Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dopamine increased the cyclic AMP content of rat pancreas slices. It only partially displayed the agonist activity of secretin. Haloperidol 10(-4)M, a dopamine blocking agent almost completely inhibited the response to dopamine but had no effect on the response to secretin. Dopamine 10(-3)M, increased the cyclic AMP level induced by a low concentration of secretin and inhibited the production of cyclic AMP observed with a high concentration of secretin. Our data suggest that dopamine in the rat pancreatic tissue does not interfere with the secretin receptor but might act on the same adenylate cyclase.
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PMID:Action of dopamine on cyclic AMP-tissue level in the rat pancreas. Interaction with secretin. 21 44

Vasoactive intestinal polypeptide (VIP), a 28 amino acid peptide hormone, plays many physiological roles in the peripheral and central nerve systems. A functional cDNA clone of the VIP receptor was isolated from a rat lung cDNA library by cross-hybridization with the secretin receptor cDNA. VIP bound the cloned VIP receptor expressed in mouse COP cells and stimulated adenylate cyclase through the cloned receptor. The rat VIP receptor consists of 459 amino acids with a calculated Mr of 52,054 and contains seven transmembrane segments. It is structurally related to the secretin, calcitonin, and parathyroid hormone receptors, suggesting that they constitute a new subfamily of the Gs protein-coupled receptors. VIP receptor mRNA was detected in various rat tissues including liver, lung, intestines, and brain. In situ hybridization revealed that VIP receptor mRNA is widely distributed in neuronal cells of the adult rat brain, with a relatively high expression in the cerebral cortex and hippocampus.
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PMID:Functional expression and tissue distribution of a novel receptor for vasoactive intestinal polypeptide. 131 25

The effects of secretin on cyclic AMP levels in the rat brain were determined. Incubation of rat brain frontal cortex slices with secretin or the structurally related peptides peptide histidine leucine (PHI) or vasoactive intestinal polypeptide (VIP) in the presence of 10 mM theophylline resulted in a dose-dependent increase in the cyclic AMP levels. The half-maximal increase in cyclic AMP occurred using a 1 microM dose of secretin or a 2 microM dose of PHI or VIP. Preincubation of slices with secretin-(5-27) produced a dose-dependent inhibition of the secretin but not VIP- or PHI-stimulated increase in the cyclic AMP content. Also, in receptor binding studies, secretin-(5-27) produced a dose-dependent inhibition (Ki = 400 nM) of 125I-secretin but not of 125I-VIP binding to rat brain membranes. Guanyl-5'-yl imidodiphosphate decreased the affinity of radiolabelled secretin binding as a result of an increased rate of dissociation of bound 125I-secretin. These data suggest that secretin receptors in the rat brain may be coupled to adenylate cyclase in a stimulatory manner and that secretin-(5-27) may function as a central secretin receptor antagonist.
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PMID:Secretin stimulates cyclic AMP formation in the rat brain. 300 18

We measured 125I-secretin binding to membranes prepared from rat fundic glands and compared the abilities of natural and synthetic secretin (SN) analogs to inhibit 125I-secretin binding and to activate the cAMP generating system in glandular and subcellular preparations from the fundus and antrum. The natural peptides structurally related to porcine secretin (pSN) included: chicken secretin (cSN), vasoactive intestinal peptide (VIP), porcine peptide with N-terminal histidine and C-terminal isoleucine amide (PHI), helodermin, growth hormone releasing factors isolated from the rat hypothalamus (rhGRF-43, rhGRF-29) or from a human pancreatic tumour (hpGRF-40). These peptides inhibited the binding of 125I-secretin to rat fundic membranes: pSN greater than cSN greater than PHI, VIP and activated the cAMP generating system in fundic glands, according to the following order of potency; pSN greater than cSN greater than PHI, VIP greater than rhGRF-29 greater than rhGRF-43. Porcine peptide with N-terminal tyrosine and C-terminal tyrosine (PYY), GIP, SOM and hpGRF-40 were inactive. Structural requirements for secretin receptor activity were evaluated with four synthetic secretin analogs corresponding to porcine secretin substituted at the N-terminal end by sequence portion of VIP, GIP, GLU and SOM: Ala4-Val5-SN(VIP-SN); Tyr1-Ala2-Glu3-SN (GIP-SN); Gln3-SN (GLU-SN) and Phe1-Phe1-Trp3-Lys4-SN (SOM-SN). The relative potencies of the analogs in fundic and antral preparations were: pSN greater than VIP-SN greater than VIP, GIP-SN greater than GLU-SN greater than SOM-SN for 125I-secretin displacement and cAMP production (glandular cAMP generation and adenylate cyclase activation).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Secretin receptor activity in rat gastric glands. Binding studies, cAMP generation and pharmacology. 301 94

The structure of the secretin receptor in purified plasma membranes isolated from the antral and fundic parts of the rat gastric mucosa was probed, using the cross linking reagent dithiobis succinimidyl propionate (DSP) and HPLC-purified [125I] secretin. [125I] secretin binding sites were preferentially located in rat antrum and displayed the pharmacological properties expected for specific secretin receptors: secretin greater than helodermin greater than rhGRF greater than rPHI. SDS gel electrophoresis of the solubilized receptor allowed identification of two radiolabeled peptides of 62 and 33 KDa connected by disulfide bonds. According to the sensitivity of the 62 KDa component to low doses of secretin and to GTP, it constitutes the membrane domain involved in the physiological regulation of adenylate cyclase by secretin in rat gastric glands.
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PMID:Pharmacology and molecular identification of secretin receptors in rat gastric glands. 333 56

In previous studies it has been demonstrated that pharmacological administration of secretin can alter urine output. Whether the effect is due to a direct action on kidney was investigated by examining the effect of secretin on renal output, and determining whether there were secretin receptors and a secretin sensitive adenylate cyclase in the kidney. Secretin had an antidiuretic action on kidney when administered intravenously to anesthetized hydrated rats. In addition, binding sites for (125I)-secretin, and a secretin sensitive adenylate cyclase were identified in rat kidney. Binding was saturable and reversable and was half maximally inhibited by 1 X 10(-7) M synthetic porcine secretin. Autoradiographic studies revealed a high density of secretin binding sites in the outer medulla of the kidney, a region that is composed mainly of the thick ascending limb of the loop of Henle, and is also the major site of action for the antidiuretic hormone, vasopressin. The data indicate that a functional secretin receptor system exists in kidney which may have a physiological role in regulating urine output.
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PMID:Secretin receptors in the rat kidney: adenylate cyclase activation and renal effects. 379 44

This study was undertaken to ascertain the effects of cannabinoid drugs on prostanoid-stimulated adenylate cyclase in neuroblastoma cells. This report demonstrates that delta 9-tetrahydrocannabinol (THC) and levonantradol could decrease initial rate cyclic AMP accumulation in response to prostacyclin in intact cells. Basal accumulation was also diminished. Prostanoid-stimulated adenylate cyclase in a membrane preparation from these cells was inhibited by cannabinoid and nantradol compounds. However, this inhibition was not competitive with prostaglandin E1 or prostacyclin. Further, inhibition was also observed when the enzyme was stimulated by peptide hormones at the secretin receptor. In contrast, enzyme activated by NaF was not inhibited by cannabinoid compounds. Cyclic AMP phosphodiesterase activity in subcellular fractions was unaltered by these agents. These data demonstrate that cannabinoid and nantradol compounds decrease cyclic AMP accumulation in neuronally derived cells, and that this results from an inhibition of basal and hormone-stimulated adenylate cyclase activity.
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PMID:Inhibition of neuroblastoma adenylate cyclase by cannabinoid and nantradol compounds. 609 Aug 51

It has been hypothesized that secretin may act directly on gastrinoma through the adenylate cyclase system to cause stimulation of gastrin release. We studied gastrinoma cells in vitro to determine whether secretin would stimulate gastrin release directly and whether the gastrinoma cell membrane had a functional secretin receptor adenylate cyclase system. Fresh tumor was prepared in cell suspensions containing 1.5 X 10(6) viable cells and incubated for 2 hours with either 2 mM CaCl2 alone (control) or 2 mM CaCL2 and 0.025 U/ml secretin. The gastrin content of the cells in each incubation chamber and the medium were determined by radioimmunoassay and results were expressed as mean gastrin pg/microgram protein +/- SD. Under basal conditions the cellular gastrin content was 39.9 +/- 6.4 (control) compared with 16.7 +/- 2.1 (secretin). After 2 hours of incubation, cellular gastrin content increased in both groups: 68.5 +/- 11.9 (control) to 68.3 +/- 5.5 (secretin). However, the percent of gastrin released into the medium during incubation decreased by one half in both groups (control 37.3% +/- 4.0% to 22.2% +/- 3.0%; secretin 42.8% +/- 7.0% to 18.9% +/- 1.8%). Adenylate cyclase activity was assessed by measuring cAMP generation in fresh-frozen gastrinoma and cultured gastrinoma cell membranes. Isoproterenol (10(-5) M), PGE1 (10(-4) M), and GppNHp (guanine nucleotide) (10(-5) M) caused fivefold to 25-fold increases in cAMP generation. Secretin did not stimulate adenylate cyclase activity above basal (21.73 +/- 4.07 and 2.29 +/- 1.2 pmol cAMP/mg protein/min) for frozen and cultured gastrinoma, respectively. Secretin failed to stimulate gastrin release and adenylate cyclase in vitro. This suggests that secretin-stimulated gastrin release in vivo may not be due to a direct effect of secretin on the gastrinoma.
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PMID:Failure of secretin to stimulate gastrin release and adenylate cyclase activity in gastrinoma in vitro. 609 76

Secretin, a gut-brain peptide, elicited cyclic AMP production in a clone of neuroblastoma cells derived from the C1300 mouse tumor. Adenylate cyclase (EC 4.6.1.1) in plasma membranes from these cells was stimulated by secretin greater than vasoactive intestinal peptide greater than peptide histidine isoleucine amide, but not by the related peptides glucagon, gastric inhibitory polypeptide, or human growth hormone releasing factor. Hill coefficients for stimulation approximated one and the response to submaximal peptide concentrations was additive, as expected for hormones competing for a single receptor associated with the enzyme. Binding of 125I-labeled secretin to the neuroblastoma plasma membranes was saturable, time-dependent, and reversible. The KD determined from kinetic and equilibrium binding studies approximated 1 nM. The binding site displayed marked ligand specificity that paralleled that for stimulation of adenylate cyclase. The secretin receptor was regulated by guanine nucleotides, with guanosine 5'-(beta, gamma-imino)-triphosphate being the most potent to accelerate the rate of dissociation of bound secretin. These findings demonstrate the functional association of the secretin receptor with adenylate cyclase in neuronally derived cells.
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PMID:Secretin receptors on neuroblastoma cell membranes: characterization of 125I-labeled secretin binding and association with adenylate cyclase. 632 61

Neuroblastoma x glioma hybrid NG108-15 cells endogenously express at least three receptors which activate adenylate cyclase via the intermediacy of the stimulatory G-protein, Gs. Sustained exposure of the cells to agonists at the IP prostanoid receptor results in a substantial decrease in cellular levels of the alpha-subunit of Gs (Gs alpha) [McKenzie and Milligan (1990) J. Biol. Chem. 265, 17084-17093; Adie, Mullaney, McKenzie and Milligan (1992) Biochem J. 285, 529-536]. By contrast, equivalent treatments of the cells with agonists at either the A2 adenosine receptor or the secretin receptor have no measurable effect on cellular amounts of Gs alpha. To examine whether this is a feature specific to the IP prostanoid receptor or is related to the level of expression of the individual receptors, NG108-15 cells were transfected with a construct containing a human beta 2-adrenoceptor cDNA under the control of the beta-actin promoter. Two clones of these cells were examined in detail, beta N22, which expressed some 4000 fmol/mg of membrane protein, and clone beta N17, which expressed approx. 300 fmol/mg of membrane protein of the receptor. Exposure of beta N22 cells to the beta-adrenergic agonist isoprenaline resulted maximally in some 55% decrease in membrane-associated levels of Gs alpha, without effect on membrane levels of Gi2 alpha, Gi3 alpha, G(o) alpha or Gq alpha/G11 alpha. Dose-response curves to isoprenaline in beta N22 cells indicated that half-maximal down-regulation of Gs alpha was produced by approx. 1 nM agonist. Equivalent exposure of beta N17 cells to isoprenaline did not significantly modify levels of any of the G-protein alpha subunits, including Gs alpha. In beta N22 cells the IP prostanoid receptor was expressed at similar levels to those in wild-type NG108-15 cells, and treatment with iloprost resulted in a similar down-regulation of cellular Gs alpha levels. Iloprost was also effective in causing down-regulation of Gs alpha levels in clone beta N17. Concurrent addition of both isoprenaline and iloprost to clone beta N22 resulted in less than additive down-regulation of Gs alpha. These results demonstrate that the phenomenon of agonist-induced specific G-protein down-regulation is determined by the levels of expression of the receptor.
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PMID:Agonist regulation of cellular Gs alpha-subunit levels in neuroblastoma x glioma hybrid NG108-15 cells transfected to express different levels of the human beta 2 adrenoceptor. 751 55


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