EC:4.6.1.1 - FACTA Search

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)

Gel filtration studies on Bio-Gel P-10 columns of a 50-fold purified porcine duodenal extract revealed a main peak of glucagon-like immunoreactivity (GLI) in the 2,900 mol wt zone and a smaller peak in the 3,500 mol wt zone, the same zone as the pancreatic glucagon marker. Like pancreatic glucagon, samples of 3,500 mol wt material gave essentially identical measurements in radioimmunoassays employing the pancreatic glucagon-specific antiserum 30K and the GLI crossreacting antiserum 78J, whereas the 2,900 mol wt peptide gave 60-fold higher readings in the 78J assay. On disk gel electrophoresis, the 3,500 mol wt fraction, like pancreatic glucagon, migrated at pH 8.3, whereas the 2,900 mol wt peptide remained at the origin; at pH 4.7, the 2,900 mol wt peptide migrated while the 3,500 mol wt immunoreactive peptide and glucagon remained at the origin. Isoelectric focusing revealed the 3,500 mol wt moiety to have an isoelectric point (pI) of 6.2, the same as pancreatic glucagon, whereas the 2,900 mol wt peptide had an pI greater than 10. The glycogenolytic activity of the 3,500 mol wt peptide in the perfused rat liver did not differ significantly from glucagon, and its adenylate cyclase stimulating activity in partially purified liver cell membranes was comparable to that of glucagon; the 2,900 mol wt peptide had less than 20% of these activities. In samples of 3,500 mol wt material subjected to isoelectric focusing, adenylate cyclase-stimulating activity was confirmed to fractions containing 30K immunoreactivity with a pI of 6.2. In samples of 2,900 mol wt material subjected to isoelectric focusing, adenylate cyclase-stimulating activity was confined to fractions containing 78J immunoreactivity with an pI greater than 10. Displacement of [125-I]glucagon from the membranes was limited to these two biologically active fractions. However, the affinity of both pancreatic glucagon and the 3,500 mol wt peptide was an order of magnitude greater than of the 2,900 mol wt peptide. Thus, by all of several biologic, physiocochemical, and immunometric techniques, the 3,500 mol wt gut immunoreactive peptide could not be distinguished from pancreatic glucagon, while the 2,900 mol wt peptide was readily differentiated by all these techniques. "True" A-cells, ultrastructurally indistinguishable from pancreatic A-cells but differing from the A-like cells of the lower bowel, were identified in the gastric fundus of dogs. Their distribution corresponded to that of the 3,500 mol wt immunoreactivity resembling pancreatic glucagon, while the distribution of "A-like cells" in the lower small intestine corresponded to that of GLI.
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PMID:Identification of glucagon in the gastrointestinal tract. 23 36

Adenylate cyclase activity in the taste buds of the papilla vallata of the tongue, in the EC cells of the duodenal mucosa and in the chromaffin cells of the adrenal medulla of the hamster was histochemically examined using the method invented by Wagner and co-workers (1972). Two types of taste bud cells were distinguished. The dark cell was characterized by a dark cytoplasm: the light cell, by a clear-looking cytoplasm. When AMP-PNP was used as a substrate, and intense activity was demonstrated along the microvilli of all cells in the taste bud. Much weaker activity was demonstrated on the lateral cell membrane. After the use of ATP, the reaction products were found rather evenly distributed over the surface of the taste bud cell. The synaptic area on the surface of the light cell, however, was devoid of reaction products. Among the several kinds of basal-granulated gut cells examined, the EC cell of the duodenal mucosa was one. An intense activity was demonstrated along the microvilli after the use of AMP-PNP. When ATP was used as a substrate, a positive reaction was demonstrated on the lateral cell membranes as well as on the luminal microvilli; the reaction on the microvilli was much stronger than that on the lateral cell membrane. The chromaffin cells of the adrenal medulla showed almost no activity with AMP-PNP. However, when ATP was used, the plasma membrane of Schwann cells and axons showed an intense reaction. The cell membrane of the adrenaline and noradrenaline-storing cells showed a slightly positive reaction. The synaptic area of chromaffin cell was always negative in the reaction. The positive adenylate cyclase activity in the gustatory cells and gut endocrine cells may have some relation to the stimulus reception. This is in keeping with the observation that adrenal medulla chromaffin cells, which were embedded in the internal milieu, did not react to adenylate cyclase.
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PMID:Adenylate cyclase in paraneurons. A histochemical study. 61 66

Cholera diarrhoea is due to the action of a toxin that acts on all animal cells by stimulating the enzyme adenylate cyclase, which catalyses the production oc cyclic AMP from ATP. In intestinal brush border cells raised cyclic AMP levels result in increased secretion of chloride ions, leading to fluid accumulation in the gut. Escherichia coli produces a similar toxin. The receptor for cholera toxin on the cell membrane appears to be a complex containing the ganglioside GGnSLC (or GM1). Cholera toxin is a protein composed of two different kinds of subunits linked non-covalently. Each toxin molecule has one subunit A and four or more subunits B. Subunit B is inactive but binds to the ganglioside GGnSLC on the cell surface. Subunit A does not bind to cell membranes or gangioside and is slightly toxic to intact cells but strongly and instantly active in lysed cells. The binding of whole toxin through the B subunit to the cell is followed by a lag before subunit A penetrates the cell membrane (leaving subunit B on the surface) and stimulates the adenylate cyclase. The stimulation of adenylate cyclase depends on the presence of NAD and other co-factors present in the cell sap.
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PMID:The nature and action of cholera toxin. 79

Rapid intravenous saline infusion causes secretion of isotonic fluid by the canine duodenum. The duodenal fluid secretion is not accompanied either by increased adenyl cyclase activity in the mucosal epithelial cells or by widening of the "tight junctions" between epithelial cells. These data clearly indicate that the diarrheagenic effect of volume expansion is not mediated by the adenyl cyclase system. Furthermore, these data provide support for the concept that, when increased mucosal adenyl cyclase activity is associated with gut fluid secretion, the adenyl cyclase stimulation is a primary event, and is not secondary to the transmucosal isotonic fluid movement.
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PMID:Diarrheagenic effect of volume expansion: intestinal fluid secretion without mucosal adenyl cyclase stimulation. 112 41

Pituitary adenylate-cyclase-activating peptide (PA-CAP) and PACAP-27 are novel hypothalamic peptides that can stimulate adenylate cyclase in cultured anterior pituitary cells. Because these peptides are present in the gut and are homologous with vasoactive intestinal peptide (VIP), itself known to stimulate intestinal ion transport, we examined the effects of these peptides on the T84 colonocyte cell line. Using cells grown on semipermeable supports and mounted in Ussing chambers, we showed that PACAP and PACAP-27 potently activate intestinal secretion. The half-maximal secretory response was produced with 0.5 nmol/L PA-CAP and 0.1 nmol/L PACAP-27. PACAP resembled VIP in that it stimulated a secretory response potentiated by carbachol, inhibited by bumetanide and barium chloride, and not further stimulated by the subsequent addition of VIP. Like VIP, PACAP also stimulated 5' cyclic adenosine monophosphate (cAMP) production and the phosphorylation of cellular proteins known to be substrates for cAMP-dependent protein kinase. In addition, PACAP inhibited 125I-VIP binding to T84 cells, and the secretion it stimulated was reduced by the VIP receptor antagonist, L-8-K. Thus PACAP and PACAP-27 potently stimulate colonocyte ion transport via mechanisms mediated by the VIP receptor and cAMP-dependent signaling.
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PMID:Pituitary adenylate cyclase-activating polypeptide stimulates secretion in T84 cells. 132 72

Vasoactive intestinal peptide (VIP) is a widely distributed neuropeptide that has been considered a potential regulator of cell growth and differentiation in various tissues, including the gut. To examine this idea, we used a human colon carcinoma cell line (LoVo) as a model system and measured ornithine decarboxylase (ODC), because this is the rate-limiting enzyme for the formation of polyamines, which are thought to be key factors in regulating cell growth. LoVo cells, grown to about 80% confluence in F-12 medium containing 10% fetal bovine serum, were preincubated for 5 h in low serum medium (1% fetal bovine serum in F-12), and ODC activity was determined by measuring 14CO2 liberated from 14C-labeled ornithine. VIP caused a dose-related biphasic change in ODC, with activity increased at 10 pM, maximal (5-fold increase) at 10 nM, and decreased toward basal at 100 nM to 1 microM. Incubation of cells for 6 days with VIP in low serum medium showed similar changes in cell numbers, with growth being increased by doses in the 1 pM to 100 nM range and decreased at higher doses (greater than or equal to 100 nM). Exposure of cells to 5 mM alpha-difluoromethylornithine blocked both the VIP-induced increase in cell number and the VIP-induced increase in ODC activity. Increased ODC mRNA was detected after 2 h of exposure to VIP, a time at which ODC activity peaked after treatment, and the increase in ODC mRNA caused by VIP was dose-dependent. In related experiments LoVo cells were found to have high affinity VIP receptors (Kd = 0.4 nM), as assessed by examination of [125I]VIP binding in the presence of varying concentrations of unlabeled VIP. Studies of intracellular cAMP revealed a dose-related increase in cAMP in response to VIP (ED50 = 11 pM), and the adenylate cyclase activator forskolin increased both ODC activity and ODC mRNA. The findings support the idea that LoVo cells have VIP receptors linked to cAMP which can stimulate cell growth at least in part by increasing ODC synthesis and activity, thereby altering the production of polyamines. The decreased growth and ODC activity observed with high doses of VIP may involve a second messenger other than cAMP.
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PMID:Effects of vasoactive intestinal peptide on adenosine 3',5'-monophosphate, ornithine decarboxylase, and cell growth in a human colon cell line. 132 53

This study demonstrates the dual regulation by somatostatin of vasoactive intestinal peptide (VIP)-stimulated and forskolin-stimulated cyclic AMP accumulation by isolated rat intestinal epithelial cells. Somatostatin non-competitively inhibited (IC50 = 1 microM) the stimulatory effect of VIP on cyclic AMP accumulation, suggesting that the two neuropeptides act through separate receptors. The cyclic AMP accumulation produced by forskolin (a diterpene that stimulates directly the catalytic subunit of adenylate cyclase) was also inhibited by somatostatin in a dose-dependent manner. However, somatostatin did not modify the stimulatory effect of VIP on adenylate cyclase activity in a membrane preparation from the same cells, making it difficult to explain the mechanism of somatostatin action at this level. The data presented here suggest that somatostatin may play a physiological role in the regulation of nutrient absorption and the release of gut hormones or exocrine secretions by intestinal epithelial cells through the modulation of cyclic AMP production.
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PMID:Somatostatin inhibits VIP- and forskolin-stimulated cyclic AMP accumulation in enterocytes from rat jejunum. 136 40

This study was designed to test the hypothesis that stimulation of adenylate cyclase and elevation of cAMP is involved in the signal transduction process for substance P, calcitonin gene-related peptide, vasoactive intestinal peptide, cholecystokinin or gastrin releasing peptide in myenteric ganglia. Enzymatically dissociated ganglia from the myenteric plexus of the guinea-pig small intestine were used to study changes in levels of cAMP in response to application of the brain-gut peptides in the presence and absence of forskolin. Application of substance P and calcitonin gene-related peptide were found to increase intraganglionic cAMP in a dose-dependent fashion when a phosphodiesterase inhibitor was present. The ED50 values for substance P and calcitonin gene-related peptide were 5 microM and 0.75 microM, respectively. The presence of forskolin in the incubation medium resulted in significant upward shifts of the dose-response curves for both peptides. Neither vasoactive intestinal peptide, cholecystokinin nor gastrin releasing peptide stimulated increases in intraganglionic cAMP under the same experimental conditions used for substance P and calcitonin gene-related peptide.
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PMID:Effects of brain-gut related peptides on cAMP levels in myenteric ganglia of guinea-pig small intestine. 137 54

This study addressed the question of whether the mucosal adjuvant property of cholera toxin (CT) and the structurally closely related Escherichia coli heat-labile toxin (LT) requires the enterotoxic and adenylate cyclase/cAMP activating property of these molecules. Therefore, we investigated the cytotoxic and adjuvant abilities of the enterotoxins and compared the results with those obtained with the non-toxic CT and LT derivatives; recombinant CTB (rCTB) and a mutated LT (mLT), which had a single amino acid substitution in position 112 (Glu----Lys) of the A subunit. Detailed functional studies revealed that, in contrast to the enterotoxins, both rCTB and mLT lacked ADP-ribosylating and cAMP-stimulating abilities. However, similar membrane ganglioside GM1-receptor binding ability of all the putative adjuvants was demonstrated. When the probe antigen, keyhole limpet hemocyanin (KLH), was given perorally together with CT or LT strong gut mucosal anti-KLH immune responses were stimulated, whereas no or very low anti-KLH responses were seen in the groups which received antigen admixed with rCTB or the mLT. Moreover, the specific serum antibody responses to the various immunization protocols closely paralleled the local anti-KLH response in the gut. From these results it appears that the adjuvant mechanism of LT, and probably also of CT, is linked to the ability to ADP-ribosylate and to stimulate cAMP formation. However, this study does not unequivocally rule out other possibilities such as interactions by the A1 fragment of CT or LT with other G-proteins than Gs alpha or events that parallel or precede the effects on the adenylate cyclase/cAMP system. Thus, the levels of ADP-ribosylation and cAMP-induction that are required and the key event or target cell that is responsible for the adjuvant effect of CT and LT remain to be elucidated. Studies are underway to address these issues.
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PMID:The adjuvant effect of Vibrio cholerae and Escherichia coli heat-labile enterotoxins is linked to their ADP-ribosyltransferase activity. 138 11

Pituitary adenylate cyclase activating peptide (PACAP) is a vasoactive intestinal peptide (VIP)-like hypothalamic peptide occurring in two forms, PACAP-27 and the C-terminally extended PACAP-38. The predicted rat and human PACAP sequence is identical to the isolated ovine one. In the present study, the occurrence and distribution of PACAP-like peptides were examined in the gut of several species by immunocytochemistry and immunochemistry using an antibody raised against PACAP-27. PACAP-like immunoreactivity was observed in nerve fibers in the gut wall of all species examined (chicken, mouse, rat, hamster, guinea-pig, ferret, cat, pig, sheep and man). In the chicken and human gut, immunoreactive fibers were numerous in all layers. In the other species examined the fibers were predominantly found in the myenteric ganglia and smooth muscle. Delicate PACAP-immunoreactive fibers were seen in the gastric mucosa of mouse, rat, hamster and man but not in the other species examined. The chicken proventriculus harbored numerous PACAP-immunoreactive endocrine cells which were identical with the serotonin-containing cells storing gastrin-releasing peptide. PACAP-immunoreactive nerve cell bodies were numerous in the submucous ganglia and moderate in number in the myenteric ganglia of the human gut. They were few in the intramural ganglia of the other species examined. Extrinsic denervation (performed on segments of rat and guinea-pig small intestine) did not visibly affect the PACAP innervation, indicating an intramural origin of most PACAP-immunoreactive fibers. Double immunostaining for VIP and PACAP revealed co-existence of the two peptides in nerve cell bodies and nerve fibers of the human and chicken gut and in fibers in the gastric mucosa of mouse and rat. In all other species examined and in all other locations in the gut PACAP-immunoreactive nerve cell bodies and nerve fibers were distinct from those storing VIP; many of them contained gastrin-releasing peptide instead. Immunochemistry revealed PACAP-like peptides in gut extracts of all species studied; upon high performance liquid chromatography the immunoreactive material co-eluted with synthetic PACAP-27. The distribution of PACAP-immunoreactive nerve cell bodies and nerve fibers in the gut wall suggests their involvement in the regulation of both motor and secretory activities.
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PMID:Pituitary adenylate cyclase activating peptide: a novel vasoactive intestinal peptide-like neuropeptide in the gut. 154 17

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