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)

In the fission yeast Schizosaccharomyces pombe, glucose represses onset of gluconate-H+ symport and inhibits transiently the activity of the symport protein. Wild-type cells harvested from high glucose medium take up gluconate very slowly and the rate of uptake is increased 150-fold in response to glucose starvation. Here it is shown that an intact cAMP cascade is necessary to prevent premature onset in the presence of high glucose concentrations. Cells which have lost either adenylate cyclase (Cyr1) or cAMP-dependent protein kinase (Pka1) transport gluconate up to 60-fold faster than wild-type cells when harvested from high glucose medium. Moreover, inactivation of the stress-sensing Wis1-Sty1 MAP kinase pathway, by loss of Wis1 MAP kinase kinase, diminishes 10-fold the onset of gluconate uptake in response to starvation. A mutant was identified showing a comparable phenotype. By complementation, the gti1+ (gluconate transport inducer 1) gene has been isolated. Disruption of gti1 reduces starvation-induced onset by a similar factor to that observed in wis1 delta cells. Cells over-expressing gti1+ induce gluconate uptake much faster resulting in a threefold higher uptake rate, although gti1+ does not code for the gluconate transport protein. In contrast to the repression of onset, transient downregulation of the gluconate symporter is independent of Pka1 activity and requires ongoing glucose influx. Addition of glucose to starved cyr1 delta cells reduces uptake 9-fold, whereas starved pka1 delta cells, which are able to synthesise cAMP, respond with a 60-fold decrease in transport.
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PMID:Onset of gluconate-H+ symport in Schizosaccharomyces pombe is regulated by the kinases Wis1 and Pka1, and requires the gti1+ gene product. 937 49

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

Glutamine:fructose-6-phosphate amidotransferase (GFAT) is the rate-limiting enzyme in glucosamine synthesis. Prior studies from our laboratory indicated that activation of adenylate cyclase was associated with depletion of O-GlcNAc modification. This finding and evidence that human GFAT (hGFAT) might be regulated by cAMP-dependent protein kinase (PKA) led us to investigate the role of PKA in hGFAT function. We confirmed that adenylate cyclase activation by forskolin results in diminished O-GlcNAc modification of several cellular proteins which can be overcome by exposure of the cells to glucosamine but not glucose, suggesting the PKA activation results in depletion of UDP-GlcNAc for O-glycosylation. To determine if GFAT is indeed regulated by PKA, we expressed the active form of the enzyme using a vaccinia virus expression system and showed that the activity of the enzyme was to decrease to undetectable levels by PKA phosphorylation. We mapped the PKA phosphorylation sites with the aid of matrix-assisted laser desorption ionization mass spectroscopy and showed that the protein was stoichiometrically phosphorylated at serine 205 and also phosphorylated, to a lesser extent at serine 235. Mutagenesis studies indicated that the phosphorylation of serine 205 by PKA was necessary for the observed inhibition of enzyme activity while serine 235 phosphorylation played no observable role. The activity of GFAT is down-regulated by cAMP, thus placing regulation on the hexosamine pathway that is in concert with the energy requirements of the organism. During starvation, hormones acting through adenylate cyclase could direct the flux of glucose metabolism into energy production rather than into synthetic pathways that require hexosamines.
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PMID:Phosphorylation of human glutamine:fructose-6-phosphate amidotransferase by cAMP-dependent protein kinase at serine 205 blocks the enzyme activity. 1080 97

The fission yeast Schizosaccharomyces pombe responds to environmental glucose by activating adenylate cyclase. The resulting cAMP signal activates protein kinase A (PKA). PKA inhibits glucose starvation-induced processes, such as conjugation and meiosis, and the transcription of the fbp1 gene that encodes the gluconeogenic enzyme fructose-1,6-bisphosphatase. We previously identified a collection of git genes required for glucose repression of fbp1 transcription, including pka1/git6, encoding the PKA catalytic subunit, git2/cyr1, encoding adenylate cyclase, and six "upstream" genes required for adenylate cyclase activation. The git8 gene, identical to gpa2, encodes the alpha subunit of a heterotrimeric guanine-nucleotide binding protein (Galpha) while git5 encodes a Gbeta subunit. Multicopy suppression studies with gpa2(+) previously indicated that S. pombe adenylate cyclase activation may resemble that of the mammalian type II enzyme with sequential activation by Galpha followed by Gbetagamma. We show here that an activated allele of gpa2 (gpa2(R176H), carrying a mutation in the coding region for the GTPase domain) fully suppresses mutations in git3 and git5, leading to a refinement in our model. We describe the cloning of git3 and show that it encodes a putative seven-transmembrane G protein-coupled receptor. A git3 deletion confers the same phenotypes as deletions of other components of the PKA pathway, including a germination delay, constitutive fbp1 transcription, and starvation-independent conjugation. Since the git3 deletion is fully suppressed by the gpa2(R176H) allele with respect to fbp1 transcription, git3 appears to encode a G protein-coupled glucose receptor responsible for adenylate cyclase activation in S. pombe.
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PMID:Glucose monitoring in fission yeast via the Gpa2 galpha, the git5 Gbeta and the git3 putative glucose receptor. 1101 2

Neurons from the superior cervical ganglia (SCG) innervate the submandibular gland and release noradrenaline during the dark phase of the daily photoperiod. Since in the pineal, another structure innervated by sympathetic neurons, nocturnal activation of the SCG is associated with beta-adrenergic sub- and super-sensitivity rhythms, the possible existence of similar phenomena in the rat submandibular gland was assessed. Wistar female rats, kept on a 14:10 light/dark cycle (light from 06:00 to 20:00 h), were sacrificed at 09:00, 14:00, 20:00, 24:00 and 04:00 h. beta-Adrenoceptors were studied by 3H-dihydroalprenolol binding to membrane preparations. The equilibrium dissociation constant (Kd) did not change as a function of time while significant daily variations in maximal binding values (Bmax) were observed with a peak at 20:00 h. Changes in Bmax correlated with a high response of adenylate cyclase to isoproterenol. In addition, when the response in salivary flow to isoproterenol was measured. a shift to the left (about 1 logarithmic unit) in dose-response curves was observed at 19:00-20:00 has compared to 08:00-09:00 h. These daily variations in isoproterenol responsiveness seem not to depend on the pattern of eating since a 24-h starvation or a nocturnal starvation for 16-18 days did not abolish the morning-evening differences in the salivary flow response to isoproterenol. Rather, the results suggest that the daily variations in isoproterenol response correlate with beta-adrenergic super- and sub-sensitivity phenomena associated with the circadian release of noradrenaline from SCG neurons.
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PMID:Daily changes in beta-adrenergic sensitivity of rat submandibular gland. Correlation with beta-adrenoceptor rhythm. 1147 37

The neuronal calcium sensor (NCS) proteins (e.g. recoverin, neurocalcins, and frequenin) are expressed at highest levels in excitable cells, and some of them regulate desensitization of G protein-coupled receptors. Here we present NMR analysis and genetic functional studies of an NCS homolog in fission yeast (Ncs1p). Ncs1p binds three Ca2+ ions at saturation with an apparent affinity of 2 microm and Hill coefficient of 1.9. Analysis of NMR and fluorescence spectra of Ncs1p revealed significant Ca2+-induced protein conformational changes indicative of a Ca2+-myristoyl switch. The amino-terminal myristoyl group is sequestered inside a hydrophobic cavity of the Ca2+-free protein and becomes solvent-exposed in the Ca2+-bound protein. Subcellular fractionation experiments showed that myristoylation and Ca2+ binding by Ncs1p are essential for its translocation from cytoplasm to membranes. The ncs1 deletion mutant (ncs1Delta) showed two distinct phenotypes: nutrition-insensitive sexual development and a growth defect at high levels of extracellular Ca2+ (0.1 m CaCl(2)). Analysis of Ncs1p mutants lacking myristoylation (Ncs1p(G2A)) or deficient in Ca2+ binding (Ncs1p(E84Q/E120Q/E168Q)) revealed that Ca2+ binding was essential for both phenotypes, while myristoylation was less critical. Exogenous cAMP, a key regulator for sexual development, suppressed conjugation and sporulation of ncs1Delta, suggesting involvement of Ncs1p in the adenylate cyclase pathway turned on by the glucose-sensing G protein-coupled receptor Git3p. Starvation-independent sexual development of ncs1Delta was also complemented by retinal recoverin, which controls Ca2+-regulated desensitization of rhodopsin. In contrast, the Ca2+-intolerance of ncs1Delta was not affected by cAMP or recoverin, suggesting that the two ncs1Delta phenotypes are mechanistically independent. We propose that Schizosaccharomyces pombe Ncs1p negatively regulates sporulation perhaps by controlling Ca2+-dependent desensitization of Git3p.
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PMID:Fission yeast homolog of neuronal calcium sensor-1 (Ncs1p) regulates sporulation and confers calcium tolerance. 1472 91

Schizosaccharomyces pombe utilizes two opposing signaling pathways to sense and respond to its nutritional environment. Glucose detection triggers a cyclic AMP signal to activate protein kinase A (PKA), while glucose or nitrogen starvation activates the Spc1/Sty1 stress-activated protein kinase (SAPK). One process controlled by these pathways is fbp1+ transcription, which is glucose repressed. In this study, we isolated strains carrying mutations that reduce high-level fbp1+ transcription conferred by the loss of adenylate cyclase (git2delta), including both wis1- (SAPK kinase) and spc1- (SAPK) mutants. While characterizing the git2delta suppressor strains, we found that the git2delta parental strains are KCl sensitive, though not osmotically sensitive. Of 102 git2delta suppressor strains, 17 strains display KCl-resistant growth and comprise a single linkage group, carrying mutations in the cgs1+ PKA regulatory subunit gene. Surprisingly, some of these mutants are mostly wild type for mating and stationary-phase viability, unlike the previously characterized cgs1-1 mutant, while showing a significant defect in fbp1-lacZ expression. Thus, certain cgs1- mutant alleles dramatically affect some PKA-regulated processes while having little effect on others. We demonstrate that the PKA and SAPK pathways regulate both cgs1+ and pka1+ transcription, providing a mechanism for cross talk between these two antagonistically acting pathways and feedback regulation of the PKA pathway. Finally, strains defective in both the PKA and SAPK pathways display transcriptional regulation of cgs1+ and pka1+, suggesting the presence of a third glucose-responsive signaling pathway.
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PMID:Suppressors of an adenylate cyclase deletion in the fission yeast Schizosaccharomyces pombe. 1518 83

When vegetative cells of Dictyostelium discoideum were incubated in nutrient medium containing 5 mM caffeine, adenylate cyclase was induced and exceeded control values 30-fold after 6 h of incubation. The effect was dose-dependent and blocked by cycloheximide. Contact site A, a developmentally regulated membrane glycoprotein characteristic of aggregation-competent cells, was not induced by the treatment. The expression of a developmentally regulated gene coding for an unknown protein and hybridizing with the cDNA clone P26E8 was also stimulated, indicating that the regulation of expression occurs at the transcript level. Cells pretreated with caffeine in growth medium, washed and developed in starvation buffer showed an acceleration of development by 2 h as judged by stream formation and the appearance of contact sites A. The same effects were observed when cells were incubated under heat shock conditions (30 degrees C). The results indicate that caffeine stimulates the expression of devevelopmentally regulated early genes, and that their products, together with exogeneous factor(s), initiate subsequent steps of development.
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PMID:Caffeine and heat shock induce adenylate cyclase in Dictyostelium discoideum. 1645 41

Adenylate cyclase, guanylate cyclase, and the cyclic nucleotide phosphodiesterases of Cylindrotheca fusiformis were characterized in crude and partially purified preparations. Both cyclases were membrane-bound and required Mn(2+) for activity, though Mg(2+) gave 50% activity with adenylate cyclase. Properties of adenylate cyclase were similar to those of higher eukaryotic cyclases in some respects, and in other respects were like lower eukaryotic cyclases. Guanylate cyclase was typical of other lower eukaryotic enzymes.Two phosphodiesterase activities were found, one selective for cyclic AMP, the other for cyclic GMP. The 5'-nucleoside monophosphate was the major product of both activities and each of the enzymes had distinctive divalent cation requirements, pH optima, and kinetic parameters. Both phosphodiesterases were similar to those of other lower eukaryotes with one notable difference: the cyclic AMP enzyme was inhibited by calcium.Changes in the cyclic nucleotide levels were quantitated in light-dark and silicon-starvation synchronized cultures using a more sensitive radioimmunoassay than used in a previously published study (Borowitzka and Volcani 1977 Arch Microbiol 112: 147-152). Contrary to the previous report, the cyclic GMP level did not change significantly in either synchrony. The cyclic AMP level increased dramatically very early in the period of DNA replication with the peak cyclic AMP accumulation substantially preceding that of DNA synthesis in both synchronies. There was no significant change in the activity of either cyclase or either phosphodiesterase during either synchrony. Thus, the mechanism for the rise in cAMP level remains unclear.
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PMID:Role of Silicon in Diatom Metabolism : Cyclic Nucleotide Levels, Nucleotide Cyclase, and Phosphodiesterase Activities during Synchronized Growth of Cylindrotheca fusiformis. 1666 4

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