Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A high density (in the pmol/mg protein range) of specific functional receptors for PACAP (pituitary adenylate cyclase activating polypeptide) was observed in membranes from rat brain cortex, olfactory bulb, hypothalamus, hippocampus, striatum, cerebellum, pons and cervico-dorsal spinal cord, using [125I]PACAP-27 (PACAP 1-27). The tracer bound rapidly, specifically and reversibly. Competition binding curves were compatible with the coexistence, in the eight central nervous areas explored, of high and low affinity binding sites for PACAP-27 (Kd of 0.2 nM and 3.0 nM, respectively), and of only one class of binding sites for PACAP-38 (PACAP (1-38), Kd 0.2-0.9 nM). VIP inhibited only partially the binding of [125I]PACAP-27, and PHI, GRF(1-29)NH2 and secretin were ineffective at 1 microM. Chemical [125I]PACAP-27 cross-linking revealed a single specific 64 kDa protein species. In rat brain cortical membranes, saturation and competition experiments, using [125I]PACAP-38 as radioligand, indicated the presence of both high (Kd 0.13 nM) and low (Kd 8-10 nM) affinity binding sites for PACAP-38 and of low affinity (Kd 30 nM) binding sites for PACAP-27. These data taken collectively suggest the coexistence of PACAP-A receptors with a slight preference for PACAP-27 over PACAP-38 and of PACAP-B receptors that recognize PACAP-38 with a high affinity and PACAP-27 with low affinity. Both PACAP-27 and PACAP-38 stimulated adenylate cyclase with similar potency and efficacy. VIP was markedly less potent in this respect and also less efficient, except on cerebellar membranes.
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PMID:Properties and distribution of receptors for pituitary adenylate cyclase activating peptide (PACAP) in rat brain and spinal cord. 166 4

In recent years evidence has accumulated indicating the presence of functional receptors for most neurotransmitters on astrocytes. In particular, receptors coupled to adenylate cyclase have been demonstrated, in primary astrocyte cultures, for vasoactive intestinal peptide (VIP), noradrenaline (NA) and adenosine. Here we provide, in primary cultures of cerebral cortical astrocytes prepared from neonatal mice, a detailed characterization of a cAMP-dependent process elicited by VIP, NA and adenosine, i.e. the hydrolysis of glycogen. The EC50s for the glycogenolytic effect of VIP, NA and adenosine are 3, 20 and 800 nM, respectively. The initial rate of glycogen hydrolysis is, in nmol/mg prot/min, 9.1 for VIP and 7.5 for NA. The effect of NA is predominantly mediated by beta-adrenoceptors, although an alpha 1-adrenergic component, acting most likely through protein kinase C activation, is also present. The action of VIP is mimicked by peptides sharing sequence homologies such as PHI and secretin. Glutamate, GABA, carbachol and the peptides NPY and somatostatin do not influence glycogen levels. The glycogen content of the cultures can be markedly increased by anabolic factors present in fetal calf serum, by high (e.g. 25 mM) glucose in the medium and by 48-h pretreatment of the cultures with dibutyryl cAMP. These results indicate that the glycogen content of astrocytes is under the dynamic control of various factors, including certain neurotransmitters. They also further stress the notion of a functional interaction between neurons and glial cells aimed at maintaining local energy metabolism homeostasis.
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PMID:Characterization of the glycogenolysis elicited by vasoactive intestinal peptide, noradrenaline and adenosine in primary cultures of mouse cerebral cortical astrocytes. 166 73

Vasoactive intestinal peptide (VIP) is a neuroendocrine mediator found in the central and peripheral nervous system. Distinct subsets of neural, respiratory, gastrointestinal, and immune cells bear specific high-affinity receptors for VIP, which are associated with a guanine nucleotide-binding (G) protein capable of activating adenylate cyclase. A cDNA clone (GPRN1) encoding the human VIP receptor was identified in libraries prepared from the Nalm 6 line of leukemic pre-B lymphoblasts and the HT-29 line of colon carcinoma cells. The deduced 362-amino acid polypeptide sequence encoded by GPRN1 shares a seven-transmembrane-segment hydropathicity profile with other G protein-coupled receptors. Northern blot analyses identified a 2.7-kilobase transcript of the VIP receptor in Nalm 6 and HT-29 cells as well as in tissues from rat brain, colon, heart, lung, kidney, spleen, and small intestine. COS-6 cells transfected with GPRN1 bound 125I-labeled VIP specifically with a dissociation constant (Kd) of 2.5 nM. VIP--and less effectively secretin, peptide histidine isoleucine (PHI), and glucagon competitively displaced bound 125I-VIP from transfected COS-6 cells, with potencies in the order VIP greater than secretin = PHI much greater than glucagon. VIP stimulated adenylate cyclase activity in stably transfected Chinese hamster ovary K1 cells, inducing a 3-fold increase in the intracellular level of cAMP. When the antisense orientation of the VIP receptor clone was introduced into HT-29 cells, there was a 50% suppression of the specific binding of 125I-VIP and of the VIP-induced increase in cAMP level, relative to untransfected cells. The VIP receptor cloned exhibits less than or equal to 24% homology with other receptors in the same superfamily and thus represents a subset of G protein-coupled receptors for peptide ligands.
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PMID:Cloning and expression of the human vasoactive intestinal peptide receptor. 167 91

Receptors for the main neural (acetylcholine), hormonal (gastrin) and paracrine (histamine) secretory stimulants and the signal transduction pathways to which these receptors are coupled have been identified on the parietal cell. The stimulatory effect of histamine is mediated via an increase in adenylate cyclase activity, whereas the effect of acetylcholine and gastrin are mediated via an increase in cytosolic levels of calcium. Strong synergism between histamine and either gastrin or acetylcholine may reflect postreceptor interaction between the distinct pathways. Acetylcholine and gastrin are also capable of releasing histamine from the gastric mucosa, probably from ECL cells. The inhibitory effects of somatostatin and prostaglandin E on acid secretion are mediated by receptors coupled via guanine nucleotide binding proteins to inhibition of adenylate cyclase activity. All the pathways converge on and modulate the activity of the luminal enzyme, H+K(+)-ATPase, ultimately responsible for acid secretion. The intramural neural and paracrine pathways involved in the regulation of gastrin secretion in the antrum and acid secretion in the fundus have also been identified. Of prime importance is the somatostatin cell, which exerts a paracrine restraint on gastrin secretion and acid secretion. Elimination of this restraint or disinhibition is one of the mechanisms by which the stimulatory influence of cholinergic neurons is exerted on gastrin and parietal cells. Gastrin secretion is regulated by a cholinergic neuron that causes inhibition of somatostatin secretion and thus stimulation of gastrin secretion (disinhibition) and a noncholinergic neuron that causes direct stimulation of gastrin secretion by releasing the neurotransmitter, bombesin (or gastrin-releasing peptide). Acid secretion is regulated by a cholinergic neuron that causes direct stimulation of the parietal cell and indirect stimulation by decreasing somatostatin secretion, thus eliminating its inhibitory effect on the parietal cell (disinhibition). In addition, a regulatory feedback mechanism exists whereby intraluminal acidification stimulates somatostatin secretion, which in turn attenuates acid secretion. Gastric acid secretion may also be regulated by one or more intestinal inhibitory hormones, the most likely candidates being secretin, intestinal somatostatin, and neurotensin. Enterogastrone activity probably reflects the combined effect of all these hormones. Precise information on receptors and signal transduction mechanisms as well as on intramural neural and paracrine regulatory pathways has led to the development of new drugs capable of inhibiting acid secretion. These include antagonists that interact with stimulatory receptors (histamine H2-receptor antagonists, muscarinic receptor antagonists, and gastrin receptor antagonists), agonists that interact with inhibitory receptors (somatostatin and prostaglandin E analogues), and irreversible inhibitors of the luminal enzyme, H+K(+)-ATPase.
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PMID:Control of acid secretion. 169 38

Prostaglandins of the E type may have a potential role in pancreatic physiology and pathophysiology. Because prostaglandins of the E type inhibit HCl secretion in parietal cells via a specific receptor by inhibition of adenylylcyclase, we studied whether a similar mechanism exists in the exocrine pancreas. Isolated rat pancreatic acini were incubated with various concentrations of secretagogues, such as cholecystokinin-octapeptide (CCK-8), bombesin, carbachol, and vasoactive intestinal peptide (VIP), in the absence or presence of prostaglandin E2 (PGE2), and amylase secretion was measured. For receptor binding studies, acini and pancreatic membranes were incubated with [3H]PGE2 and either unlabeled PGE2 or other types of prostaglandins. PGE2 (10(-13) to 10(-5) M) did not inhibit basal amylase secretion. However, CCK-8-stimulated secretion was significantly inhibited. Stimulation of secretion by bombesin, carbachol, VIP, and secretin was also inhibited by PGE2, but not as pronounced as CCK-8-stimulated secretion. The formation of inositol 1,4,5-trisphosphate induced by CCK-8 was markedly inhibited by simultaneous incubation with PGE2. Furthermore, PGE2 slightly but significantly reduced the CCK-8-induced efflux of 45Ca2+ from prelabeled acini. Intact acini and a membrane fraction bound [3H]PGE2 and this function could be equally competed by either unlabeled PGE2 or PGE1 in contrast to less-related prostaglandins such as PGF2 alpha, PGD2, and prostacyclin. We conclude that prostaglandins of the E type inhibit pancreatic enzyme secretion stimulated by various secretagogues. This function is mediated via specific receptors for PGE. With regard to CCK-8-stimulated secretion this function may be mediated by an inhibition of formation of inositol 1,4,5-trisphosphate.
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PMID:Prostaglandin E2 inhibits secretagogue-induced enzyme secretion from rat pancreatic acini. 170 88

The authors examined the effects of protein kinase C on secretin-induced amylase release and cyclic AMP production in rat pancreatic acinar cells. Secretin (10(-6) M) and 12-O-tetradecanoyl-phorbol 13-acetate (TPA) (10(-6) M) induced 53% and 60% increase of amylase release from the basal level, respectively during 10 min. Simultaneous addition of TPA and secretin resulted in 42% amylase release from the basal level for 10 min. Suppression of secretin-induced amylase release was evident within 5 min of pretreatment with TPA. TPA showed the same effect on cyclic AMP production; secretin-induced increase of cyclic AMP was suppressed by pretreatment of TPA for 5 min. To explore the mechanism by which TPA inhibits secretin-induced cyclic AMP production, we also examined the effects of protein kinase C purified from rat brain on adenylate cyclase activity in pancreatic acinar membranes. Basal, forskolin- and secretin plus guanosine 5'-[gamma-thio]trisphosphate-stimulated adenylate cyclase activity were inhibited by protein kinase C in the presence of Ca++. These results suggest that protein kinase C might have a role in the inhibitory effect on adenylate cyclase in exocrine pancreas.
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PMID:Effect of protein kinase C on amylase secretion and cyclic AMP production in rat pancreatic acinar cells. 171 40

HPLC-purified 125I-labeled vasoactive intestinal peptide (VIP) bound in a specific, saturable, and reversible manner to pancreatic plasma membranes isolated from newborn calves, from milk-fed calves at 28 and 119 days, and from weaned calves at 119 days. A series of VIP analogues, including pituitary adenylate cyclase-activating polypeptide (PACAP), displaced 125I-VIP binding and activated adenylate cyclase in the same order of relative potency: PACAP-38 greater than helodermin greater than VIP, PACAP-27 greater than PHM (human peptide with NH2-terminal histidine and COOH-terminal methionine amide). At maximally effective concentrations, these five peptides produced the same two- to threefold increase of adenylate cyclase activity in pancreatic membranes from newborn and 28-day-old calves, and fourfold in ruminant or preruminant animals at 119 days. The activation constant for PACAP-38 ranged from 0.1 to 0.34 nM throughout the postnatal development. Helospectin I and II were three times less potent than VIP in inhibiting 125I-VIP binding. At concentrations up to 0.1 microM, secretin, rat and human growth hormone-releasing factors, glucagon, oxyntomodulin, the truncated form of glucagon-like peptide-1 lacking the 6 NH2-terminal amino acid sequence (TGLP-1), GLP-2, gastric inhibitory peptide, gastrin, CCK, and insulin had no effect on binding. Scatchard plots from 28- and 119-day-old calves were compatible with the presence of two classes of 125I-VIP binding sites: one with a high affinity for VIP and a low binding capacity (Kd = 0.11-0.4 nM, Bmax = 66-174 fmol/mg protein) and the other with a low affinity and high binding capacity. At birth, only one class of binding sites was observed (Kd = 0.4 nM, Bmax = 858 fmol/mg protein). The covalently cross-linked PACAP-preferring 125I-VIP binding site is a glycoprotein of 55 kDa with higher sensitivity to PACAP vs. helodermin and VIP. Our results suggest that calf pancreatic functions might be regulated at an early stage of postnatal development by PACAP receptors linked to cAMP generation.
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PMID:Characterization of binding sites for VIP-related peptides and activation of adenylate cyclase in developing pancreas. 184 91

Adipocyte membranes from diabetic (db/db) animals showed marked elevations in the levels of alpha-subunits for Gi-1 which were almost twice those found in membranes from their normal, lean littermates. In contrast, no apparent differences were noted for levels of the alpha-subunits of Gi-2 and Gi-3, the 42 and 45 kDa forms of Gs and for G-protein beta-subunits. Adenylate cyclase specific activity was similar in membranes from both normal and diabetic animals under basal conditions and also when stimulated by optimal concentrations of either NaF or forskolin. In contrast, the ability of isoprenaline, glucagon and secretin to stimulate adenylate cyclase activity was greater in membranes from normal animals compared with membranes from diabetic animals. Receptor-mediated inhibition of adenylate cyclase, as assessed using PGE1 and nicotinate, was similar using membranes from both sources, but PIA (phenylisopropyladenosine) was a slightly more effective inhibitor in membranes from diabetic animals. A doubling in the expression of Gi-1 thus appears to have little discernible effect upon the inhibitory regulation of adenylate cyclase.
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PMID:Genetically acquired diabetes: adipocyte guanine nucleotide regulatory protein expression and adenylate cyclase regulation. 184 12

We characterized a new type of vasoactive intestinal peptide (VIP) receptors in the CD4+ Stanford University Pediatric (SUP)-T1 lymphoma cell line, by comparing receptor occupancy [in the presence of (125I)helodermin and (125I)(acetyl-His1)VIP] and adenylate cyclase activation (in the presence of GTP). The order of potency of peptides on both parameters was: helodermin greater than (acetyl-His1)VIP greater than (Phe1)VIP = VIP greater than PHI while secretin was ineffective. In membranes, when Gs was permanently activated by Gpp(NH)p or by ADP-ribosylation (after pretreating intact lymphoblasts for 2 h with cholera toxin), there resulted a variably increased affinity of receptors for VIP-like peptides, suggesting reduced receptor selectivity. Preexposing intact lymphoblasts to the same peptides induced, within 5 min, homologous desensitization (i.e. reduced binding capacity and even more so impaired capability to activate adenylate cyclase), whose extent correlated with the Kd of each peptide at time 0. After prolonged (16 h) exposure to 30 nM VIP that resulted in marked (75%) downregulation, 60% of the adenylate cyclase responsiveness could recover within 30-120 min even in the presence of cycloheximide, but further resensitization was cycloheximide-sensitive. To conclude, VIP receptors coupled to adenylate cyclase showed distinct specificity in human SUP-T1 lymphoblasts. Their specificity decreased when Gs was permanently activated. In intact cells exposed to VIP-like peptides, the receptors were rapidly desensitized, then down-regulated, the resensitization mechanism being not immediately inhibited by cycloheximide.
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PMID:VIP receptors in human SUP-T1 lymphoblasts. 197 77

Epithelial cells isolated from fragments of hamster pancreas interlobular ducts were freed of fibroblast contamination by plating them on air-dried collagen, maintaining them in serum-free Dulbecco's modified Eagle's (DME):F12 medium supplemented with growth factors, and selecting fibroblast-free aggregates of duct cells with cloning cylinders. Duct epithelial cells plated on rat type I collagen gel and maintained in DME:F12 supplemented with Nu Serum IV, bovine pituitary extract, epidermal growth factor, 3,3',5-triiodothyronine, dexamethasone, and insulin, transferrin, selenium, and linoleic acid conjugated to bovine serum albumin (ITS+), showed optimal growth as monolayers with a doubling time of about 20 h and were propagated for as long as 26 wk. Early passage cells consisted of cuboidal cells with microvilli on their apical surface, complex basolateral membranes, numerous elongated mitochondria, and both free and membrane-bound ribosomes. Cells grown as monolayers for 3 mo. were more flattened and contained fewer apical microvilli, mitochondria, and profiles of rough surfaced endoplasmic reticulum; in addition, there were numerous autophagic vacuoles. Functional characteristics of differentiated pancreatic duct cells which were maintained during extended monolayer culture included intracellular levels of carbonic anhydrase and their capacity to generate cyclic AMP (cAMP) after stimulation by 1 X 10(-6) M secretin. From 5 to 7 wk in culture, levels of carbonic anhydrase remained stable but after 25 to 26 wk decreased by 1.9-fold. At 5 to 7 wk of culture, cyclic AMP increased 8.7-fold over basal levels after secretin stimulation. Although pancreatic duct cells cultured for 25 to 26 wk showed lower basal levels of cAMP, they were still capable of generating significant levels of cAMP after exposure to secretin with a 7.0-fold increase, indicating that secretin receptors and the adenyl cyclase system were both present and functional. These experiments document that pancreatic duct monolayer cultures can be maintained in a differentiated state for up to 6 mo. and suggest that this culture system may be useful for in vitro physiologic and pathologic studies.
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PMID:Characterization of differentiated Syrian golden hamster pancreatic duct cells maintained in extended monolayer culture. 212 5


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