EC:4.6.1.1 - FACTA Search

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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)

An earlier finding that the ecmA and ecmB prestalk cell specific genes exhibited very different responses to cyclic AMP prompted the suggestion that cyclic AMP might act as the major spatial regulator of the prestalk cell developmental pattern in Dictyostelium. A more detailed kinetic analysis in monolayers of Dictyostelium has revealed that cyclic AMP inhibits the rate of expression of all three differentiation inducing factor (DIF) inducible genes, ecmA, ecmB and pDd26. After prolonged incubation, however, cyclic AMP enhances the levels of both ecmA and ecmB mRNAs, and nuclear run-on experiments suggest that cyclic AMP inhibits the degradation of both mRNA species. This complex response to cyclic AMP can explain the differential effects reported previously. Thus depending upon the experimental conditions, cyclic AMP can either enhance or reduce the apparent steady state level of a specific mRNA species. These results are not compatible with the earlier proposal that cyclic AMP is a spatial regulator of the prestalk developmental pattern. Although ecmA and ecmB accumulate rapidly in response to DIF, there is a lag in the accumulation of pD26 mRNA and the induction requires protein synthesis. These results suggest that pDd26 transcription requires the accumulation of an additional factor(s). Inhibition of pDd26 mRNA accumulation by cyclic AMP also occurs during the lag period, suggesting the possibility that cyclic AMP inhibits the accumulation of the, as yet, unknown factor. The inhibitory effect of cyclic AMP on pDd26 gene expression is unaffected by caffeine, suggesting that inhibition does not involve adenylate cyclase activation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of extracellular cyclic AMP on differentiation inducing factor (DIF)-dependent prestalk cell gene expression in monolayers of Dictyostelium is complex. 803 30

The naturally occurring phospholipid lysophosphatidic acid (LPA) can induce a number of physiological responses in vertebrate cells, including platelet aggregation, smooth muscle contraction, and fibroblast proliferation. LPA is thought to activate a specific G-protein-coupled receptor, thereby triggering classic second messenger pathways such as stimulation of phospholipase C and inhibition of adenylate cyclase. Here we report that 1-oleoyl-LPA, at submicromolar concentrations, evokes a chemotactic response in amoebae of the cellular slime mold Dictyostelium discoideum. LPA-induced chemotaxis is specific in that other lysophospholipids, phosphatidic acid, and monoacylglycerol have no effect. We show that the response to LPA is not secondary to the accumulation of extracellular cAMP, a well-established chemoattractant for nutrient-starved D. discoideum. Compared with cAMP-induced chemotaxis, LPA-induced chemotaxis has a somewhat lower efficiency and is not accompanied by the characteristic cellular elongation and orientation along the gradient. These results indicate that LPA has a previously unsuspected role as a chemoattractant for D. discoideum and imply that its biological function as a "first messenger" is not restricted to vertebrate cells.
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PMID:Lysophosphatidic acid is a chemoattractant for Dictyostelium discoideum amoebae. 838 31

Binding of an intrinsic agonist (cyclic AMP) to specific receptors on the cell surface induces transmembrane signals for the activation of adenylate cyclase in the cellular slime mold Dictyostelium discoideum. We found that stimulation by CaCl2, MgSO4 or polyamines having two to four positive charges induced the activation of adenylate cyclase in cells treated with saponin. The activation was roughly identical to the stimulation of the intrinsic agonist both in amount and in time course. The intact cells (saponin-untreated cells) responded to neither divalent cations nor polyamines. While saponin is known to have a detergent-like effect and to make the plasma membrane permeable, low molecular weight dyes did not penetrate the plasma membrane under our conditions for the saponin-treatment. Caffeine is known to inhibit the cAMP-induced activation of adenylate cyclase by blocking signal transduction, but not by acting directly on the enzyme [Brenner, M. and Thoms, S.D. (1984) Dev. Biol. 101, 136-146]. We found that caffeine inhibited the cation-induced activation. These results suggest that these divalent and polyvalent cations do not act directly on adenylate cyclase but that they mimic or induce the transmembrane activation signal for adenylate cyclase in the saponin-treated cells.
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PMID:Activation of adenylate cyclase by divalent cations and polyamines in saponin-treated Dictyostelium discoideum cells. 853 99

Unlike most other cellular proteins, the chemoattractant receptor, cAR1, of Dictyostelium is resistant to extraction by the zwitterionic detergent, CHAPS. We exploited this property to isolate a subcellular fraction highly enriched in cAR1 by flotation of CHAPS lysates of cells in sucrose density gradients. Immunogold electron microscopy studies revealed a homogeneous preparation of membrane bilayer sheets. This preparation, designated CHAPS-insoluble floating fraction (CHIEF), also contained a defined set of 20 other proteins and a single uncharged lipid. Cell surface biotinylation and preembedding immunoelectron microscopy both confirmed the plasma membrane origin of this preparation. The cell surface phosphodiesterase (PDE) and a downstream effector of cAR1, adenylate cyclase (ACA), were specifically localized in these structures, whereas the cell adhesion molecule gp80, most of the major cell surface membrane proteins, cytoskeletal components, the actin-binding integral membrane protein ponticulin, and G-protein alpha- and beta-subunits were absent. Overall, CHIFF represents about 3-5% of cell externally exposed membrane proteins. All of these results indicate that CHIFF is derived from specialized microdomains of the plasma membrane. The method of isolation is analogous to that of caveolae. However, we were unable to detect distinct caveolae-like structures on the cell surface associated with cAR1, which showed a diffuse staining profile. The discovery of CHIFF facilitates the purification of cAR1 and related signaling proteins and the biochemical characterization of receptor-mediated processes such as G-protein activation and desensitization. It also has important implications for the "fluid mosaic" model of the plasma membrane structures.
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PMID:Identification of detergent-resistant plasma membrane microdomains in dictyostelium: enrichment of signal transduction proteins. 916 71

Whereas it is relatively easy to account for the formation of concentric (target) waves of cAMP in the course of Dictyostelium discoideum aggregation after starvation, the origin of spiral waves remains obscure. We investigate a physiologically plausible mechanism for the spontaneous formation of spiral waves of cAMP in D. discoideum. The scenario relies on the developmental path associated with the continuous changes in the activity of enzymes such as adenylate cyclase and phosphodiesterase observed during the hours that follow starvation. These changes bring the cells successively from a nonexcitable state to an excitable state in which they relay suprathreshold cAMP pulses, and then to autonomous oscillations of cAMP, before the system returns to an excitable state. By analyzing a model for cAMP signaling based on receptor desensitization, we show that the desynchronization of cells on this developmental path triggers the formation of fully developed spirals of cAMP. Developmental paths that do not correspond to the sequence of dynamic transitions no relay-relay-oscillations-relay are less able or fail to give rise to the formation of spirals.
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PMID:Desynchronization of cells on the developmental path triggers the formation of spiral waves of cAMP during Dictyostelium aggregation. 925 51

We examine the theoretical aspects of temporal and spatiotemporal organization in the cAMP signaling system of Dictyostelium discoideum amoebae which aggregate in a wavelike manner after starvation, in response to pulses of cAMP emitted with a periodicity of several minutes by cells behaving as aggregation centers. We first extend the model based on receptor desensitization, previously proposed by Martiel and Goldbeter, by incorporating the role of G proteins in signal transduction. The extended model accounts for observations on the response of the signaling system to successive step increases in extracellular cAMP. In the presence of the positive feedback loop in cAMP synthesis, this model generates sustained oscillations in cAMP and in the fraction of active cAMP receptor, similar to those obtained in the simpler model where the role of the G proteins is not taken into account explicitly. We use the latter model to address the formation of concentric and spiral waves of cAMP in the course of D. discoideum aggregation. Previous analyses of the model showed that a progressive increase in the activity of adenylate cyclase and phosphodiesterase can account for the transitions no relay-relay-oscillations-relay observed in the experiments. We show that the degree of cellular synchronization on such a developmental path in parameter space markedly affects the nature of the spatial patterns generated by the model. These patterns range from concentric waves to a small number of large spirals, and finally to a large number of smaller spirals, as the degree of developmental desynchronization between cells increases.
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PMID:Modeling oscillations and waves of cAMP in Dictyostelium discoideum cells. 965 83

We purified from Dictyostelium lysates an 88-kDa protein that bound to a subset of small GTPases, including racE, racC, cdc42Hs, and TC4ran, but did not bind to R-ras or rabB. Cloning of the gene encoding this 88-kDa protein revealed that it contained multiple armadillo-like repeats most closely related to the mammalian GTP exchange factor smgGDS. We named this protein darlin (Dictyostelium armadillo-like protein). Disruption of the gene encoding darlin demonstrated that this protein is not essential for cytokinesis, pinocytosis, phagocytosis, or development. However, the ability of darlin null cells to aggregate in response to starvation is severely affected. When starved under liquid medium, the mutant cells were unable to form aggregation centers and streams, possibly because of a defect in cAMP relay signaling. This defect was not due to an inability of the darlin mutants to activate adenylate cyclase in response to G protein stimulation. These results suggest that the darlin protein is involved in a signaling pathway that may modulate the chemotactic response during early development.
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PMID:Identification of darlin, a Dictyostelium protein with Armadillo-like repeats that binds to small GTPases and is important for the proper aggregation of developing cells. 980 99

The core of adenylate and guanylate cyclases is formed by an intramolecular or intermolecular dimer of two cyclase domains arranged in an antiparallel fashion. Metazoan membrane-bound adenylate cyclases are composed of 12 transmembrane spanning regions, and two cyclase domains which function as a heterodimer and are activated by G-proteins. In contrast, membrane-bound guanylate cyclases have only one transmembrane spanning region and one cyclase domain, and are activated by extracellular ligands to form a homodimer. In the cellular slime mould, Dictyostelium discoideum, membrane-bound guanylate cyclase activity is induced after cAMP stimulation; a G-protein-coupled cAMP receptor and G-proteins are essential for this activation. We have cloned a Dictyostelium gene, DdGCA, encoding a protein with 12 transmembrane spanning regions and two cyclase domains. Sequence alignment demonstrates that the two cyclase domains are transposed, relative to these domains in adenylate cyclases. DdGCA expressed in Dictyostelium exhibits high guanylate cyclase activity and no detectable adenylate cyclase activity. Deletion of the gene indicates that DdGCA is not essential for chemotaxis or osmo-regulation. The knock-out strain still exhibits substantial guanylate cyclase activity, demonstrating that Dictyostelium contains at least one other guanylate cyclase.
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PMID:Guanylate cyclase in Dictyostelium discoideum with the topology of mammalian adenylate cyclase. 1123 75

Amoebae of the cellular slime mould Dictyostelium discoideum showed stimulated mitogenic activity when exposed to 200 microM isoproterenol, an activator of adenyl cyclase, for 30 min. Approximately 40% increase in cell proliferation was found at 48 h after isoproterenol treatment. A faster and larger plaque formation as well as higher uptake of FITC-labelled E. coli indicates greater phagocytotic activity in the treated cells. A concurrent increase in DNA and protein syntheses was also recorded in the treated cells. Administration of 400 microM caffeine or 200 microM (+) propranolol brought down the isoproterenol-induced elevation in the cell division rate to control levels. These results are discussed in relation to a precocious activation of adenyl cyclase in the treated cells leading to a transient but significant increase in cell division in this organism.
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PMID:Mitogenic stimulation in isoproterenol treated cells of dictyostelium discoideum. 1177 24

When amoebae of Dictyostelium discoideum develop on gels of polyacrylamide that are derivatized with glucosides, they become capable of aggregation at the same time as cells not exposed to glucosides. However, the aggregation centers and streams of adherent cells formed on immobilized glucosides suddenly disintegrate. The cells repeatedly re-aggregate, but never form tight aggregates as they do on other substrata. Tight aggregates formed in the absence of glucosides disperse after their transfer to glucoside gels, and the cells undergo aggregation-disaggregation cycles. The formation of tight aggregates is correlated with the expression of specific post-aggregative poly(A) RNAs. These RNAs are not expressed in cells developing on glucoside gels, and the dispersal of tight aggregates on such gels is accompanied by the almost complete loss of these RNAs. A developmentally regulated membrane glycoprotein called contact site A, which is a marker of aggregation-competent cells, is normally expressed on glucoside gels. Cyclic AMP is also produced, indicating that the strong increase of adenylate cyclase activity during the preaggregation phase is not affected. In conclusion, cell contact with immobilized glucosides specifically inhibits postaggregative gene expression and arrests development at the aggregation stage.
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PMID:Regulation of gene expression in Dictyostelium discoideum cells exposed to immobilized carbohydrates. 1645 93

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