance calcium-activated KC, 100 nM), blocked the antiproliferative effect induced by SNAP. NS1619 (an opener of high conductance calcium-activated KC, 1-100 microM), inhibited cell proliferation. In addition, sub-effective concentrations of ODQ (100 nM) and TEA (10 microM) synergized in blocking SNAP antiproliferative effects. Thus, voltage-dependent and calcium-activated but not ATP-dependent KC appear to have a prominent role, besides sGC activation, in NO-induced inhibition of vascular smooth muscle cell proliferation.
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PMID:Multiple potassium channels mediate nitric oxide-induced inhibition of rat vascular smooth muscle cell proliferation. 1599 34

Lack of endothelial nitric oxide synthase (eNOS) may affect the sensitivity of cyclic GMP signaling through soluble guanylyl cyclase (sGC). We hypothesized that in eNOS knockout (eNOS-/-) mice, stimulation of guanylyl cyclase would have enhanced effects inhibiting cardiac contraction. We measured cell shortening and calcium transients in isolated ventricular myocytes from adult eNOS-/- and wild-type (WT) mice after stimulating particulate guanylyl cyclase (pGC) with C-type natriuretic peptide (CNP, 10(-8) and 10(-7) M) or sGC with S-nitroso-N-acetyl-penicillamine (SNAP, NO donor, 10(-6) and 10(-5) M). Although sGC activity was increased by +71% in eNOS-/-, SNAP had similar effects in the two groups (%shortening -39% control vs. -37% eNOS-/-), suggesting that the cyclic GMP pathway was desensitized in eNOS-/- myocytes. CNP had significantly smaller effects on cell contraction (%shortening -34% control vs. -14% eNOS-/-) and pGC activity was not changed in eNOS-/- myocytes. Similar effects were also produced by guanylin and carbon monoxide, stimulators of pGC and sGC. CNP's effects on Ca(2+) transients were also attenuated in eNOS-/- myocytes. SNAP did not alter Ca(2+) transients in eNOS-/- or control cells. In the eNOS-/- mice, cyclic GMP-dependent protein kinase and cyclic AMP phosphodiesterase activity were reduced. This study demonstrated that the downstream cyclic GMP pathway was attenuated in eNOS-/- mice and this was partially compensated for by increased sGC, but not pGC activity in ventricular myocytes.
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PMID:Alterations in ventricular myocyte contraction caused by C-type natriuretic peptide and nitric oxide in eNOS-/- mice. 1623 10


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