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: CAS:7440-70-2 (calcium)
333,191 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

cGMP-dependent protein kinase from bovine lung has been purified to homogeneity using 8-(2-aminoethyl)-amino adenosine 3':5'-monophosphate/Sepharose. Conditions for adsorption of holoenzyme to the affinity chromatography media followed by competitive ligand elution with cGMP have been determined. The holoenzyme of 150,000 molecular weight is composed of two 74,000 molecular weight subunits which are linked in part by disulfide bridges. Two moles of cGMP are bound per mol of holoenzyme compatible with 1 mol of cGMP/monomer. Dissociation of subunits does not occur upon cGMP binding and protein kinase activation. cGMP-dependent protein kinase has an isoelectric point of 5.4 and a Stokes radius of 50 A. The enzyme is asymmetric with an f/f0 of 1.42 and an axial ratio of 7.4. Determination of enzyme activity at varying concentrations of ATP revealed that cGMP increased the Vmax for ATP without significant effect on the Km. The purified enzyme was maximally active at 5 mM Mg2+; other divalent cations could not substitute for Mg2+. In the presence of Mg2+, strong inhibitory effects of other cations were observed with Mn2+, greater than Zn2+, greater than Co2+ greater than Ca2+. Although maximal cGMP-dependence was observed at pH 5.7 to 7.0, basal activity rose at higher pH values to approach activity observed with cGMP. A molecular model comparing cGMP-dependent protein kinase with cAMP-dependnet protein kinase is presented.
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PMID:Guanosine 3':5'-monophosphate-dependent protein kinase from bovine lung. Subunit structure and characterization of the purified enzyme. 19 91

The heat-stable protein (protein kinase modulator), partially purified from fresh bovine heart, possessed the ability to inhibit and stimulate adenosine 3':5'-monophosphate (cAMP)-dependent protein kinase and guanosine 3':5'-monophosphate (cGMP)-dependent protein kinase activities, respectively. The inhibitory activity of protein kinase modulator on cAMP-dependent protein kinase was abolished almost completely by trypsin treatment, while the ability to stimulate cGMP-dependent protein kinase activity was resistant to trypsin. Fractionation by a linear potassium phosphate gradient on DEAE-cellulose column did not clearly separate both activities. Phosphorylation of cardiac microsomal component, "phospholamban" (molecular weight = 22,000), was inhibited almost completely by the saturating amounts of protein kinase modulator. This inhibition of phospholamban phosphorylation by protein kinase modulator was accompanied by a decreased Ca uptake rate that had been stimulated by cAMP-dependent protein kinase. These findings indicate that protein kinase modulator is functional in controlling the cAMP-dependent protein kinase-catalyzed phosphorylation of phospholamban and the rate of calcium transport, lending further support for the previously proposed mechanism, in which phospholamban is assumed to serve as a regulator of calcium transport in cardiac sarcoplasmic reticulum.
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PMID:Effect of protein kinase modulator on cAMP-dependent protein kinase-catalyzed phosphorylation of phospholamban and stimulation of calcium transport in cardiac sarcoplasmic reticulum. 20 86

The response of the Na efflux in unpoisoned barnacle fibers to 10 mM theophylline is biphasic; i.e., inhibition is followed by stimulation. The stimulatory response is unaffected by ouabain. Fibers pretreated with ouabain show no transitory inhibition when 10 mM theophylline is applied, but show prompt stimulation the magnitude of which is comparable to that observed with unpoisoned fibers. The same holds true for lower concentrations of theophylline. Prior injection of 500 mM EGTA completely abolishes the biphasic action of 10 mM theophylline. External application of 10 mM theophylline following removal of external Ca2+ fails to bring about a biphasic effect. Ca2+ restoration, however, results in a moderate rise in the Na efflux. External application of 10 mM theophylline stimulates the Na efflux into Ca2+-free artificial seawater (ASW) when the test fibers are pretreated with ouabain. Injection of the protein inhibitor of Walsh leads to reduced stimulation by 10 mM theophylline of the Na efflux in unpoisoned fibers. Injection of the protein inhibitor of Corbin into unpoisoned fibers leads to reduced stimulation by 10 mM theophylline. Injection of cAMP into ouabain-poisoned fibers, following internal application of Corbin's inhibitor and external application of 10 mM theophylline, fails to cause a marked rise in the ouabain-insensitive Na efflux. Injection of Corbin's inhibitor into ouabain-poisoned fibers, following the onset of peak stimulation by 10 mM theophylline, fails to reduce the Na efflux. Fibers injected with 1 mM and 100 mM EGTA and exposed to 10 mM theophylline show a marked reduction in the response of the ouabain-insensitive Na efflux to injected cAMP when the concentration of theophylline is 10 mM. A poor response to injected cAMP is also seen in fibers bathed in Ca-free ASW containing 10 mM theophylline. Theophylline (10 mM) fails to cause an enhanced stimulation of the ouabain-insensitive Na efflux into Ca-free 3 mM-HEPES ASW or 10 mM-Ca2+ -3mM-HEPES ASW following the addition of protons to the bathing medium. An enhanced response is similarly not observed with injected cAMP following the addition of theophylline to the bathing medium. Injection of 8-fluorotheophylline, 3-isobutyl-1-methylxanthine and doxantrazole leads to a marked reduction in the response of the ouabain-insensitive Na efflux to injected cAMP. Contraction always takes place upon injecting these substances. These results are in keeping with the theory that theophylline acts chiefly by reducing myoplasmic pCa(pCa=-log10[Ca2+]), and that a reduced pCa leads to stimulation of the ouabain-insensitive Na efflux as the result of activation of the cGMP-dependent protein kinase system by newly formed cGMP.
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PMID:Mode of action of theophylline on sodium efflux in barnacle muscle fibers. 20 85

Most platelet agonists activate and elevate the cytosolic free calcium concentration in human platelets through receptor-dependent mechanisms that are antagonized by cAMP- and cGMP-elevating agents. Nitrovasodilators such as nitroprusside and endothelium-derived relaxing factor are potent cGMP-elevating platelet inhibitors. In the present study, the role of cGMP and cGMP-dependent protein kinase in nitrovasodilator inhibition of ADP- and thrombin-evoked calcium elevation and activation of human platelets was investigated. Preincubation of platelets with 8-(4-chlorophenylthio)guanosine 3',5'-cyclic monophosphate (8-pCPT-cGMP; a membrane-permeant selective activator of the cGMP-dependent protein kinase that does not significantly affect cGMP-regulated phosphodiesterases) inhibited the thrombin-induced phosphorylation mediated by myosin light chain kinase and protein kinase C. Nitrovasodilator-induced protein phosphorylation in human platelets was distinct from that induced by cAMP-elevating prostaglandins and could be mimicked by 8-pCPT-cGMP. Preincubation of human platelets with nitrovasodilators or 8-pCPT-cGMP inhibited the ADP- and thrombin-evoked calcium elevation in the presence and absence of external calcium. Nitrovasodilators and 8-pCPT-cGMP also inhibited the agonist-induced Mn2+ influx, but stopped-flow experiments indicated that the ADP receptor-operated cation channel was not significantly inhibited. These results suggest that in human platelets nitrovasodilators inhibit the agonist-induced calcium mobilization from intracellular stores and the secondary store-related calcium influx but not the ADP receptor-operated cation channel. The results also suggest that these nitrovasodilator effects are mediated by cGMP and the cGMP-dependent protein kinase.
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PMID:Role of cGMP and cGMP-dependent protein kinase in nitrovasodilator inhibition of agonist-evoked calcium elevation in human platelets. 131 May 37

Prior to confluence, cultures of Madin Darby canine kidney (MDCK) cells expressed gap junctional communication, as assessed by fluorescent dye transfer, as well as relatively high levels of an anti-connexin43 immunoreactive component referred to as connexin43 (Cx43). After confluence, dye coupling and levels of Cx43 were dramatically reduced. Immunofluorescence analysis of the distribution of Cx43 in subconfluent cultures showed punctate labeling on the plasma membrane at regions of cell apposition and a more diffuse labeling in perinuclear regions. Western blots of total cell homogenates showed that the dephosphorylated form of Cx43 was more abundant than the phosphorylated forms. Phosphorylation of Cx43 was not significantly affected by 8-Bromo-cAMP or 8-Bromo-cGMP. However, 12-O-tetradecanoylphorbol-13-acetate (TPA) inhibited dye coupling and induced an increase in the amount of phosphorylated forms of Cx43 at the expense of the dephosphorylated form. This effect occurred as rapidly as 5 min after TPA treatment without apparent changes in distribution of Cx43 or cell morphology. These results suggest that second messenger pathways involving protein kinase C, but not cAMP- or cGMP-dependent protein kinase, led to changes in electrophoretic mobility of Cx43, revealed by Western blot, consistent with an alteration in the state of phosphorylation of the gap junction protein. Treatments with staurosporine, a protein kinase inhibitor, or okadaic acid, a protein phosphatase inhibitor, either alone or in combination with TPA, indicated that the abundance of the dephosphorylated form of Cx43 in MDCK cells was due to low kinase activity. It was also found that lowering the concentration of extracellular Ca2+, which reduced cell contact, did not affect the abundance, the state of phosphorylation, or the TPA-induced phosphorylation of Cx43. These results suggest that neither extracellular Ca2+ nor cell contact is required for basal or TPA-induced phosphorylation of Cx43.
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PMID:Connexin43 in MDCK cells: regulation by a tumor-promoting phorbol ester and Ca2+. 132 99

To clarify whether protein kinase is associated with glucocorticoid-induced Ca2+ influx into vascular smooth muscle cells, we investigated the effects of protein kinase inhibitors on dexamethasone-induced 45Ca2+ uptake and dihydropyridine binding in A7r5 cells. Protein kinase C inhibitors (staurosporine and UCN-01) abolished the dexamethasone-induced 45Ca2+ uptake and [methyl-3H]PN 200-110 binding. In contrast, KT5720 and KT5823, which are more specific inhibitors of cAMP-dependent protein kinase and cGMP-dependent protein kinase, respectively, did not affect the effects of dexamethasone. Treatment with 100 nM dexamethasone for 48 hours increased protein kinase C activity in A7r5 cells. These results suggest that glucocorticoids increase Ca2+ influx through dihydropyridine-sensitive channels, linked to activation of protein kinase C in vascular smooth muscle cells.
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PMID:Glucocorticoids increase Ca2+ influx through dihydropyridine-sensitive channels linked to activation of protein kinase C in vascular smooth muscle cells. 133 8

Effects of cGMP on the slow (L-type) Ca2+ channels of cultured chick embryonic cardiomyocytes were investigated by a cell-attached patch-clamp method. Superfusion of the single cells with 8-bromo-cGMP, a membrane-permeable derivative of cGMP, inhibited the single-channel activity. The cyclic nucleotide decreased, in a concentration-dependent manner, the ensemble averaged currents obtained from multichannel patches. 8-Bromo-cGMP (1 mM) completely abolished the currents (n = 8), whereas 0.1 mM only slightly decreased the currents (n = 4). The influence of cGMP on the characteristics of the single Ca2+ channels was examined using 0.3 mM 8-bromo-cGMP. Unit amplitude and slope conductance of the Ca2+ channel was not changed (25 pS in control versus 24 pS in the presence of cGMP). Analysis of single-channel kinetics showed that cGMP prolonged the slow time constant for the closed-time histogram (from 6.7 to 15.4 msec); the other time constants (for the open-time and closed-time histograms) were not affected. cGMP-induced inhibition of the Ca2+ channels may be mediated by cGMP-dependent protein kinase, because 8-bromo-cGMP is a potent activator of this protein kinase and does not stimulate cAMP hydrolysis. The present results suggest that cGMP opposes the effects of cAMP on the L-type Ca2+ channels in myocardial cells.
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PMID:cGMP inhibits the activity of single calcium channels in embryonic chick heart cells. 165 Feb 95

The Ca(2+)-pump ATPases of the plasma membrane and of the endoplasmic reticulum play an important role in controlling the intracellular Ca(2+)-concentration. In this perspective it is not unexpected that these enzymes are modulated by different factors. The activity of the plasmalemmal (Ca2+ +Mg2+)ATPase is modified by the amount of negatively charged phospholipids surrounding the enzyme. Some evidence is presented indicating that in stomach and myometrium smooth muscle agonists inhibit the extrusion of Ca2+ by reducing the negatively charged phospholipids surrounding the plasmalemmal Ca(2+)-pump, while c-GMP dependent protein kinase would activate this Ca(2+)-pump by increasing this amount. The regulation of the Ca(2+)-pump of the endoplasmic reticulum depends on the phosphorylation of phospholamban by cAMP- and cGMP-dependent protein kinase. In the second part of this review, the heterogeneity of the intracellular Ca2+ compartments and a possible connection between the intracellular compartment and the extracellular solution are discussed. In addition, some data on the regulation of Ca2+ inside the nucleus are presented.
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PMID:Ca(2+)-transport ATPases and Ca(2+)-compartments in smooth muscle cells. 166 64

1. Effects of cyclic GMP on L-type Ca2+ current (ICa) were investigated in myocytes isolated from guinea-pig ventricles using the patch clamp method in the whole-cell configuration combined with intracellular perfusion. 2. When ICa was increased by bath application of isoprenaline (0.001-0.1 microM) or forskolin (0.5-1 microM), or by intracellular dialysis with cyclic AMP (50-100 microM), dialysis with 10 microM-cyclic GMP resulted in an additional stimulation of ICa. Without these pre-treatments, cyclic GMP (1-100 microM) had no effect on the basal ICa. 5'-GMP was without effect. 3. The stimulatory effect of cyclic GMP was observed at concentrations higher than 0.1 microM with a maximum at around 10 microM in the pipette. The dose-response relation between isoprenaline and ICa was shifted to the left by (10 microM) cyclic GMP; the half-maximum isoprenaline concentration shifted from 16 to 4.6 nM. 4. The increase of ICa on dialysing 50 microM-cyclic AMP varied from cell to cell, probably due to a difference in phosphodiesterase activity. The cells responding weakly to cyclic AMP showed a greater response to cyclic GMP, and vice versa. In cells dialysed with hydrolysis-resistant derivatives (10-50 microM-8-(4-chlorophenylthio)-cyclic AMP or 50 microM-8-bromo-cyclic AMP), additional dialysis with cyclic GMP failed to modify ICa. Dialysis with cyclic GMP abolished the stimulatory effect of milrinone, a specific inhibitor of cyclic GMP-inhibited phosphodiesterase. These findings suggested that inhibition of cyclic GMP-sensitive phosphodiesterase was responsible for the stimulatory effect of cyclic GMP. 5. In the presence of isoprenaline, direct application of an active fragment of cyclic GMP-dependent protein kinase (PKG) failed to modify ICa in most cells. Activation of native PKG by intracellular dialysis with 8-bromo-cyclic GMP, or higher concentrations of cyclic GMP (100-1000 microM), depressed ICa in about 25% of the cells. Furthermore, dialysis of cyclic GMP reversed the increase of ICa by the non-specific phosphodiesterase inhibitor, 3-isobutyl-1-methyl-xanthine (IBMX). These findings suggested the presence of antagonistic mechanisms of cyclic GMP, which are independent from the above synergistic action. PKG may be involved in this antagonistic effect.
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PMID:Potentiation by cyclic GMP of beta-adrenergic effect on Ca2+ current in guinea-pig ventricular cells. 166 41

A survey of the available literature leads to the conclusion that the most probable mechanism by which nitrovasodilators act, is by nitric oxide (NO) formation. This by itself or by formation of a nitrosothiol (e.g. nitroscocysteine) activates guanylyl cyclase which increases the production of cyclic guanosine monophosphate (cGMP). Endothelium-derived relaxing factor (EDRF), which later turned out to be or to form NO, relaxes smooth muscle by stimulating cGMP formation. The effect of cGMP is mediated by a cGMP-dependent protein kinase and causes a reduction in the intracellular concentration of free Ca2+ ions in the smooth muscle cell. The precise mechanism of this effect is not completely clear but sequestration into sarcoplasmatic reticulum seems to play a major role. In order to identify the nature of the endogenous stimulator of guanylyl cyclase, i.e. to decide whether it is a nitrosothiol or the free radical NO, we compared the effects of NO, nitrosocysteine and nitrosoglutathione on vascular relaxation and increases in cGMP levels in isolated bovine circular strips and on guanylyl cyclase activity in vitro. Induction of tolerance and of cross-tolerance between various NO donors was also investigated. Nitrosodium and nitrosoglutathione augmented cGMP and relaxed vascular smooth muscle slightly more powerfully than NO. The three agents induced slight tolerance after repeated administration without affecting cGMP rises or desensitizing guanylyl cyclase. Pretreatment of coronary strips with nitrosoglutathione caused largely similar cross-tolerance as did NO against nitroglycerin, SIN-1 and sodium nitroprusside. The similarities to NO characterize nitrosocysteine as its most likely precursor, e.g. as EDRF.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cellular mechanisms of action of therapeutic nitric oxide donors. 179 Jul 79


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