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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)

cAMP induces the activation and subsequent desensitization of adenylate cyclase in Dictyostelium discoideum. cAMP also induces down-regulation of surface cAMP receptors. Desensitization of adenylate cyclase is composed of a rapidly reversible component (adaptation) and a slowly reversible component related to down-regulation of surface cAMP receptors (Van Haastert, P.J.M. (1987) J. Biol. Chem. 262, 7700-7704). The agonistic and antagonistic activities of the cAMP derivative adenosine 3',5'-monophosphorothioate ((Rp)-cAMPS) for these responses were investigated. (Rp)-cAMPS competes with cAMP for binding to different receptor forms with an apparent Ki = 5 microM. (Rp)-cAMPS does not activate adenylate cyclase and antagonizes the cAMP-induced activation with an apparent Ki = 5 microM. (Rp)-cAMPS induces down-regulation of surface cAMP receptors with EC50 = 5 microM. (Rp)-cAMPS induces desensitization of adenylate cyclase, which is not rapidly reversible. These results indicate that desensitization of adenylate cyclase by (Rp)-cAMPS is due to down-regulation of surface cAMP receptors and not to adaptation. We conclude that down-regulation of surface cAMP receptors does not require their activation or modification involved in adaptation.
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PMID:Adenosine 3', 5'-monophosphorothioate (Rp-isomer) induces down-regulation of surface cyclic AMP receptors without receptor activation in Dictyostelium discoideum. 358 37

GTP and GTP analogs produced significant (up to 17-fold) and persistent activation of adenylate cyclase in lysates of Dictyostelium discoideum amoeba. The activation was enhanced 2- to 4-fold by cAMP (the agonist for receptor-mediated adenylate cyclase activation), was specific for guanine nucleoside triphosphates, and was inhibited by guanosine 5'-(O-2-thio)diphosphate. The order of potency of guanine nucleotides was guanosine 5'-(O-3-thio)triphosphate greater than guanyl-5'-yl imidodiphosphate greater than GTP; half-maximal activation was observed with 1-10 microM guanine nucleotide. Maximal activation occurred when the guanine nucleotide was added within seconds after cell lysis and the lysate was preincubated for 5 min prior to assay. Under these optimal in vitro conditions, the capacity of guanine nucleotides to activate decreased, closely correlating with adaptation or desensitization induced by exposure of intact cells to cAMP during a period of 10 min. These data strongly support that regulation of adenylate cyclase in Dictyostelium occurs via a receptor-linked GTP/GDP exchange protein. Two mutants, designated synag 7 and 49 were isolated in which cAMP and/or guanine nucleotides were not sufficient to activate adenylate cyclase. The wild-type pattern of guanine nucleotide regulation was restored to synag 7 lysates by the addition of a high-speed supernatant from wild-type cells. Characterization of these mutants demonstrates that activation of adenylate cyclase is not required for growth or cell-type specific differentiation but is essential for cellular aggregation and influences morphogenesis and pattern formation. This suggests that Dictyostelium may provide a model suitable for detailed genetic analysis of surface receptor-guanine nucleotide-binding regulatory protein linked adenylate cyclase systems and for determining the role of these systems in development.
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PMID:Surface receptor-mediated activation of adenylate cyclase in Dictyostelium. Regulation by guanine nucleotides in wild-type cells and aggregation deficient mutants. 377 67

The regulation of adenylate cyclase by guanine nucleotides was examined in a plasma membrane preparation from Dictyostelium discoideum. At concentrations of greater than 10 microM, GDP, GTP and a non-hydrolyzable GTP analogue, guanosine 5'-(beta-gamma-imino)triphosphate (Gpp(NH)p), inhibited the enzyme. Guanosine, GMP and ITP were ineffective. The inhibition was not affected by variations in assay conditions (membrane concentration, time or temperature), the presence of cAMP, NaF or forskolin in the reaction mix, or variations in the stage of Dictyostelium discoideum development. There was no stimulation of adenylate cyclase by GTP or Gpp(NH)p under any conditions. Inhibition of adenylate cyclase by Gpp(NH)p was sensitive to divalent cations. The addition of MnCl2 resulted in increased adenylate cyclase activity, but augmented the inhibitory response to Gpp(NH)p. The differences between Dictyostelium discoideum and eukaryotic regulation of adenylate cyclase by guanine nucleotides are discussed.
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PMID:Guanine nucleotide inhibition of adenylate cyclase in a membrane fraction from Dictyostelium discoideum. 399 31

Adenylate cyclase from Dictyostelium discoideum was solubilized under alkaline conditions using the zwitterionic detergent CHAPS. In contrast to the membrane bound adenylate cyclase, the solubilized enzyme can use only Mn2+, but is inactive in the presence of Mg2+.
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PMID:Adenylate cyclase of Dictyostelium discoideum: solubilization and Mn2+-dependency. 401 66

During growth of myxamoebae of Dictyostelium discoideum (strain Ax-2) in axenic medium, the myxamoebae secrete cyclic AMP. As the cells leave the exponential phase of growth and enter the stationary phase, there is an approximate doubling of the intracellular cyclic AMP content, but the amount of extracellular cyclic AMP remains proportional, at all times, to the number of myxamoebae present. During development of axenically grown myxamoebae, there is first a rise in the intracellular concentration of cyclic AMP, followed by a rise in the amount of extracellular cyclic AMP, which reaches a peak at the time of aggregation and then declines. There is a second peak in the amount of extracellular cyclic AMP found at the time of fruiting-body formation, but this second peak is not associated with a rise in the intracellular cyclic AMP concentration. Controls thus exist over the synthesis and secretion of cyclic AMP. Evidence is presented for the belief that the activity of the adenylate cyclase enzyme controls the amount of cyclic AMP synthesized rather than the activity or amount of cyclic AMP phosphodiesterase present. Similar changes occur in extracellular cyclic AMP and phosphodiesterase concentrations during incubation of myxamoebae in buffered suspensions to those occuring during the first few hours of development of such cells on solid media, but the timing of these changes is different.
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PMID:Adenosine 3':5'-cyclic monophosphate concentrations and phosphodiesterase activities during axenic growth and differentiation of cells of the cellular slime mould Dictyostelium discoideum. 435 85

The growth response to external cyclic adenosine 3',5'-monophosphate of a strain of Escherichia coli deleted for adenyl cyclase was utilized to screen for mutants of Dictyostelium discoideum unable to accumulate this chemical extracellularly. The threshold amount of cyclic adenosine 3',5'-monophosphate able to induce growth of this bacterium was 3 to 4 mug/ml at 37 C and approximately 25 mug/ml at 27 C. Conditions are described that permit the detection of as low as 2 mug of this chemical at either temperature.
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PMID:Bioassay for the isolation of Dictyostelium discoideum mutants deficient in extracellular accumulation of cyclic adenosine 3',5'-monophosphate. 436 62

Cyclic AMP (cAMP) has been postulated to regulate many of the events in the development of the eukaryotic social ameba Dictyostelium discoideum. The various suggested roles of cAMP could be tested were it possible to reversibly elevate cAMP levels in the organism. To this end we examined the effect of forskolin, which activates the adenylate cyclase of many eukaryotic organisms. We found, however, that the drug does not elevate cAMP levels in intact D. discoideum. In addition, it does not stimulate the adenylate cyclase in either its basal state or activated state.
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PMID:Forskolin does not activate cyclic AMP synthesis in Dictyostelium discoideum in vivo or in vitro. 608 4

In developmentally competent Dictyostelium discoideum amoebae, binding of cAMP to high-affinity surface receptors produces a rapid activation of adenylate cyclase which adapts within minutes. The result is a transient increase in intracellular cAMP which is rapidly secreted. Adenosine inhibited this cAMP signaling response with an apparent Ki of 300 microM. The apparent Ki's for 2'-O-methyladenosine and 2-chloroadenosine were approximately 30 and 100 microM, respectively. Inhibition by adenosine was rapid, reversible, and depended on the cAMP stimulus concentration. In addition, the adaptation of the cAMP signaling response was blocked by adenosine. As has been previously reported, adenosine inhibits cAMP binding to intact cells. Under the same developmental conditions as in the perfusion studies, we find the binding inhibition depends on both the cAMP and adenosine concentrations, with an apparent Ki of 100 microM. The apparent Ki's for 2'-O-methyl- and 2-chloroadenosine were approximately 8 and 35 microM, respectively. However, with cells developed for short times and with an axenic strain, inhibition was independent of cAMP concentration or cells showed mixed-type binding inhibition. The effect of adenosine on the cAMP signaling response is consistent with the reported effects of adenosine on other cAMP-mediated processes such as chemotaxis and the increase in intracellular cGMP, and may provide an explanation for the reported inhibition of center formation.
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PMID:Adenosine and its derivatives inhibit the cAMP signaling response in Dictyostelium discoideum. 609 78

The ability of Dictyostelium discoideum amoebae to synthesize and secrete cAMP in response to exogenous cAMP is called cAMP signaling. Concanavalin A is a potent, rapid, noncompetitive inhibitor of this response, with the rate of inhibition consistent with its rate of binding. The concanavalin A does not deplete cellular ATP, alter cAMP binding to its surface receptors, or affect basal adenylate cyclase activity, but blocks the cAMP-stimulated activation of adenylate cyclase. Therefore, concanavalin A appears to inhibit a step between the receptor and the adenylate cyclase which is necessary for the transduction of the cAMP signal. Wheat germ agglutinin, a polyclonal antibody against an 80-kDa glycoprotein, four monoclonal antibodies against the amoebal surface, and a chemical cross-linking agent which reacts with cell surface primary amines also inhibit signaling. To determine the importance of cross-linking in the inhibition, succinylated concanavalin A and the unlinked, reactive portion of the chemical cross-linker were tested and found to be relatively ineffective inhibitors. Thus it appears that ligands capable of cross-linking molecules on the external surface of D. discoideum amoebae inhibit cAMP signaling. It is proposed that these cross-linking agents prevent membrane or cytoskeletal rearrangement and that this rearrangement must occur before the adenylate cyclase is activated.
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PMID:cAMP-stimulated adenylate cyclase activation in Dictyostelium discoideum is inhibited by agents acting at the cell surface. 609 79

In the first few hours after starvation, the developing cAMP secretory system in Dictyostelium discoideum has been observed to be successively in one of four states: (a) quiescent, (b) excitable (capable of relay), (c) autonomously oscillating, and (d) secreting at a high steady level. A theoretical model is presented which demonstrates that the proximal cause of the transitions between different types of behavior may be slow changes in the activities of the enzymes adenylate cyclase and phosphodiesterase. These changes affect the stability properties of the steady state admitted by the cAMP signalling system. Sustained oscillations develop when the steady state is unstable, whereas relay of cAMP signals occurs upon perturbation of a stable steady state for parameter values close to those which produce oscillations. The developmental path suggested in the adenylate cyclase-phosphodiesterase space for the sequential transitions compares with the time course observed for the synthesis of these enzymes after starvation. It is suggested that there is general significance for the understanding of differentiation in the example given of a state-point following a developmental path in parameter space, moving from one behavioral domain to another, and thereby bringing about shifts in qualitative behavior.
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PMID:Control of developmental transitions in the cyclic AMP signalling system of Dictyostelium discoideum. 625 48


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