Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, we demonstrated the presence of multiple folate-binding sites on the cell surface of Dictyostelium discoideum. These sites were divided into two major classes, with different ligand specificities (A and B). Each major class consists of several interconvertible subtypes. In the present report, the ability of 13 folate analogs to activate both adenylate and guanylate cyclase in pre- as well as postaggregative cells is examined. The patterns of correlation between binding and activation data indicate that guanylate cyclase activation is mediated by the B-sites in both developmental stages (P less than 0.001). In postaggregative cells, adenylate cyclase also seems to be activated by the B-sites (P less than 0.001). In contrast, adenylate cyclase activation in preaggregative cells was well correlated with the specificity of A-sites (P less than 0.01). Remarkably, the potencies of activation were less affected by molecular modifications than the binding affinities were, as suggested by a slope of 0.4 in a plot of K0.5 values of activation vs. binding. This observation argues against the existence of a transduction mechanism in which the response is proportional to receptor occupancy. For the B-receptor, however, the degree of receptor occupancy appears to determine the response. The existence of folic acid antagonists is demonstrated, some of which are specific for either A-sites coupled to adenylate cyclase or for B-sites coupled to guanylate cyclase.
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PMID:Developmental regulation of the pathways of folate-receptor-mediated stimulation of cAMP and cGMP synthesis in Dictyostelium discoideum. 287 51

Adenylate cyclase is the critical enzyme in the chemotactic signal relay mechanism of the slime mold amoeba, Dictyostelium discoideum. However, few studies examining the regulation of this enzyme have been performed in vitro due to the instability of enzyme activity in crude lysates. For studies presented in this communication, a membrane preparation has been isolated that exhibits a high specific activity adenylate cyclase that is stable during storage at -70 degrees C and under assay conditions at 27 degrees C. The enzyme was activated by micromolar concentrations of MnCl2. GTP and its non-hydrolyzable analog, guanosine 5'-(beta, gamma-imino)triphosphate, inhibited the enzyme non-competitively in the presence of either Mg2+ or Mn2+. However, this inhibition was more pronounced in the presence of Mn2+. Since guanylate cyclase activity in the D. discoideum membranes was less than 10% of the adenylate cyclase activity, there could not be a significant contribution by guanylate cyclase toward the production of cyclic AMP. Experiments indicate that D. discoideum adenylate cyclase was also regulated by adenosine analogs. The enzyme was inhibited by 2',5'-dideoxyadenosine and 2'-deoxyadenosine and inhibition was augmented by the presence of Mn2+. However, the inhibition was not entirely consistent with that which would be expected for the P-site of eukaryotic systems because some purine-modified adenosine analogs also inhibited the enzyme. Guanine nucleotides had no effect on the inhibition by either purine-modified or ribose-modified adenosine analogs. The binding of cyclic AMP to its receptor on the D. discoideum membranes was not affected by either MnCl2 or adenosine analogs.
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PMID:Regulation of Dictyostelium discoideum adenylate cyclase by manganese and adenosine analogs. 288 Jun 7

Dictyostelium discoideum cells contain a single ras gene (Dd-ras) that is highly homologous to mammalian ras genes. Cell transformation with a vector carrying a ras gene with a (glycine----threonine) missense mutation at position 12 causes an altered morphogenesis. Extracellular cAMP signals regulate morphogenesis and induce chemotaxis and the activation and subsequent desensitization of adenylate and guanylate cyclase. cAMP signal transduction was investigated in Dd-ras-transformed cells. Transformants that overexpress the mutated Dd-ras-Thr12 gene show normal activation and desensitization of adenylate cyclase and normal activation of guanylate cyclase. However, cAMP induces a stronger desensitization of guanylate cyclase stimulation in the Dd-ras-Thr12 transformant than in transformants overexpressing the Dd-ras-Gly12 wild-type gene or in untransformed cells. This effect was correlated with a reduced chemotactic sensitivity of the transformant expressing the mutated Dd-ras-Thr12 gene.
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PMID:Aberrant transmembrane signal transduction in Dictyostelium cells expressing a mutated ras gene. 288 43

Cell fractionation studies have been performed, in order to obtain insight into the subcellular distribution of Dictyostelium adenylate cyclase and guanylate cyclase and also to provide a starting point for further study and isolation of these enzymes and their regulatory components. Adenylate cyclase and cAMP receptors were found in the same membrane fractions, but were distributed different from the plasma membrane marker alkaline phosphatase. Guanylate cyclase was partially soluble, partially particulate. In isopycnic gradients, particulate guanylate cyclase was present in other fractions than cAMP receptors and adenylate cyclase, but in similar ones to alkaline phosphatase. These observations are consistent with the hypothesis that cell-surface cAMP receptors and adenylate cyclase interact via a membrane-bound G-protein, whereas the receptors activate guanylate cyclase via a cytosolic factor. The adenylate cyclase activity in membranes obtained by sucrose gradient centrifugation was retained in the presence of various detergents, while with the same detergents the activity of particulate guanylate cyclase was lost. This adenylate cyclase was solubilized as assessed by gel filtration and centrifugation experiments, and it behaved heterogeneous in fractionation studies. In gel filtration, the major component eluted at a position corresponding to a Stokes radius of 4-7 nm. A purification of about 70-fold as compared to the cell homogenate was obtained by affinity chromatography of adenylate cyclase on ATP-Sepharose. We conclude that cell fractionation provides useful starting material for isolation and further study of Dictyostelium adenylate cyclase.
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PMID:Cell fractionation, detergent sensitivity and solubilization of Dictyostelium adenylate cyclase and guanylate cyclase. 288 13

Extracellular cAMP induces excitation of adenylate and guanylate cyclase in Dictyostelium discoideum. Continuous stimulation with cAMP leads to adaptation, while cells deadapt upon removal of the cAMP stimulus. Excitation of guanylate cyclase by cAMP has a lag time of approximately 1 s; excitation of adenylate cyclase is much slower with a lag time of 30 s. Excitation of both enzyme activities is less than twofold slower at 0 degrees C than at 20 degrees C. Adaptation of guanylate cyclase is very fast (t1/2 = 2.4 s at 20 degrees C), and virtually absent at 0 degrees C. Adaptation of adenylate cyclase is much slower (t1/2 = 110 s at 20 degrees C) but not very temperature sensitive (t1/2 = 290 s at 0 degrees C). At 20 degrees C, deadaptation of adenylate cyclase is about twofold slower than deadaptation of guanylate cyclase (t1/2 = 190 and 95 s, respectively). Deadaptation of adenylate cyclase is absent at 0 degrees C, while that of guanylate cyclase proceeds slowly (t1/2 = 975 s). The results show that excitation, adaptation, and deadaptation of guanylate cyclase have different kinetics and temperature sensitivities than those of adenylate cyclase, and therefore are probably independent processes.
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PMID:Differential effects of temperature on cAMP-induced excitation, adaptation, and deadaptation of adenylate and guanylate cyclase in Dictyostelium discoideum. 289 Jun 46

Although the adenylate cyclase of Dictyostelium discoideum cannot be activated by its cAMP agonist in vitro, its in vivo activation can be demonstrated by rapidly breaking and assaying the cells, over 10-fold higher activity being observed for stimulated cells than for basal cells. We report here that when basal cells are broken in the presence of labeled ATP and then rapidly assayed, they display 8-fold more adenylate cyclase activity than cells broken in the presence of unlabeled ATP. This suggests that a significant amount of the enzyme in extracts of basal cells is sequestered within vesicles that can be loaded with substrate at the time of cell lysis, but then rapidly seal. In contrast to the results obtained with basal cells, when cells activated in vivo are broken in the presence of labeled ATP, there is less than 2-fold increase in adenylate cyclase activity. Thus, a much smaller percentage of the observed adenylate cyclase activity of stimulated cells appears to be due to sequestered enzyme than of basal cells. Two models are discussed that account for these observations. One model envisions that roughly equal populations of sequestered and nonsequestered enzyme are produced upon breakage of both basal and activated cells, but that sequestered enzyme in basal extracts becomes uniquely activated in vitro. The other model proposes that the differences in observed activity are due directly to differences in sequestration. According to this latter model, nearly all of the -fold activation previously observed for the D. discoideum adenylate cyclase can be accounted for by a change in sequestration of the enzyme rather than by an intrinsic alteration in the enzyme per se. It therefore suggests a novel mode of regulation whereby an enzyme may be packaged within vesicles and its activity controlled by modulating the permeability of the vesicles to its substrate or effectors.
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PMID:The role of enzyme sequestration in the regulation of the adenylate cyclase of Dictyostelium discoideum. 298 67

Cyclic AMP stimulation of chemotactically competent Dictyostelium amebas labeled with [32P]orthophosphate transiently increases phosphorylation in the heavy chain and the 18,000 dalton light chain of myosin. Immediately before the increase, heavy chain phosphorylation transiently decreases. These phosphorylation changes also occur when cAMP-induced activation of adenylate cyclase is blocked by pretreatment of amebas with caffeine. The time course of these phosphorylation responses correlates with the shape changes induced in amebas exposed to a temporal increase in cAMP concentration. The dose dependence of the phosphorylation responses is the same as that previously determined for chemotaxis. The phosphorylation responses exhibit adaptation properties in common with those of the shape change response and chemotaxis. Increases in the rate of myosin heavy chain and light chain phosphorylation can be observed in vitro by stimulating unlabeled amebas with cAMP and then lysing the cells into a gamma-[32P]ATP-containing reaction mixture.
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PMID:Chemoattractant-elicited increases in myosin phosphorylation in Dictyostelium. 300 Jun 4

In Dictyostelium discoideum amoebae, binding of cyclic AMP (cAMP) to surface receptors elicits numerous responses including chemotaxis, cyclic GMP (cGMP) accumulation, and activation of adenylate cyclase. The specificity of the surface cAMP receptor which mediates activation of adenylate cyclase and cAMP secretion was determined by testing the relative effectiveness of a series of 10 cAMP analogs. Each of the 10 analogs elicited cAMP secretion, chemotaxis, and cGMP accumulation in the same dose range. The order of potency for eliciting these responses (cAMP greater than 2'-H-cAMP greater than N1-O-cAMP greater than cAMPS(Sp) greater than 6-Cl-cAMP greater than cAMPN(CH3)2(Sp) greater than 3'-NH-cAMP greater than 8-Br-cAMP greater than cAMPS(Rp) greater than cAMPN(CH3)2(Rp] matches that for binding to the major cell surface cAMP binding sites and differs from that of the cell surface phosphodiesterase and the major intracellular cAMP binding protein.
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PMID:The specificity of the cAMP receptor mediating activation of adenylate cyclase in Dictyostelium discoideum. 300 44

Physiological responses mediated by cell-surface receptors frequently adapt or "desensitize" (i.e., terminate despite persistent occupancy of receptors by ligand). Binding of ligands to the external domains of a wide variety of surface receptors induces covalent modification of their cytoplasmic domains. A mechanism is presented in which the variety of receptor states generated by ligand binding and covalent modification act together to regulate physiological responsiveness. The development of the model is guided by observations of adaptation for chemotaxis in Escherichia coli and adenylate cyclase activation in Dictyostelium. The general features of the marked response and eventual exact adaptation predicted by the model match those observed in the experimental systems.
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PMID:A molecular mechanism for sensory adaptation based on ligand-induced receptor modification. 301 Mar 8

The accumulation of many postaggregative mRNA species in Dictyostelium discoideum is dependent upon the continuous presence of elevated levels of cAMP. We have analyzed the cyclic nucleotide specificity of this requirement and show that it is similar to that of the cell-surface receptor and distinct from the specificity displayed by the cAMP-dependent protein kinase. The same specificity is displayed for the accumulation of two classes of prespore mRNAs (class I, early; class II, late) and a prestalk mRNA and for the shutoff of a growth-phase mRNA. Under conditions in which cAMP phosphodiesterase activity is competitively inhibited, half-maximal accumulation of prestalk mRNA can be obtained at cAMP concentrations of 320-520 nM, whereas a higher concentration, 1-2 microM, is required for half-maximal accumulation of the prespore mRNAs and shutoff of the growth-phase mRNA. These effects of cAMP and its analogues on gene expression have been obtained under conditions in which cAMP-mediated activation of adenylate cyclase is completely inhibited. We conclude that cAMP acts to stimulate postaggregative gene expression by interacting at the cell-surface receptor.
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PMID:Interaction of cAMP with the cell-surface receptor induces cell-type-specific mRNA accumulation in Dictyostelium discoideum. 301 12


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