Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tryptic bovine brain calmodulin fragments 1-77 or 1-106 reactivated La-inactivated ciliary guanylate cyclase from Paramecium dose-dependently up to 60%. They were 20-fold less potent compared to bovine brain calmodulin. Fragment 78-148 was even less active. Concomitant addition of fragments 1-77 and 78-148 had no additive effect. Genetically engineered calmodulin lacking a blocked amino terminus and trimethyllysine at position 115 reactivated La-treated guanylate cyclase as good as bovine brain calmodulin. After detergent solubilization of La-inactivated guanylate cyclase intact bovine brain calmodulin and calmodulin fragments 1-77 and 78-148 were equipotent. 80% Reactivation was obtained with 40 microM of either fragment.
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PMID:Effect of tryptic calmodulin fragments on guanylate cyclase activity from Paramecium tetraurelia. 288 41

Both soluble and particulate forms of human platelet guanylate cyclase were found to be sensitive to sub-micromolar concentrations of free Ca2+; soluble enzyme activity increased as Ca2+ was increased from 10 nM to 1 microM; particulate enzyme activity showed a biphasic response to Ca2+, with maximal enzyme activity between 1 and 10 nM free Ca2+ and inhibition occurring at higher Ca2+ concentrations. Neither Ca2+-sensitivity appeared to be calmodulin-dependent.
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PMID:Investigation of the role of Ca2+ and calmodulin in the regulation of platelet guanylate cyclase activity. 288 92

In the ciliated protozoan Paramecium, Ca2+ and cyclic nucleotides are believed to act as second messengers in the regulation of the ciliary beat. Ciliary adenylate cyclase was activated 20-30-fold (half-maximal at 0.8 microM) and inhibited by higher concentrations (10-20 microM) of free Ca2+ ion. Ca2+ activation was the result of an increase in Vmax., not a change in Km for ATP. The activation by Ca2+ was seen only with Mg2+ATP as substrate; with Mn2+ATP the basal adenylate cyclase activity was 10-20-fold above that with Mg2+ATP, and there was no further activation by Ca2+. The stimulation by Ca2+ of the enzyme in cilia and ciliary membranes was blocked by the calmodulin antagonists calmidazolium (half-inhibition at 5 microM), trifluoperazine (70 microM) and W-7 (50-100 microM). When ciliary membranes (which contained most of the ciliary adenylate cyclase) were prepared in the presence of Ca2+, their adenylate cyclase was insensitive to Ca2+ in the assay. However, the inclusion of EGTA in buffers used for fractionation of cilia resulted in full retention of Ca2+-sensitivity by the ciliary membrane adenylate cyclase. The membrane-active agent saponin specifically suppressed the Ca2+-dependent adenylate cyclase without inhibiting basal activity with Mg2+ATP or Mn2+ATP. The ciliary adenylate cyclase was shown to be distinct from the Ca2+-dependent guanylate cyclase; the two activities had different kinetic parameters and different responses to added calmodulin and calmodulin antagonists. Our results suggest that Ca2+ influx through the voltage-sensitive Ca2+ channels in the ciliary membrane may influence intraciliary cyclic AMP concentrations by regulating adenylate cyclase.
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PMID:Regulation of ciliary adenylate cyclase by Ca2+ in Paramecium. 289 52

The present study examined changes in the levels of plasma catecholamines and myocardial histamine, guanylate cyclase activity, cyclic nucleotides, calcium, calmodulin, and norepinephrine following chronic administration of doxorubicin (DXR). In addition, changes in myocardial alpha 1-adrenergic receptor density and dissociation constant were measured. Rats received DXR (2 mg/kg) or vehicle weekly by the SC route for 2, 4, 8, and 13 weeks. Rats were sacrificed one week after their last dose. One group of rats treated for 13 weeks was sacrificed at 19 weeks, six weeks after the last dose. Heart histamine was unchanged at 3, 5, 9, and 19 weeks, yet at 14 weeks it was significantly elevated in DXR-treated rats over controls. Cardiac calcium, norepinephrine, and cyclic GMP levels were unchanged throughout the course of the study. Cardiac cAMP and calmodulin levels were unchanged at 3, 5, 9, and 14 weeks. At 19 weeks in DXR-treated rats, cAMP was depressed while calmodulin was elevated. Plasma catecholamines and myocardial guanylate cyclase activity examined at 14 weeks were unchanged. In contrast, alpha 1 receptor density examined at 14 weeks in DXR-treated rats was significantly depressed while the dissociation constant was unchanged. Changes in cAMP and calmodulin are suggestive of a redistribution of calcium, although total levels of calcium were unchanged. The depression of cAMP indicates damage to the membrane bound enzyme, adenylate cyclase, and that the membrane interaction of doxorubicin appears to be an integral part of the biochemical mechanism of its toxicity.
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PMID:Effects of chronic administration of doxorubicin on myocardial alpha-adrenergic receptors, histamine, cyclic nucleotides, calcium, norepinephrine, calmodulin, and guanylate cyclase activity, and plasma catecholamines in rats. 289 92

The biochemical events initiated by mitogen in T lymphocytes are the subject of this paper. Following interaction of the mitogen with its receptors, a transmembrane 'trigger-type' signal is propagated which has both positive and negative correlates. The negative signal occurs with high mitogen concentrations and is associated with membrane freezing, microtubular aggregation, receptor capping, adenylate cyclase activation, and cellular cyclic AMP increases. The positive signal occurs with optimal mitogen concentrations and is associated with changes in membrane permeability and transport with influx of calcium and potassium ion and efflux of sodium, in transport processes for glucose, amino acids, and nucleosides, and in a collected series of early membrane lipid changes which can be considered essential for the positive signal. These lipid changes include the uptake of arachidonic acid and other fatty acids, choline, phosphate and other molecules, their incorporation into membrane phospholipids, particularly phosphatidylinositol (PI), and a turnover of PI with the production of inositol triphosphate, which can be related to calcium mobilization and diacylglycerol which activates a cytoplasmic protein kinase C. A key event associated with mitogen action is arachidonic acid release. Arachidonic acid may give rise to prostaglandins and thromboxanes as part of negative components of the signal through effects on the adenylate cyclase/cyclic AMP system. Arachidonic acid gives rise to eicosanoids like 5-, 11-, possibly 12- and 15-hydroxyperoxy and hydroxy eicosatetraenoic acids and leukotrienes B4 and C4. The activation of the 5-lipoxygenase, a critical calcium-dependent step, leads via the production of 5-HPETE and 5-HETE to the activation of membrane and soluble guanylate cyclase and the production of cyclic GMP. Cyclic GMP appears to be essential for mitogen activation and is associated with cyclic GMP-dependent protein kinase activation and the phosphorylation of a number of substrates. Calcium ion influx is clearly central to mitogen action. Calcium through its influx and mobilization from cellular stores is thought to contribute directly and indirectly through the action of calmodulin and protein kinase C to the activation of a number of enzymatic processes involved in the positive signal including phospholipase C, diglyceride kinase and lipase, 5-lipoxygenase, and guanylate cyclase. Cyclic GMP and calcium ion both participate in nuclear processes leading to RNA and protein synthesis. Interleukin 2 is associated with midcycle increases in cyclic GMP and entry into DNA synthesis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Transduction of signals in the activation of T lymphocytes: relation to leukemia. 304 Mar 20

We investigated the effects of fendiline, calmidazolium and trifluoperazine, compounds described as calmodulin antagonists, on the release of the endothelial autacoids prostacyclin (PGI2) and endothelium-derived relaxant factor (EDRF). Cultured bovine aortic endothelial cells were grown on microcarrier beads and continuously superfused with Tyrode's solution. Samples collected from the superfusate were assayed for PGI2 concentration (6-keto PGF1 alpha radioimmunoassay) and for EDRF activity (stimulation of soluble guanylate cyclase in vitro). Stimulation of endothelial cells by ATP (3 microM) resulted in a 6.9 +/- 1.4-fold increase of PGI2 concentration in the superfusate (p less than 0.01) and an 8.6 +/- 3.4-fold enhanced guanylate cyclase activity (p less than 0.01). In the presence of calmidazolium (10 microM), the basal values of PGI2 concentration increased 28-fold (p less than 0.01) and the guanylate cyclase activity 10-fold (p less than 0.01). Further enhancement of both was observed after additional administration of ATP. Fendiline (30 microM) did not affect autacoid release by non-stimulated cells. However, the ATP-induced release of PGI2 and EDRF was more than doubled (p less than 0.01) in the presence of this drug compared to ATP-stimulation alone. Trifluoperazine (10 microM) had no enhancing effect on EDRF release, and the ATP-induced release of PGI2 was even significantly attenuated by 84 +/- 12% (p less than 0.01). Calmidazolium and fendiline were also applied to endothelial cells loaded with the fluorescent indicator of free calcium concentration (Ca2i+), indo-1. However, effects of calmidazolium on Ca2i+ could not be quantified since calmidazolium caused some leakage of indo-1 out of the cells. A smaller leakage was observed during the combined application of fendiline and ATP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Fendiline and calmidazolium enhance the release of endothelium-derived relaxant factor and of prostacyclin from cultured endothelial cells. 328 26

Tetrahymena calmodulin radioiodinated with a lactoperoxidase method retained full ability to activate Tetrahymena guanylate cyclase. Binding of [125I]calmodulin to Tetrahymena microsomal membranes was Ca2+-dependent and inhibited by excess unlabeled calmodulin or trifluoperazine. When Triton X-100-solubilized microsomes were chromatographed on calmodulin Sepharose, several proteins were found to interact with calmodulin in a Ca2+-dependent manner.
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PMID:Calmodulin-binding proteins of Tetrahymena microsomal membranes. 393 57

Previously, the guanylate cyclase activity of Tetrahymena pyriformis was shown to be activated by an endogenous modulator (calmodulin)-like protein (Na-gao, S., Suzuki, Y., Watanabe, Y., and Nozawa, Y. (1979) Biochem. Biophys. Res. Commun. 90, 261-268). This protein has now been identified as the modulator protein. The identification was based on the capability of this protein to activate the brain modulator-deficient phosphodiesterase and the mobility of this protein upon polyacrylamide gel electrophoresis. The activation of guanylate cyclase was specifically attributable to the Tetrahymena modulator protein since other modulator proteins examined (bovine brain, sea anemone, and scallop) were ineffective. Under the conditions where the activation of Tetrahymena guanylate cyclase occurred, guanylate cyclase activities from other sources, that include rat brain, rat lung, and human platelet, were not affected. In the phosphodiesterase activation, the potencies of scallop and Tetrahymena modulator proteins, which are represented by reciprocals of the quantities of proteins required for half-maximal activation of enzyme, were 66% and 55%, respectively, of that of the brain protein. The same decreasing order was seen for the affinity of these proteins for Ca2+ in enzyme activation. The results suggest a directional change of the modulator protein during the molecular evolution toward an increase in the capability in Ca2+-dependent enzyme activation.
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PMID:Ca2+-dependent modulator proteins from Tetrahymena pyriformis, sea anemone, and scallop and guanylate cyclase activation. 610 50

We previously isolated a Ca2+-binding protein from a ciliate, Tetrahymena, and designated it as TCBP (Tetrahymena Ca2+-binding protein). The present paper reports that TCBP, which has two high affinity Ca2+-binding sites (Kd=4.6 X 10(-6) M), could activate porcine brain cyclic nucleotide phosphodiesterase at a concentration of over 10(-6) M free Ca2+, with the same mode of activation as that of authentic (porcine brain) calmodulin. In addition, the amino acid composition of TCBP was essentially the same as that of brain calmodulin. Therefore, we conclude that TCBP as an activator of Tetrahymena guanylate cyclase is indeed a calmodulin.
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PMID:Tetrahymena calcium-binding protein is indeed a calmodulin. 611 60

In neurosecretosomes, isolated from ox neurohypophyses, both guanylate and adenylate cyclase activity was shown to be predominantly membrane-bound. Membrane-bound adenylate cyclase was inhibited by increasing the ionized calcium concentration from 10(-7) M to 10(-5) M, but was stimulated by calmodulin in the presence of 10(-7) M and 10(-5) M ionized calcium. In contrast, neither calcium ions nor calmodulin affected the activity of membrane-bound guanylate cyclase. Soluble cyclic AMP and cyclic GMP phosphodiesterase activities increased with increasing ionized calcium concentration (10(-7) M to 10(-3) M). At 10(-7) M ionized calcium concentration, both soluble phosphodiesterase activities were stimulated by calmodulin. Both the membrane-bound phosphodiesterase activities were inhibited by a high ionized calcium concentration (10(-3) M) and not affected by calmodulin.
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PMID:Effects of Ca2+ and calmodulin on cyclic nucleotide metabolism in neurosecretosomes isolated from ox neurohypophyses. 611 72


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