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)

Adenylate cyclase and cAMP-dependent protein kinase activities in gametocytogenic (LE5) and nongametocytogenic (T9/96) clones of Plasmodium falciparum were compared to explore the role of cAMP in sexual differentiation of the parasite. Basal adenylate cyclase levels were equivalent in the 2 clones. However, cAMP-dependent histone II-A kinase activity was significantly higher in LE5 than in T9/96 over a range of cAMP concentrations. This difference was due to a decreased Vmax for the enzyme in the nongametocytogenic clone and not to an increased Ka for cAMP. Examination of parasite cAMP-binding proteins, likely to be kinase regulatory subunits, by both photoaffinity labeling with [32P]8-N3-cAMP and affinity chromatography of metabolically [35S]methionine-labeled cytosol of cAMP-agarose revealed a 53-kDa cAMP binding protein in both clones and a 49-kDa cAMP-binding protein in T9/96 that was absent in LE5. Our results suggest that T9/96 has lost the ability to undergo gametocytogenesis due to a substantial decrease in cAMP-dependent protein kinase activity rendering the parasite unable to respond to increased intracellular cAMP levels. Moreover, the reduction in cAMP-dependent protein kinase activity may be due to the presence of an alternative regulatory subunit of the kinase.
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PMID:Comparison of adenylate cyclase and cAMP-dependent protein kinase in gametocytogenic and nongametocytogenic clones of Plasmodium falciparum. 204 Sep 46

We have compared the time course of the behavioral manifestations of opiate withdrawal to the in vivo activity of locus coeruleus (LC) neurons and to increases in the levels of G-proteins, adenylate cyclase, and cAMP-dependent protein kinase known to occur in the LC in opiate-dependent animals. Rats were given morphine by daily subcutaneous implantation of morphine pellets for 5 d. On the sixth day, morphine withdrawal was induced by subcutaneous administration of naltrexone, an opiate receptor antagonist, with additional doses given 6 and 24 hr later, conditions that resulted in sustained, maximal levels of withdrawal over the duration of the experiment. We found a striking parallel between the time courses of the behavioral signs and the increased activity of LC neurons during withdrawal, both of which appeared to follow 2 phases. There was an early, rapid phase, during which withdrawal signs and increased LC activity became most pronounced within 15-30 min after naltrexone administration, and then recovered rapidly by over 50% within 4 hr of withdrawal. Subsequently, there was a slower phase, during which the persisting withdrawal signs and elevated LC activity remained roughly constant from 4 to 24 hr and did not recover completely until after 72 hr of continuous withdrawal. Adenylate cyclase and cAMP-dependent protein kinase activities in isolated LC subcellular fractions, both elevated in dependent animals, recovered to control levels after 6 hr of withdrawal, in parallel with the rapid phase of withdrawal. Levels of G1 and Go, also elevated in dependent animals, remained only slightly elevated at 6 hr and returned to normal by 24 hr. Taken together, these data suggest that increased neuronal activity in the LC is associated temporally with the behavioral morphine withdrawal syndrome and that increased levels of G-proteins and an up-regulated cAMP system may contribute to the early withdrawal activation of these neurons.
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PMID:Opiate withdrawal and the rat locus coeruleus: behavioral, electrophysiological, and biochemical correlates. 211 10

We measured cortisol and precursor steroid production in response to ACTH, cholera toxin, and forskolin by the dispersed adrenocortical cells prepared from the adrenal glands of 10 patients with different forms of Cushing's syndrome. The cells prepared from the hyperplastic adrenal glands from 4 patients with Cushing's disease responded in a dose-dependent manner to ACTH, cholera toxin, and forskolin. The adrenal cells prepared from 4 encapsulated adrenal adenomas showed no (n = 2), a lowered (n = 1), or a clear (n = 1) response of cortisol release to ACTH. The cells prepared from the adrenal glands of 1 patient with dysplastic micronodular adrenal glands showed a limited response to ACTH, while the cells from an adrenocortical carcinoma, which secreted very little cortisol per cell, were unresponsive to ACTH, cholera toxin, and forskolin. The reaction of the dispersed adrenal cells from these 10 patients to ACTH, cholera toxin, and forskolin showed a close correlation (P less than 0.001 in all instances). This suggests that the defect in autonomous glands is not located at the level of the ACTH receptor, but, rather, involves the adenylate cyclase complex as a whole or its coupling to cAMP-dependent protein kinase. The release into the medium of the cortisol precursors deoxycortisol, 17-hydroxyprogesterone, and progesterone showed that the four autonomous nodules were characterized by a significantly higher deoxycortisol/cortisol ratio in the medium (P less than 0.01), suggesting a relative blockade of 11 beta-hydroxylase in these adrenal adenomas. This was further substantiated in cells from several adrenals by a significant increase in the release of these precursors in response to ACTH in the absence of a cortisol response. We conclude the following. 1) Adrenal adenoma formation in patients with Cushing's syndrome is accompanied by a parallel decrease in the stimulation of the release of steroid hormones in response to ACTH, cholera toxin, and forskolin. This points to a defect in the adenoma cells beyond the ACTH receptor. 2) Adrenal adenoma formation in patients with Cushing's syndrome is accompanied by a relative blockade of 11 beta-hydroxylase activity. 3) By comparing the preoperative dynamic tests of the pituitary-adrenal axis, the plasma ACTH concentration, the morphology of the adrenal glands, and their in vitro responsiveness, a gradual transition from pituitary to (partial) adrenal autonomy could be recognized in several patients.
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PMID:Characterization of adrenal autonomy in Cushing's syndrome: a comparison between in vivo and in vitro responsiveness of the adrenal gland. 215 30

The enhanced phosphorylations via cAMP, Ca2+ mobilization, and diacyl glycerol formation via the activation of the respective kinases is now classical. The decreased phosphorylation via inhibition of adenylate cyclase via the alpha adrenergic receptor is also becoming understood. What the insulin studies on the control of glycogen synthesis have taught us is that the rate limiting enzyme glycogen synthase is regulated by multiple covalent phosphorylation in an elegant but complex manner. The overall pattern of dephosphorylation is influenced by effecting both phosphatase and kinase activities in a set of interrelated mechanisms. In the presence of glucose, in muscle, fat, and liver under physiological conditions G-6-P acts as a signal to stimulate the phosphatase. An additional stimulation could occur via a novel insulin phosphatase stimulatory mediator. The phosphatase is also stimulated by at least three covalent mechanisms involving altered phosphorylation state. In one there is a decreased phosphorylation of the phosphatase inhibitor 1 potentially related to decreased cAMP-dependent protein kinase activity. In the second, there is decreased phosphorylation of the deinhibitor also potentially related to decreased cAMP-dependent protein kinase phosphorylation. In the third, an increased activity of casein kinase 2 could activate the ATP-Mg dependent phosphatase by an increased phosphorylation of phosphatase inhibitor 2 (modulatory subunit). In the liver, allosteric control of the phosphatase by G-6-P and nucleotides is of great importance. Insulin also stimulates the phosphatase in long-term experiments via increased protein synthesis. It is clear that future work will be required to determine which species of the various classes of phosphatases are regulated in short-term and long-term regulation by insulin. In terms of kinases, the effects of insulin to inactivate and desensitize the cAMP-dependent protein kinase are established. The molecular mechanisms of this effect remain to be worked out. The enhanced activity of MAP and S-6 kinase would appear to be part of a cascade of reactions perhaps originating in the autophosphorylation and activation of the insulin receptor tyrosine kinase. The mechanism of the short-term activation of casein kinase 2 remains to be elucidated. A cAMP-dependent protein kinase inhibitory mediator, which also inhibits adenylate cyclase is an important element in the regulation of kinase and adenylate cyclase activity by insulin. Its physiological significance must be established in the future, in terms of its control of glycogen synthase activation by insulin. Clearly this kinase inhibitor as well as the phosphatase stimulator are potential regulators of glycogen synthase activity by insulin.
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PMID:Insulin and the stimulation of glycogen synthesis. The road from glycogen structure to glycogen synthase to cyclic AMP-dependent protein kinase to insulin mediators. 215 10

The major action of forskolin, the diterpine activator of adenylate cyclase, in primary (unpassaged) rat aortic smooth muscle cells is to reduce vasopressin-stimulated Ca2+ concentrations. In repetitively passaged cells, however, forskolin by itself increased Ca2+ levels by apparently stimulating Ca2+ uptake into the cell and had much smaller effects on inhibiting vasopressin-stimulated Ca2+ elevations. Both primary and passaged smooth muscle cells contained adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase. Guanosine 3',5'-cyclic monophosphate (cGMP)-dependent protein kinase was greatly reduced or absent in passaged smooth muscle cells. The introduction of purified cGMP-dependent protein kinase into the cytoplasm of passaged cells prevented forskolin from elevating intracellular Ca2+ and restored the capacity of forskolin to reduce vasopressin-stimulated Ca2+ mobilization. Similar effects were observed for isoproterenol in passaged smooth muscle cells. When introduced into cells, the active catalytic subunit of the cAMP-dependent protein kinase did not lead to reductions in Ca2+ levels. These results suggest that cAMP elevations lead to profound changes in Ca2+ metabolism through activation of both cAMP- and cGMP-dependent protein kinases. Activation of cGMP-dependent protein kinase by cAMP leads to the reduction in intracellular Ca2+, whereas activation of cAMP-dependent protein kinase may only mediate the uptake of Ca2+ from extracellular sources.
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PMID:cGMP-dependent protein kinase mediates the reduction of Ca2+ by cAMP in vascular smooth muscle cells. 215 36

We have identified a gene, SRV2, mutations of which alleviate stress sensitivity in strains carrying an activated RAS gene. Epistasis analysis suggests that the gene affects accumulation of cAMP in the cell. Direct assays of cAMP accumulation indicate that mutations of the gene diminish the rate of in vivo production of cAMP following stimulation by an activated RAS allele. Null mutations of srv2 result in lethality, which cannot be suppressed by mutational activation of the cAMP-dependent protein kinase. The sequence of the gene indicates that it encodes an adenylate cyclase-associated protein. These results demonstrate that SRV2 protein is required for RAS-activated adenylate cyclase activity, but that it participates in other essential cellular functions as well.
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PMID:SRV2, a gene required for RAS activation of adenylate cyclase in yeast. 215 60

Intracellular levels of cAMP and specific activities of adenylate cyclase, cAMP phosphodiesterase and cAMP-dependent protein kinase were measured during filamentation in the dimorphic fungus Candida albicans. Enzymatic assays were performed in permeabilized cells under conditions prevented endogenous proteolysis. The variations observed in cAMP levels were mainly accounted for by variations in the specific activities of adenylate cyclase and cAMP phosphodiesterase at different stages during germ tube formation. cAMP-dependent protein kinase, measured with kemptide as exogenous substrate, was developmental regulated. Some properties of the enzymatic activities from cell-free extracts are described.
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PMID:cAMP levels and in situ measurement of cAMP related enzymes during yeast-to-hyphae transition in Candida albicans. 215 86

Cultured pig aortic smooth muscle cells respond to extracellular adenosine by activating adenylate cyclase and by initiating the efflux of cAMP. In the presence of extracellular adenosine, efflux is first order with respect to intracellular cAMP concentration up to at least 125 pmol/10(6) cells. The apparent first-order rate constant for the efflux of cAMP increases in a dose-dependent manner in response to extracellular adenosine or 5-N-ethylcarboxamide adenosine. The EC50 for adenosine for promoting cAMP efflux is 12 microM. For cells stimulated with 5-N-ethylcarboxamide adenosine, the EC50 is 5 microM. When extracellular adenosine is removed, efflux stops abruptly. Cellular cAMP content falls but is still in a range that supports cAMP efflux when agonist is present. Efflux is not affected by H8 (N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide dihydrochloride), an inhibitor of cAMP-dependent protein kinase. These data suggest that in pig aortic smooth muscle cells, the efficiency of cAMP efflux is regulated by A2 receptor occupancy.
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PMID:Cyclic AMP efflux is regulated by occupancy of the adenosine receptor in pig aortic smooth muscle cells. 216 28

Vascularly perfused duodenal loops from normal vitamin D-replete chicks were used to obtain insight with regards to the possible mechanism(s) by which 1,25-dihydroxy-vitamin D3 [1,25(OH)2D3] rapidly stimulates intestinal Ca2+ transport (transcaltachia). The phorbol ester, 12-o-tetradecanoyl phorbol-13 acetate (TPA) (100 nM), and the adenylate cyclase activator, forskolin (10 microM), were found to stimulate Ca2+ transport from the lumen to the vascular effluent to the same extent that physiological levels of 1,25(OH)2D3 achieve. The effects of both substances exhibited concentration dependence. Similarly to 1,25(OH)2D3, addition of either TPA or forskolin to the lumenal compartment of normal chicks or vascular perfusion of duodena from vitamin D-deficient chicks failed to stimulate Ca2+ transport. Also and analogously to 1,25(OH)2-D3, TPA and forskolin-enhanced duodenal Ca2+ transport was abolished by the Ca2(+)-channel antagonists nifedipine (1 microM) and verapamil (30 microM). In addition, the protein kinase C inhibitor, staurosporine, totally abolished the rise in Ca2+ transport caused by 130 pM 1,25(OH)2D3. The synthetic peptide IP20, a well characterized cAMP-dependent protein kinase inhibitor, was also effective in suppressing 1,25(OH)2D3-dependent stimulation of duodenal Ca2+ transport. Collectively these results suggest that protein kinase C and cAMP-dependent protein kinase mediate 1,25(OH)2D3 activation of basal lateral membrane Ca2(+)-channels as an early effect in the transcaltachic response.
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PMID:Evidence for involvement of protein kinase C and cyclic adenosine 3',5' monophosphate-dependent protein kinase in the 1,25-dihydroxy-vitamin D3-mediated rapid stimulation of intestinal calcium transport, (transcaltachia). 216 20

In accord with previous studies, it was found that vasoactive intestinal peptide (VIP), a powerful activator of adenylate cyclase, and cAMP-active agents (i.e., 8-Br-cAMP, forskolin, and Ro20-1724) increased the firing rate of noradrenergic neurons in the locus coeruleus (LC) by inducing an inward current. The response to VIP was usually more rapid and larger in a subpopulation of LC neurons with subthreshold rhythmic oscillations in membrane potential (oscillatory cells) as compared to nonoscillatory cells. In either case, the inward currents elicited by VIP and cAMP-active agents were found to be nonadditive, suggesting the action of VIP, at least in part, is via the same mechanism as that of cAMP-active agents. Intracellular application of a specific protein (or related peptide) inhibitor of cAMP-dependent protein kinase markedly attenuated the activation induced by either cAMP-active agents or VIP, suggesting that cAMP-dependent protein kinase (protein kinase A), presumably through protein phosphorylation, plays a role in the action of VIP. Taken together, the results provide evidence that cAMP and protein kinase A are involved in mediating the electrophysiological actions of VIP on LC neurons.
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PMID:Excitation of locus coeruleus neurons by vasoactive intestinal peptide: role of a cAMP and protein kinase A. 217 May 95

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