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)

Smooth muscle adenylate cyclase of a membrane preparation of canine gastric antrum has been characterized, and the effect of hormonal and neuronal agents examined. The enzyme is active in the presence of Mg2+ or Mn2+, but is inhibited by Ca2+. The Km is 0.5 mM ATP, similar to the Km of skeletal muscle adenylate cyclase. The enzyme is activated by isoproterenol but not norepinephrine, consistent with a beta 2-catecholamine receptor-adenylate cyclase interaction. Secretin activates the enzyme in concentrations as low as 1 . 10(-11) M, while glucagon was effective only at 1 . 10(-6) M. Prostaglandin E1 and E2 have a biphasic effect with activation of adenylate cyclase at 1 . 10(-5) M and a small but significant inhibition of enzyme activity at 1 . 10(-11) M.
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PMID:Effect of hormonal and neuronal agents on adenylate cyclase from smooth muscle of the gastric antrum. 45 75

Wheat germ agglutinin, but not concanavalin A or soybean lectin, inhibited the basal-and stimulated-adenylate cyclase activity which was present in a plasma membrane preparation from the rat pancreas. The inhibition by wheat germ agglutinin was rapid and sustained. It was of the non-competitive type and never exceeded 20% for Gpp (NH) p- and NaF-stimulated adenylate cyclase activity. The inhibition of secretin-stimulated activity was also non-competitive but more pronounced (57% inhibition at a wheat germ agglutinin concentration of 20 microgram/ml). For the C-terminal octapeptide of cholecystokinin-pancreozymin (OC-PZ)-stimulated cyclase, the inhibition amounted to 68% and was of a mixed type (both competitive and non-competitive). This last observation might be explained by the competitive inhibition exerted by wheat germ agglutinin on the binding of peptides of the OC-PZ family to their membrane specific receptors. The various inhibitory effects of wheat germ agglutinin were completely suppressed by incubating the membranes in the presence of ovomucoid, a N-acetyl-D-glucosamine rich glycoprotein. The possible functional implication of these results is discussed.
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PMID:Wheat germ agglutinin inhibits basal- and stimulated-adenylate cyclase activity as well as the binding of [3H] caerulein to rat pancreatic plasma membranes. 56 9

The mechanism by which intestinal secretagogues evoke fluid secretion in the small bowel and colon has been suggested to involve mucosal adenylate cyclase. Adenylate cyclase activity was assayed by conversion of [32P]ATP to [32P]cyclic AMP in a system of pure epithelial cells isolated from the small intestine of the hamster by vibration in buffer. Several gastrointestinal hormones were tested for their capacity to stimulate adenylate cyclase; vasoactive intestinal peptide and impure cholecystokinin-pancreozymin (but not the 99% pure preparation or pure cholecystokinin octapeptide) were potent stimuli, but pentagastrin, glucagon, secretin, and gastric inhibitory peptide were impotent. Two prostaglandins, PGE1 and PGE2, were potent stimuli of adenylate cyclase. Two other compounds that provoke intestinal secretion of fluid, deoxycholic acid and ricinoleic acid (castor oil), were ineffective stimuli of adenylate cyclase. These experiments do not support a clear-cut relationship between a compound's ability to stimulate adenylate cylase and its activity as an intestinal secretagogue.
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PMID:Stimulation of adenylate cyclase in homogenates of isolated intestinal epithelial cells from hamsters. Effects of gastrointestinal hormones, prostaglandins, and deoxycholic and ricinoleic acids. 56 12

1. The activation of rat pancreatic adenylate cyclase by guanosine 5'-(beta-gamma-imido)triphosphate (p[NH]ppG) and GTP, and by the two gastrointestinal hormones pancreozymin (as C-terminal octapeptide) and secretin was correlated with the binding of [8-3H]guanosine 5'-(beta-gamma-imido)triphosphate to rat pancreatic plasma membranes. 2. The low basal adenylate cyclase activity was stimulated 17-fold by p[NH]ppG (after a 2 min lag period), 3,5-fold only by GTP, 21-fold by C-terminal octapeptide of pancreozymin, and 8-fold by secretin. GTP inhibited competitively the activation of adenylate cyclase by p[NH]ppG with a Ki,app almost identical with the Ka,app (0.3 micron). p[NH]ppG and GTP enhanced the stimulation by secretin more markedly than that by the C-terminal octapeptide of pancreozymin, leading to the same maximal activity. Both hormones suppressed the lag period of activation by p[NH]ppG. 3. The binding of [8-3H]p[NH]ppG was dependent on time, temperature and Mg2+ and it was also a saturable and reversible process. Scatchard plots with a concavity upward were linearized after co-addition of ATP, Mg2+ and an ATP-regenerating system that abolished low-affinity sites for p[NH]ppG without saturating higher affinity sites, GTP, ITP and UTP inhibited [8-3H]p[NH]ppG binding to the high-affinity sites in concentration ranges identical with those found for adenylate cyclase activation. Considerable binding of [8-3H]p[NH]ppG was still evident at 20 degrees C, but enzyme activation was not observed any more, except in the presence of hormones.
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PMID:Association of binding sites for guanine nucleotides with adenylate cyclase activation in rat pancreatic plasma membranes. Interaction of gastrointestinal hormones. 62 13

In a study of the location of adenylate cyclase activity in rat pancreas with the method of Reik et al. (Science 168:382, 1970), as modified by Howell and Whitfield (J Histochem Cytochem 20:873, 1972) it was found that (a) unspecific staining occurs in rat pancreatic tissue fragments incubated in the Reik-Howell medium in the absence of substrate; (b) addition of adenylyl-imidodiphosphate (AMP-PNP) as substrate, either alone or together with stimulants of rat pancreas adenylate cyclase (secretin. NaF), does not result in increased precipitation; (c) cytochemical incubation of isolated rat pancreatic acinar cells and of rat liver and kidney fragments does not lead to substrate-specific precipitation. In subsequent chemical studies we have found that cyclic adenosine monophosphate (AMP) formation from [alpha32P]AMP-PNP in the presence of rat pancreatic particulate matter is very low in the Reik-Howell medium without lead ions, but is stimulated by addition of lead nitrate (4 mM). Whereas heat-treatment of the particulate matter abolishes all cyclic AMP formation in the absence of lead ions, it actually increases cyclic AMP production in the presence of 4 mM lead nitrate. This indicates that the cyclic AMP formation in the complet Reik-Howell medium occurs by a nonenzymatic mechanism. In addition, this medium shows a tendency to become turbid, particularly when calcium ions are added to the medium, suggesting a possible explanation for the apparently specific cytochemical detection observed by other authors. A revised cytochemical medium, with barium replacing lead and with a pH of 8.9 (optimal for adenylate cyclase with AMP-PNP substrate), leaves rat pancreatic adenylate cyclase activity intact and hormone sensitive, while it is still able to precipitate imidodiphosphate. However, cytochemical incubation of isolated rat pancreatic acinar cells in this revised medium in the presence of AMP-PNP and secretin does not yield an electron-dense precipitate, showing that the enzyme activity is to low to produce sufficient imidodiphosphate. These findings throw further doubt on the validity of the cytochemical detection of adenylate cyclase, reported by other investigators, notwithstanding the alleged positive results.
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PMID:The cytochemical localization of adenylate cyclase: fact or artifact? 65 35

A vasoactive intestinal peptide-sensitive adenylate cyclase in intestinal epithelial cell membranes was characterized. Stimulation of adenylate cyclase activity was a function of vasoactive intestinal peptide concentration over a range of 1 . 10(-10)-1 . 10(-7) M and was increased six-times by a maximally stimulating concentration of vasoactive intestinal peptide. Half-maximal stimulation was observed with 4.1 +/- 0.7 nM vasoactive intestinal peptide. Fluoride ion stimulated adenylate cyclase activity to a higher extent than did vasoactive intestinal peptide. Under standard assay conditions, basal, vasoactive intestinal peptide- and fluoride-stimulated adenylate cyclase activities were proportional to time of incubation up to 15 min and to membrane concentration up to 60 microgram protein per assay. The vasoactive intestinal peptide-sensitive enzyme required 5-10 mM Mg2+ and was inhibited by 1 . 10(-5) M Ca2+. At sufficiently high concentrations, both ATP (3 mM) and Mg2+ (40 mM) inhibited the enzyme. Secretin also stimulated the adenylate cyclase activity from intestinal epithelial cell membranes but its effectiveness was 1/1000 that of vasoactive intestinal peptide. Prostaglandins E1 and E2 at 1 . 10(-5) M induced a two-fold increase of cyclic AMP production. Vasoactive intestinal peptide was the most potent stimulator of adenylate cyclase activity, suggesting an important physiological role of this peptide in the cyclic AMP-dependent regulation of the intestinal epithelial cell function.
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PMID:Characterization of a vasoactive intestinal peptide-sensitive adenylate cyclase in rat intestinal epithelial cell membranes. 72 66

1. The subcellular distribution of adenylate cyclase activity in rat pancreatic homogenates was examined after differential centrifugation. Divalent cations exerted significant effects on this distribution. In addition, the ratio of adenylate cyclase activities in the presence of the C-terminal octapeptide of cholecystokinin-pancreozymin and secretin was lower in the crude 'mitochondrial' fraction than in 'microsomal' fractions. This difference was due to the lability of cholecystokinin-pancreozymin receptors compared to secretin receptors. The Km,app of activation was affected more than the V by this lability. Such a degradation of cholecystokinin-pancreozymin receptors was markedly delayed by isolation and storage in the presence of a phospholipid mixture. 2. A simple, reasonably rapid (6 h), and easily reproducible method was developed to prepare a stable semi-purified plasma membrane fraction, characterized by a 10-fold increase in the specific activity of adenylate cyclase with respect to the whole homogenate. At variance with data obtained on crude subcellular fractions, the V of adenylate cyclase activity observed in this preparation, under maximal concentration of the C-terminal octapeptide of cholecystokinin-pancreozymin, was higher than that obtained with secretin or the vasoactive intestinal polypeptide.
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PMID:Subcellular distribution and response to gastroinetstinal hormones of adenylate cyclase in the rat pancreas. Partial purification of a stable plasma membrane preparation. 82 68

1. The role of adenylate cyclase in rat pancreas is further investigated by means of cholera toxin, which is known to activate the enzyme in several tissues. 2. Cholera toxin activates rat pancreatic adenylate cyclase in vitro upon preincubation of tissue slices with the toxin for more than 30 min, but not when it is merely present during the enzyme assay. The maximal effect is reached after 90 min pre-incubation. The half-maximally activating concentration is 3.5 mu-g/ml upon pre-incubation for 90 min. 3. After pre-treatment of pancreatic tissue slices with 2 mu-g/ml cholera toxin, further stimulation of adenylate cyclase activity can be obtained by adding pancreozymin-C-octapeptide, secretin, or fluoride to the assay medium, but the final activity with maximally effective concentrations of the hormones is not higher, and with fluoride even less, than that without the toxin pre-treatment. 4. The in vivo effects of the two hormones and of cholera toxin have been studied after cannulation of the pancreas. Pancreozymin-C-octapeptide (intravenously) markedly stimulates both flow rate and rate of protein secretion. Synthetic secretin (intravenously), in addition to its expected effect on flow rate, slightly stimulates protein secretion, which is not due to a wash-out effect. Cholera toxin, topically applied to the cannulated rat pancreas, causes a steady increase of the flow rate after a delay of 20--30 min. The rate of protein secretion is not affected or slightly decreased by the toxin. Pancreozymin-C-octapeptide, given intravenously 1 h after cholera toxin application, causes the same increase in flow rate and rate of protein secretion as would be expected without cholera toxin treatment. 5. The sodium and potassium levels in the pancreatic fluid after administration of secretin or cholera toxin do not change, while the chloride level decreases in both cases. 6. These observations indicate that the rat pancreas adenylate cyclase activity is a rate-limiting factor in the regulation of water and electrolyte secretion. A possible auxiliary role in the regulation of enzyme secretion cannot yet be excluded.
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PMID:Rat pancreas adenylate cyclase. III. Its role in pancreatic secretion assessed by means of choleara toxin. 113 64

1. 125I-labelled secretin bound rapidly and specifically to membranes from cat pancreas. Binding of labelled hormone was competitively inhibited by unlabelled secretin in the same range of concentrations that stimulated pancreatic adenylate cyclase in these membranes. The dissociation constant of the membrane binding sites for unlabelled secretin as evaluated by these displacement experiments was 4.1-10(-9) M and the number of binding sites 1.0 pmol per mg of membrane protein. 2. Studies using different concentrations of [125I]secretin (at a constant ratio of labelled to unlabelled hormone) revealed a similar value of 4-4-10(-9) M for the dissociation constant. 3. Both the association and dissociation rate constants of [125I]secretin binding were temperature sensitive; the dissociation rate constant increased more rapidly with increase in temperature. The ratio k-1/k+1 (at 22 degrees C) gave a dissociation constant of 3.7-10(-9)M which agrees closely with the figure obtained from equilibrium data. These data indicate that 125I-labelled secretin and unlabelled secretin bind to the same binding site on pancreatic membranes, with high affinity. 4. Unlabelled secretin stimulated pancreatic adenylate cyclase with an apparent Km of 8.4-10(-9) M, while [125I]secretin apparently did not stimulate the adenylate cyclase. Together with the binding data this might suggest that different portions of the secretin molecule are responsible for binding and adenylate cyclase activation. 5. Studies on the specificity of [125I]secretin binding carried out with various peptide hormones (glucagon, human gastrin, pancreozymin and caerulein) which are all inefficient in stimulating pancreatic fluid secretin, showed that these hormones have no influence on the binding of [125I]secretin. In contrast, vasoactive intestinal polypeptide, which stimulates pancreatic fluid and bicarbonate secretion, showed a competitive inhibition of secretin binding to the plasma membrane preparation.
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PMID:The interaction of secretin with pancreatic membranes. 127 8

Parathyroid hormone (PTH), a major regulator of mineral ion metabolism, and PTH-related peptide (PTHrP), which causes hypercalcemia in some cancer patients, stimulate multiple signals (cAMP, inositol phosphates, and calcium) probably by activating common receptors in bone and kidney. Using expression cloning, we have isolated a cDNA clone encoding rat bone PTH/PTHrP receptor from rat osteosarcoma (ROS 17/2.8) cells. The rat bone PTH/PTHrP receptor is 78% identical to the opossum kidney receptor; this identity indicates striking conservation of this receptor across distant mammalian species. Additionally, the rat bone PTH/PTHrP receptor has significant homology to the secretin and calcitonin receptors but not to any other G protein-linked receptor. When expressed in COS cells, a single cDNA clone, expressing either rat bone or opossum kidney PTH/PTHrP receptor, mediates PTH and PTHrP stimulation of both adenylate cyclase and phospholipase C. These properties could explain the diversity of PTH action without the need to postulate other receptor subtypes.
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PMID:Expression cloning of a common receptor for parathyroid hormone and parathyroid hormone-related peptide from rat osteoblast-like cells: a single receptor stimulates intracellular accumulation of both cAMP and inositol trisphosphates and increases intracellular free calcium. 131 66

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