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)

Choleragen and its A protomer catalyzed the hydrolysis of NAD to ADP-ribose and nicotinamide. NADase activity was inhibited by gangliosides GM1 (galactosyl-N-acetylgalactosaminyl-[N-acetylneuraminyl]-galactosylglucosylceramide), GM2 (N-acetylgalactosaminyl-[N-acetylneuraminyl]-galactosylglucosylceramide), GM3 (N-acetylneuraminyl-galactosylglucosylceramide), and GD1a (N-acetylneuraminylgalactosyl-N-acetylgalactosaminyl-E1N-acetylneuraminyl]-galactosylglucosylceramide). These gangliosides also increased the intensity of the tryptophanyl fluorescence of the isolated A protomer (lambda max = 328 nm). GM1 but not GM2, GM3, and GD1a caused a "blue shift" in the fluorescence spectrum of the B protomer. These results are consistent with other evidence that the specificity of GM1 as the choleragen receptor resides in its carbohydrate moiety. The NADase activity of choleragen was similar to that of diphtheria toxin previously described [J. Kandel, R. J. Collier & D. W. Chung (1974) J. Biol. Chem. 249, 2088-2097]. As with diphtheria toxin, analogues of NAD were inhibitory, adenine being the most effective. Significant inhibition was also noted with adenosine, AMP, ADP-ribose, nicotinamide, nicotinamide mononucleotide, and NADP. NADP was hydrolyzed only slowly by choleragen. In the NADase reaction catalyzed by diphtheria toxin, water serves as an acceptor for the ADP-ribose moiety of NAD in lieu of the natural acceptor molecule, which is elongation factor II (Kandel et al., 1974). It seems probable that the natural protein acceptor for ADP-ribose in the reaction catalyzed by choleragen is adenylate cyclase or a protein component of a cyclase complex that regulates enzymatic activity.
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PMID:Effect of gangliosides and substrate analogues on the hydrolysis of nicotinamide adenine dinucleotide by choleragen. 1 71

A method is described for the isolation of secondary lysosomes from homogenates of rabbit liver; The uptake of Triton WR-1339 by rabbit-liver lysosomes when administered by intraperitoneal injection was used to decrease the density of secondary lysosomes. Lysosomal fractions prepared by this method contain an NAD nucleosidase (NAD glycohydrolase, EC 3;2.25), an enzyme which has previously been considered to be associated with other subcellular fractions. The enzyme has maximum activity at pH 6 and cleaves both NAD and NADP. It is inhibited by nicotinamide (Ki equals 4.5 mM) and by HgCl2. Both nucleosidase and 2'-nucleotidase show in-vitro latency typical of lysosomal acid hydrolases. Rabbit-liver plasma-membrane fractions were isolated which contained most 5'-nucleotidase but relatively little nucleosidase, whereas rabbit liver lysosomes contain both 5'-nucleotidase and nucleosidase enzymes but little adenyl cyclase.
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PMID:Evidence for NAD nucleosidase in rabbit-liver lysosomes. 23 77

1. Investigations were made into the influence of the ionic environment on the steroidogenic response of the rabbit ovary to luteinizing hormone (LH). 2. Removal of Ca2+ from the medium was without effect on the response to LH. A similar result was obtained in Ca2+-free medium containing EGTA. 3. A tenfold increase in [Ca2+]o to 25.6 mM, or the addition of La3+ or Eu3+ (0.25 mM) to medium containing the normal concentration of Ca2+, caused a marked inhibition of the response to LH. 4. Removal of Na+ from the medium, and replacement by choline, had no effect on the response to LH. Replacement of Na+ by Li+ inhibited the response to the hormone strongly, but the addition of 4 mM-Li+ to normal medium was without effect. 5. Removal of K+ from the medium inhibited LH-induced steroidogenesis, whereas a twentyfold increase in [K+]o to 100 mM had no effect. The response to LH was also unaffected by the absence of Cl-. 6. Ouabain (10(-4) M) inhbited the response to LH, but nupercaine (10(-4) M) was without effect. 7. The inhibitory effect of ouabain was reversed by the addition of 2 mM-NADP+ to the medium. In contrast, the inhibitory effect of Eu3+ persisted in the NADP+-rich medium. 8. It is suggested that the intracellular ratio of Na+ or Li+) to K+ is important for the expression of the steroidogenic response of the ovary to LH. Altered concentrations of these ions might affect the formation or availability of NADP+. The inhibitory effects of high [Ca2+]o and lanthanide ions, however, are probably due to inhibition of hormone-stimulated adenyl cyclase.
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PMID:Ionic dependence of luteinizing-hormone-induced steroidogenesis in the rabbit ovary. 24 Sep 35

Adenylate cyclase activity in isolated rat liver plasma membranes was inhibited by NADH in a concentration-dependent manner. Half-maximal inhibition of adenylate cyclase was observed at 120 microM concentration of NADH. The effect of NADH was specific since adenylate cyclase activity was not altered by NAD+, NADP+, NADPH, and nicotinic acid. The ability of NADH to inhibit adenylate cyclase was not altered when the enzyme was stimulated by activating the cyclase was not altered when the enzyme was stimulated by activating the Gs regulatory element with either glucagon or cholera toxin. Similarly, inhibition of Gi function by pertussis toxin treatment of membranes did not attenuate the ability of NADH to inhibit adenylate cyclase activity. Inhibition of adenylate cyclase activity to the same extent in the presence and absence of the Gpp (NH) p suggested that NADH directly affects the catalytic subunit. This notion was confirmed by the finding that NADH also inhibited solubilized adenylate cyclase in the absence of Gpp (NH)p. Kinetic analysis of the NADH-mediated inhibition suggested that NADH competes with ATP to inhibit adenylate cyclase; in the presence of NADH (1 mM) the Km for ATP was increased from 0.24 +/- 0.02 mM to 0.44 +/- 0.08 mM with no change in Vmax. This observation and the inability of high NADH concentrations to completely inhibit the enzyme suggest that NADH interacts at a site(s) on the enzyme to increase the Km for ATP by 2-fold and this inhibitory effect is overcome at high ATP concentrations.
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PMID:Inhibition of hepatic adenylate cyclase by NADH. 187

Cellular components of the bronchovascular barrier have been studied in human lungs obtained after death of some patients with acute and chronic lung inflammatory diseases, hypertonic disease, atherosclerosis and chronic glomerulonephritis. Certain oxidative-reductive and hydrolytic enzymes, including NAD-, NADP- diaphorases, lactic dehydrogenase, acid and alkaline monophosphoesterase, ATP-ase, adenylate cyclase and nonspecific esterase were evaluated quantitatively after the histochemical processing of the specimens for the above reactions. Correlation analysis was performed for the bronchial epithelium, endotheliocytes, lymphocytes, plasma and mast cells, as well as macrophages and polymorphonuclear leucocytes. The results showed that there was a significant shift in some of the measured enzymic activities. Moreover, the correlations between different quantitative data were noted and these correlations changed with age. The increase in "rigidity" of the correlations in the elements of the bronchovascular barrier has been demonstrated during the process of ageing.
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PMID:Functional morphology of the bronchovascular barrier of the human lungs during various age periods. 214 10

1. Short-term effects of lipolytic agents in the absence or in the presence of insulin on fatty acid biosynthesis have been examined, in terms of the control rate of [1-14C]acetate incorporation into labeled fatty acids in the presence of glucose, as stimulator of lipogenesis by generating NADPH for the process. 2. The relationship between lipogenesis and lipolysis in the absence or in the presence of insulin was compared with a variety of adenylate cyclase activators. 3. The data obtained reveal that a reciprocal relationship exists between lipogenesis and lipolysis. 4. The changes in the activity of hexose monophosphate shunt produced by activation or inhibition of lipogenic process has been studied. 5. The regulation of the hexose monophosphate shunt activity mainly by the intracellular fatty acyl-CoA concentration and NADPH/NADP ratio is discussed.
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PMID:Metabolic antagonism between insulin action and activators of adenylate cyclase in rat fat cells. 244 76

Signal-transducing GTP-binding Proteins of Mammalian Heart and Lungs. Journal of Molecular and Cellular Cardiology (1989) 21 (Suppl I) 91-95. Three distinct G-proteins have been found in mammalian heart sarcolemma: Gi (alpha i = 40 kDa, beta = 36 kDa, and lambda less than 14 kDa), Gp (alpha p = 23 kDa, beta = 36 kDa, and lambda less than 14 kDa), and Gs (alpha s = 42 kDa). ADP-ribosylation of sarcolemmal alpha i by pertussis toxin (PT) or preincubation of sarcolemma with protein kinase C and PMA resulted in increased adenylate cyclase activity and blockade of GTP-dependent inhibition by carbachol whereas the GTP-dependent activating effect of isoproterenol on the adenylate cyclase was preserved. ADP-ribosylation of alpha i in sarcolemma by endogenous NADP-sensitive ADP-ribosyltransferase abolished the PT-induced ADP-ribosylation of alpha i. Gpp (NH)p attenuated the PT-induced ADP-ribosylation of alpha i and promoted the cholera toxin (CT)-induced ADP-ribosylation of alpha s. The CT-induced alpha s ADP-ribosylation was enhanced in the presence of heart cytosol. Soluble Gi- and Gs-proteins were identified in lung cytosol. The 40 kDa alpha i in membrane and soluble fractions was ADP-ribosylated by PT, while the soluble 42 kDa alpha s was ADP-ribosylated by CT in lung tissue. The ADP-ribosylation of soluble alpha i by PT-suppressed guanyl nucleotide binding to Gi. The apparent molecular mass of partially purified soluble Gi was 75 kDa.
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PMID:Signal-transducing GTP-binding proteins of mammalian heart and lungs. 249 81

We have studied the influence of myocardial infection with Trypanosoma cruzi on the beta-adrenergic adenylate cyclase complex in mouse myocardial membranes. The maximal rate of cAMP generation (Vmax) and the concentration of agonist associated with 50% of the maximal activity (apparent Kact) were determined for a series of agents. Six days after infection, the Vmax for isoproterenol significantly declines without a change in the apparent Kact. After 21 days of infection, both the Vmax and apparent Kact for isoproterenol are reduced. At 6 and 21 days of infection, the affinity of the beta-receptor for [125I]iodocyanopindolol declines from 0.84 to 3.6 and 3 nM, respectively, while the receptor density increases with the duration of infection from 33 to 57 and 82 fmol/mg protein, respectively. The Vmax (but not the apparent Kact) for forskolin and Mg2+- and Mn2+-associated activities declines also after 21 days. Another adenylate cyclase activity, which was stimulated by the nonhydrolyzable guanine nucleotide Gpp(NH)p, declines in relation to the duration of infection. Inhibitors of adenylate cyclase activity were also studied. Inhibition of adenylate cyclase activity by adenosine and by Gpp(NH)p (in the presence of forskolin) declines after 21 days of infection. The results suggested that the coupling proteins Ns and Ni, which mediate stimulatory or inhibitory control of receptors to adenylate cyclase activity, might be altered by infection. As monitored by cholera toxin- and pertussis toxin-dependent ADP ribosylation of their respective substrates, which include Ns and Ni proteins, respectively, there are declines in the availability of both substrates as a result of T. cruzi infection. For infected membranes, the addition of NADP enhances the magnitude of cholera toxin-dependent ADP ribosylation and renders the magnitude of pertussis toxin-dependent ADP ribosylation equal to that observed in uninfected membranes. The results support the hypothesis that infection with T. cruzi results in profound generalized alterations of the adenylate cyclase complex at several different sites.
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PMID:Myocardial adenylate cyclase activity in acute murine Chagas' disease. 283 98

NAD+ significantly enhances adenylate cyclase activity in crude cardiac membrane preparations. This increase is dose-dependent, does not occur in the presence of nicotinamide, ADP-ribose or NADP+, and can be effected by a 30 min pre-incubation period with NAD+. Time course studies are consistent with an enzymatically mediated modification that used NAD+ as substrate. Furthermore, inhibition of NAD+-mediated activation by arginine suggests that this modulation of cardiac adenylate cyclase is analogous to that catalyzed by endogenous ADP-ribosyl transferases.
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PMID:NAD+-mediated stimulation of adenylate cyclase in cardiac membranes. 295 Aug 54

Choleragen stimulates adenylate cyclase by ADP ribosylating a guanyl nucleotide-binding regulatory protein (G/F). beta-Adrenergic hormones also activate the adenylate cyclase of turkey erythrocytes, and it is currently believed that they do so in part by decreasing the affinity of G/F factor for GDP, an effect which is manifested by a hormone-stimulated release of guanyl nucleotides from the membranes. Since choleragen might also activate adenylate cyclase by a similar mechanism, the effect of toxin treatment on the release of guanyl nucleotides from turkey erythrocyte membranes was examined. In the presence of NAD, choleragen was found to stimulate release of guanyl nucleotides from membranes which had been preloaded with radiolabeled GTP. No stimulation of release was observed with cAMP or when NAD was replaced by NADP, which does not serve as a substrate for choleragen-catalyzed ADP ribosylation. While either isoproterenol or choleragen can stimulate release of guanyl nucleotides from the membranes, the amount of guanyl nucleotide released in the presence of both isoproterenol and choleragen was no greater than that released by isoproterenol alone. Furthermore, when membranes were first treated with choleragen and NAD, the subsequent release of guanyl nucleotides induced by isoproterenol was reduced to approximately 15% of that observed with membranes not treated with the toxin. Therefore, choleragen may enhance release of guanine nucleotides from sites on the membranes that are also affected by beta-adrenergic agonists, sites which are thought to correspond to G/F. These data are consistent with the hypothesis that choleragen may stimulate adenylate cyclase, in part, by enhancing release of guanyl nucleotides, a mechanism similar to that of beta-adrenergic agonists.
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PMID:Choleragen-stimulated release of guanyl nucleotides from turkey erythrocyte membranes. 627 33

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