Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

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

Responsiveness of Dictyostelium discoideum amoebae to cAMP, a chemotactic mediator, was investigated in a strain defective in cAMP-phosphodiesterase production. Cells were subjected to a high cAMP signal (10(-6) M) in the presence or absence of exogenous phosphodiesterase, and the changes of intracellular cAMP and cGMP concentrations and of adenylate cyclase activity were measured. In the presence of cAMP hydrolysis, both adenylate and guanylate cyclases are transiently activated. In the absence of hydrolysis, the high and constant extracellular cAMP concentration is sufficient to elicit a re-activation of adenylate cyclase a few minutes after the first transient response. In contrast, levels of cGMP remain basal for at least 20 min after termination of the initial response to the cAMP addition.
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PMID:Cellular responsiveness to cyclic AMP in a phosphodiesterase-defective mutant of Dictyostelium discoideum. 628 69

In Dictyostelium discoideum, binding of cAMP to high affinity surface receptors leads to a rapid activation of adenylate cyclase followed by subsequent adaptation within several minutes. The rate of secretion of [ 3H ]cAMP, which reflects the state of activation of the enzyme, was measured. Caffeine noncompetitively inhibited the response to cAMP. Inhibition was rapidly reversible and pretreatment of cells with caffeine for up to 22 min had little effect on the subsequent responsiveness to cAMP. However, cells pretreated with caffeine plus cAMP for greater than or equal to 8 min did not respond when caffeine was removed and the same concentration of cAMP was applied. The following observations indicate that both adaptation and deadaptation to cAMP occurred to the same extent and at the same rate whether or not cAMP synthesis was inhibited. First, when cells were pretreated with 10(-9)-10(-6) M cAMP in the presence or absence of caffeine and the stimulus was switched to a saturating dose of cAMP, the response to the increment was the same whether or not the initial response was blocked. Second, cells progressively lost responsiveness to 10(-6) M cAMP as pretreatment with 10(-6) M cAMP plus caffeine was extended from 0 to 8 min with the same time course as for those pretreated with 10(-6) M cAMP alone. Third, cells which were adapted in the presence of caffeine and cAMP deadapted within the same time period as controls when cAMP was removed. These observations demonstrate that while some part of the activation process is inhibited by caffeine the adaptation process is unaffected. Our conclusion is that adaptation does not depend on the activation of adenylate cyclase.
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PMID:Cyclic 3', 5'-AMP relay in Dictyostelium discoideum: adaptation is independent of activation of adenylate cyclase. 630 13

The patterns of temporal self-organization in regulated biochemical systems are examined. Simple periodic oscillations are the most frequent type of such organization, as exemplified by glycolytic oscillations in yeast and muscle and by the periodic synthesis of adenosine 3',5'-cyclic monophosphate in Dictyostelium discoideum amoebas. These phenomena originate, respectively, from the periodic operation of the product-activated phosphofructokinase and adenylate cyclase reactions. The analysis of a model for a multiply regulated biochemical system shows more complex oscillatory phenomena, e.g., the coexistence between two stable periodic regimes for the same set of parameter values (birhythmicity) and chaos. The latter phenomenon of aperiodic oscillations occurs in a narrow range of parameter values and is much less frequent than simple or complex periodic behavior. It is suggested that a sufficient condition for the occurrence of birhythmicity and chaos in a regulated biological system subjected to a constant environment (i.e., in the absence of periodic forcing) may be the simultaneous presence and interaction of two mechanisms capable of producing oscillations.
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PMID:Temporal self-organization in biochemical systems: periodic behavior vs. chaos. 631 16

Cyclic AMP (cAMP) appears to play multiple roles in the development of the social ameba Dictyostelium discoideum, serving as the chemoattractant mediating aggregation, and perhaps also regulating gene transcription in both early and late stages of differentiation. Progress in understanding the mechanism of activation of the adenylate cyclase in D. discoideum has been frustrated by the inability to obtain its activation in vitro. Also, the lack of defined cAMP-defective mutants has prevented a causal relationship from being established between cAMP levels and gene expression. As an alternative approach to studying the role of cAMP in D. discoideum development, we have sought a compound which inhibits cAMP synthesis in a reasonably specific manner. Here we identify caffeine as a compound which rapidly and reversibly inhibits cAMP-dependent activation of the adenylate cyclase without affecting either cell viability or intracellular levels of ATP or GTP. Using this drug, we show that cAMP synthesis is not required for the cAMP-stimulated decrease in lightscattering, the increase in cyclic GMP synthesis, or for chemotaxis toward cAMP. Studies of the mechanism of action of caffeine show that the drug does not act by inhibiting a cAMP phosphodiesterase, by inhibiting binding of cAMP to its receptor, by itself binding to a physiological adenosine receptor, or by directly inhibiting the adenylate cyclase. Instead, caffeine blocks the cAMP-dependent activation of the adenylate cyclase. Since similar effects are obtained with the cation ionophore A23187, it is possible that caffeine exerts its effect by altering intracellular calcium distribution.
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PMID:Caffeine blocks activation of cyclic AMP synthesis in Dictyostelium discoideum. 631 7

Cyclic AMP is known to function as the chemotactic signal during aggregation of single-celled amoebae of the cellular slime mold Dictyostelium discoideum. Evidence from several laboratories has accumulated suggesting that cAMP also acts as a regulatory molecule during Dictyostelium multicellular differentiation. We have used ultramicrotechniques and a sensitive radioimmunoassay in the localization of adenylate cyclase, the cAMP synthetic enzyme, during the development of Dictyostelium. We demonstrate that adenylate cyclase activity is localized in the prespore cells of the culminating individual with no activity detectable in the prestalk region. We show that this lack of activity in the stalk may be due to a masking by an endogenous inhibitor of the enzyme. Within the spore mass we found an increasing gradient of enzyme activity toward the base. These data, along with that from the localization of cyclic nucleotide phosphodiesterase, indicate that an enzymatic potential exists for the creation of cAMP gradients during development in the organism. Such a gradient may provide positional information necessary to direct the terminal differentiation of spore and stalk cells.
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PMID:Localization of adenylate cyclase during development of Dictyostelium discoideum. 671 42

Dependance of adenylate cyclase activity from "aggregation-component" Dictyostelium discoideum cells on ATP concentration has been examined. The enzyme exhibits on-Michaelian kinetics towards its substrate, from which two apparent Km values of 17 micro M and 0.4 mM can be calculated. Several experiments were performed in order to test for a difference between adenylate cyclase activities measured at ATP concentrations corresponding to each Km. Activities were associated with the particulate fraction of the extracts; however attempts have failed to recover them from purified plasma membranes. Loss of activity in cellular extracts, its stimulation by Mn2+ ions, and the increase in basal specific activity during differentiation were identical whether the enzyme was tested at either of the ATP concentrations. Although these experiments do not exclude the possible existence of two distinct molecular entities, they rather favour the hypothesis of an adenylate cyclase exhibiting anti-cooperative kinetics towards ATP.
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PMID:Non-michaelian kinetics of adenylate cyclase in Dictyostelium discoideum. 739 92

A new 1150 amino acids long open reading frame (ORF), coding for an essential protein of unknown function was found in Saccharomyces cerevisiae by sequencing 3754 bp of geonomic DNA. The clone was isolated in a search for a fatty acid-binding protein (FABP) and was localized on chromosome IX. The ORF bears no homology to FABP, but it shows weak similarity to Plasmodium vivax reticulocyte binding protein 1 and to aggregation-specific adenylate cyclase from Dictyostelium discoideum. The new gene is constitutively transcribed regardless of the carbon source used.
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PMID:A new essential gene located on Saccharomyces cerevisiae chromosome IX. 748 52

Dictyostelium cells express an aggregative adenylylcyclase (ACA), responsible for oscillatory cAMP signaling, and a spore germination-specific adenylylcyclase (ACG). Overexpression of PKA regulatory (R) subunits blocks oscillatory cAMP signaling but increases basal cAMP levels, while neither ACA nor ACG mRNA could be detected. To test whether a novel type of adenylylcyclase (AC) was responsible for cAMP synthesis, dominant-negative PKA-R subunits (PKA-RM) and control R-subunits (PKA-RC) were overexpressed in ACA null mutants. Both transformations as well as transformation with an unrelated vector, carrying the same NEOR selection marker, induced an AC activity in growing cells with the biochemical characteristics of ACG. Similar vectors with a different URA selection marker did not increase AC activity. We conclude that the amino-glycoside phosphotransferase encoded by the very commonly used NEOR selection marker induces ectopic ACG activity in Dictyostelium cells.
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PMID:Transformation with vectors harboring the NEOR selection marker induces germination-specific adenylylcyclase activity in Dictyostelium cells. 755 61

Dictyostelium discoideum cells contain cell surface cyclic AMP (cAMP) receptors that bind cAMP as a first messenger and intracellular cAMP receptors that bind cAMP as a second messenger. Prolonged incubation of Dictyostelium cells with cAMP induces a sequential process of phosphorylation, sequestration and down-regulation of the surface receptors. The role of intracellular cAMP in down-regulation of surface receptors was investigated. Down-regulation of receptors does not occur under conditions that specifically inhibit the formation of intracellular cAMP (the drug caffeine or mutant cells lacking adenylate cyclase) or conditions that inhibit the function of intracellular cAMP (mutants lacking protein kinase A activity). Cell-permeable non-hydrolysable cAMP derivatives were used to investigate further the requirement of intracellular cAMP for down-regulation. The Sp isomer of 6-thioethylpurineriboside 3',5'-phosphorothioate (6SEth-cPuMPS) does not bind to the surface receptor, enters the cell and has relative high affinity for protein kinase A. 6SEth-cPuMPS alone has no effect on down-regulation. However, together with an agonist of the surface receptor, the analogue induces down-regulation in caffeine-treated wild-type cells and in mutant cells lacking adenylate cyclase, but not in mutant cells lacking protein kinase A. These results indicate that intracellular cAMP formation and activation of protein kinase A are essential for down-regulation of the surface cAMP receptor.
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PMID:Intracellular adenosine 3',5'-phosphate formation is essential for down-regulation of surface adenosine 3',5'-phosphate receptors in Dictyostelium. 798 Apr 15


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