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)

Receptor-mediated regulation of guanylate cyclase is well-studied in intact Dictyostelium discoideum cells, but study of the enzyme in cell-free preparations has hampered. A major obstacle has been that in vitro guanylate cyclase activity could be detected only in the presence of unphysiological concentrations of Mn2+-ions. In this paper we report the identification of a guanylate cyclase in D.discoideum cell homogenates that has high activity with Mg2+-GTP. The enzyme is activated by non-hydrolyzable ATP and GTP analogues and inhibited by submicromolar concentrations of Ca2+-ions. We suggest that the presently identified enzyme is regulated in intact cells via cell surface receptors. The compounds that modulated the enzyme activity in vitro may reflect physiologically relevant regulation mechanisms.
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PMID:A magnesium-dependent guanylate cyclase in cell-free preparations of Dictyostelium discoideum. 289 90

Ca2+-regulated guanylate cyclase in ciliary membranes from Paramecium contained tightly bound calmodulin. Antisera against calmodulin from Tetrahymena and soybean inhibited enzyme activity. EGTA did not easily release calmodulin; however, La3+ inhibited guanylate cyclase by dissociation of calmodulin. While La could not replace Ca in the activation of guanylate cyclase, it substituted for Ca2+ in the activation of calmodulin-dependent phosphodiesterase from pig brain independently of whether homologous or Paramecium calmodulin was used. After removal of endogenous calmodulin from guanylate cyclase, reconstitution was achieved with calmodulin from Paramecium, Tetrahymena, pig brain, and soybean. Ca2+-binding proteins lacking trimethyllysine like calmodulin from Dictyostelium, parvalbumin, and troponin C failed to restore enzyme activity. The properties of the native and reconstituted guanylate cyclase/calmodulin complex were compared. Reassociation of calmodulin with its target enzyme was weak since all calmodulin remained in the supernatant after a single centrifugation. While most enzyme characteristics remained unchanged in the reconstituted complex, the inhibition by Ca greater than 100 microM was of a mixed-type compared to noncompetitive inhibition in the native enzyme. The regulation of the enzyme by cations was also altered. Whereas Ca was the most potent and specific activator of the native enzyme, in the reconstituted system Sr was far more effective.
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PMID:Calcium/calmodulin-regulated guanylate cyclase of the excitable ciliary membrane from Paramecium. Dissociation of calmodulin by La3+: calmodulin specificity and properties of the reconstituted guanylate cyclase. 613 52

A guanylate cyclase of high specific activity was localized in the ciliary membrane from Tetrahymena pyriformis. Purity of cilia was checked by electron microscopy and purity of membrane fractions isolated by a sucrose density gradient by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. Enzyme activity was due to the presence of endogenous calmodulin as evidenced by the inhibition of guanylate cyclase by addition of antiserum against calmodulin from Tetrahymena or soybean. Removal of endogenous calmodulin by La3+-treatment of ciliary membranes resulted in loss of guanylate cyclase activity. In addition to protozoan calmodulins, the original activity could also be restored by the nonhomologous calmodulins from soybean and pig brain but not by calcium-binding proteins like Dictyostelium calmodulin, parvalbumin, and troponin C, lacking the trimethyllysine characteristic for mammalian calmodulins. However, only calmodulins from the protozoans Tetrahymena and Paramecium stimulated guanylate cyclase activity in excess of the initial activity. This indicates that the guanylate cyclase either contains two binding sites for calmodulin with different specificities or that a single, but only partially occupied binding site is modified possibly by hydrolytic exo-proteases during membrane preparation. The ciliary membrane from Tetrahymena contains a discrete calcium-permeability as demonstrated by calcium-flux measurements using the calcium indicator dye arsenazo III. In analogy to the excitable ciliary membrane of the larger relative Paramecium, the ciliary membrane of Tetrahymena may thus carry the voltage-sensitive calcium-channels known from electrophysiological studies.
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PMID:Calcium/calmodulin-regulated guanylate cyclase and calcium-permeability in the ciliary membrane from Tetrahymena. 614 Jan 65

Observations on the properties of the guanylate cyclase (GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2) of the social amoeba Dictyostelium discoideum are reported. On the basis of similarities in kinetic and fractionation properties, it is shown that the activity from vegetative cells and the sixfold higher activity from starved cells appear to be due to the same enzyme. Most of the activity is found to be soluble, and by gel exclusion chromatography a molecular weight of 250,000 has been estimated for this form. As the enzyme shows considerably more activity with Mn+2 than Mg+2, the Km for Mn+2 activation was determined (700 microM), and compared to the levels of total cell Mn+2 (10 microM) and Mg+2 (3mM). These data suggest that Mg+2 is probably the physiological cofactor. A previous report [J. M. Mato, (1979) Biochem. Biophys. Res. Commun. 88, 569-574] that the enzyme is activated about twofold by ATP was confirmed; but contrary to that report, activation by the ATP analog 5'-adenylyl-imidodiphosphate was also obtained. Since this analog does not donate its phosphate in kinase reactions, it is likely that ATP activates the guanylate cyclase by direct binding rather than by phosphorylation. The known in vivo agonist of the guanylate cyclase, cAMP, did not activate the enzyme in vitro, either alone or in various combinations with calcium, calmodulin, ATP, and phospholipids.
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PMID:Studies of the guanylate cyclase of the social amoeba Dictyostelium discoideum. 614 95

In Dictyostelium discoideum, the chemoattractant cyclic AMP activates the enzyme guanylate cyclase, giving a brief up to 10-fold increase in the intracellular cyclic GMP content. The addition of physiological cyclic GMP concentrations to a homogenate of D. discoideum cells markedly increased the incorporation of the 3H-labeled methyl group from S-adenosyl-L-[methyl-3H]methionine into mono- and dimethylated phosphatidylethanolamine and phosphatidylcholine. Lipid methylation was inhibited by S-adenosyl-L-homocysteine, which inhibits transmethylation. When whole cells prelabeled with L-[methyl-3H]methionine were exposed to cyclic AMP, a rapid transient increase in the amount of [methyl-3H]phosphatidylcholine was observed. The time course of [methyl-3H]phosphatidylcholine formation agrees with its being mediated by the intracellular increase in cyclic GMP originating during chemotactic stimulation. Addition of the 8-Br derivative of cyclic GMP to whole cells also increased the levels of labeled phosphatidylcholine. It is therefore likely that cyclic GMP contributes to chemotaxis by regulating membrane function via phospholipid methylation.
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PMID:Regulation by guanosine 3':5'-cyclic monophosphate of phospholipid methylation during chemotaxis in Dictyostelium discoideum. 626 Dec 33

We analyze the conditions under which sustained oscillations develop in a biochemical system regulated autocatalytically by reversible, covalent enzyme modification. The analysis applies, for example, to the situation where adenylate cyclase (or guanylate cyclase) is activated through phosphorylation by a cAMP (or cGMP)-dependent protein kinase. The model then provides a non-allosteric mechanism for the periodic generation of cAMP or cGMP pulses. For certain parameter values close to those that produce oscillations, the system is excitable since it can amplify in a pulsatory manner suprathreshold perturbations. The results on excitable and oscillatory behavior are discussed in relation with the mechanism of cAMP relay and oscillation in the slime mold Dictyostelium discoideum.
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PMID:Metabolic oscillations in biochemical systems controlled by covalent enzyme modification. 626 42

Chemotactic stimulation of post-vegetative Dictyostelium cells with folic acid or aggregative cells with cAMP results in a fast transient cGMP response which peaks at 10 s; basal levels are recovered in about 30-40 s. Stimulation with folic acid or cAMP rapidly desensitizes the cells for equal or lower concentrated stimuli. However, cells remain responsive for stimuli with higher concentration, which indicates that desensitization is caused by an adaptation process. Removal of the stimulus induces deadaptation, which for both cAMP and folic acid has first order kinetics with a half-life of 1.5 min. Cells were prepared which are simultaneously sensitive to folic acid and to cAMP. The cGMP responses to saturated folic acid and cAMP stimuli are not additive, which suggests that the transduction pathways of these signals meet each other at or before the guanylate cyclase. Cells which are adapted to folic acid are not adapted to cAMP and vice versa. This demonstrates that adaptation of Dictyostelium cells to chemotactic stimuli is localized at a step in the transduction chain before the transduced folic acid and cAMP signals combine in one pathway.
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PMID:Relationship between adaptation of the folic acid and the cAMP mediated cGMP response in Dictyostelium. 631 Dec 1

Dictyostelium discoideum initiates development when cells overgrow their bacterial food source and starve. To coordinate development, the cells monitor the extracellular level of a protein, conditioned medium factor (CMF), secreted by starved cells. When a majority of the cells in a given area have starved, as signaled by CMF secretion, the extracellular level of CMF rises above a threshold value and permits aggregation of the starved cells. The cells aggregate using relayed pulses of cAMP as the chemoattractant. Cells in which CMF accumulation has been blocked by antisense do not aggregate except in the presence of exogenous CMF. We find that these cells are viable but do not chemotax towards cAMP. Videomicroscopy indicates that the inability of CMF antisense cells to chemotax is not due to a gross defect in motility, although both video and scanning electron microscopy indicate that CMF increases the frequency of pseudopod formation. The activations of Ca2+ influx, adenylyl cyclase, and guanylyl cyclase in response to a pulse of cAMP are strongly inhibited in cells lacking CMF, but are rescued by as little as 10 s exposure of cells to CMF. The activation of phospholipase C by cAMP is not affected by CMF. Northern blots indicate normal levels of the cAMP receptor mRNA in CMF antisense cells during development, while cAMP binding assays and Scatchard plots indicate that CMF antisense cells contain normal levels of the cAMP receptor. In Dictyostelium, both adenylyl and guanylyl cyclases are activated via G proteins. We find that the interaction of the cAMP receptor with G proteins in vitro is not measurably affected by CMF, whereas the activation of adenylyl cyclase by G proteins requires cells to have been exposed to CMF. CMF thus appears to regulate aggregation by regulating an early step of cAMP signal transduction.
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PMID:A density-sensing factor regulates signal transduction in Dictyostelium. 777 72

Increasing evidence suggests that the beta gamma-subunit dimers of heterotrimeric G proteins play a pivotal role in transducing extracellular signals. The recent construction of G beta null mutants (g beta-) in Dictyostelium provides a unique opportunity to study the role of beta gamma dimers in signaling processes mediated by chemoattractant receptors. We have shown previously that g beta- cells fail to aggregate; in this study, we report the detailed characterization of these cells. The g beta- cells display normal motility but do not move towards chemattractants. The typical GTP-regulated high affinity chemoattractant-binding sites are lost in g beta- cells and membranes. The g beta- cells do not display chemoattractant-stimulated adenylyl cyclase or guanylyl cyclase activity. These results show that in vivo G beta links chemoattractant receptors to effectors and is therefore essential in many chemoattractant-mediated processes. In addition, we find that G beta is required for GTP gamma S stimulation of adenylyl cyclase activity, suggesting that the beta gamma-dimer activates the enzyme directly. Interestingly, the g beta- cells grow at the same rate as wild-type cells in axenic medium but grow more slowly on bacterial lawns and, therefore, may be defective in phagocytosis.
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PMID:The G protein beta subunit is essential for multiple responses to chemoattractants in Dictyostelium. 779 Mar 62

To determine the function of the Dictyostelium G alpha 1 subunit during aggregation and multicellular development, we analyzed the phenotypes of g alpha 1 null cells and strains overexpressing either wild-type G alpha 1 or two putative constitutively active mutations of G alpha 1. Strains overexpressing the wild-type or mutant G alpha 1 proteins showed very abnormal culmination with an aberrant stalk differentiation. The similarity of the phenotypes between G alpha 1 overexpression and expression of a putative constitutively active G alpha 1 subunit suggests that these phenotypes are due to increased G alpha 1 activity rather than resulting from a non-specific interference of other pathways. In contrast, g alpha 1 null strains showed normal morphogenesis except that the stalks were thinner and longer than those of wild-type culminants. Analysis of cell-type-specific gene expression using lacZ reporter constructs indicated that strains overexpressing G alpha 1 show a loss of ecmB expression in the central core of anterior prestalk AB cells. However, expression of ecmB in anterior-like cells and the expression of prestalk A-specific gene ecmA and the prespore-specific gene SP60/cotC appeared normal. Using a G alpha 1/lacZ reporter construct, we show that G alpha 1 expression is cell-type-specific during the multicellular stages, with a pattern of expression similar to ecmB, being preferentially expressed in the anterior prestalk AB cells and anterior-like cells. The developmental and molecular phenotypes of G alpha 1 overexpression and the cell-type-specific expression of G alpha 1 suggest that G alpha 1-mediated signaling pathways play an essential role in regulating multicellular development by controlling prestalk morphogenesis, possibly by acting as a negative regulator of prestalk AB cell differentiation. During the aggregation phase of development, g alpha 1 null cells display a delayed peak in cAMP-stimulated accumulation of cGMP compared to wild-type cells, while G alpha 1 overexpressors and dominant activating mutants show parallel kinetics of activation but decreased levels of cGMP accumulation compared to that seen in wild-type cells. These data suggest that G alpha 1 plays a role in the regulation of the activation and/or adaptation of the guanylyl cyclase pathway. In contrast, the activation of adenylyl cyclase, another pathway activated by cAMP stimulation, was unaffected in g alpha 1 null cells and cell lines overexpressing wild-type G alpha 1 or the G alpha 1 (Q206L) putative dominant activating mutation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulatory role of the G alpha 1 subunit in controlling cellular morphogenesis in Dictyostelium. 782 Dec 21


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