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)

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

Two forms of pituitary adenylate cyclase activating polypeptides with 38 (PACAP38) and 27 residues (PACAP27) respectively were recently isolated from ovine hypothalamic tissues. The N-terminal 28 amino acids sequence of PACAP was found to have 68% homology with porcine vasoactive intestinal peptide (VIP). In order to determine whether the primary structure of VIP of ovine hypothalamus is identical with porcine VIP or similar to PACAP, VIP immunoreactivity as determined by radioimmunoassay for porcine VIP was isolated in a pure form from ovine hypothalamic extracts. VIP was also isolated from ovine intestine. Amino acid analysis as well as amino acid sequence analysis showed that ovine hypothalamic and intestinal VIP were identical to porcine VIP, but different from PACAP.
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PMID:Chemical characterization of vasoactive intestinal polypeptide-like immunoreactivity in ovine hypothalamus and intestine. 157 9

1. In the present study we examined the in vitro effect of vasoactive intestinal peptide (VIP) on spontaneous contractions in both inner and outer layers of non-pregnant human myometrium. A dose-dependent relaxation was observed, but with a marked difference in sensitivity to VIP between the two layers, with an IC50 value of 1 x 10(-8) and 1 x 10(-5) mol L in the outer and inner layers, respectively. 2. We also established that VIP did not directly stimulate the adenylate cyclase activity. The only slight stimulations were observed in non-initial rate conditions. The maximal response of this indirect effect was obtained for VIP concentrations between 1 x 10(-9) and 1 x 10(-8) mol/L and this occurred to the same extent (an approximately 1.4-fold increase) in both layers. However this response is specific, since structurally related peptides such as glucagon, gastric inhibitory polypeptide (GIP), secretin, or human growth hormone-releasing factor (hGRF) had no effect in our preparations. 3. Autoradiographic studies revealed that specific VIP binding sites were located on the vascularization of the intermediate vascular layer and on arterioles and venules distributed in the inner and outer myometrial layers. They were also present in the endometrium, but not on smooth muscle cells of either layer. 4. Such observations could provide evidence for another signal transduction pathway to mediate the biological effect of VIP. An additional intermediate step on the vascularization distributed in all of the muscle cannot be excluded.
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PMID:The effect of vasoactive intestinal peptide (VIP) on the contractile activity of human uterine smooth muscle. 164 25

We studied the effect of vasoactive intestinal peptide (VIP) on ciliary activity in rabbit cultured tracheal epithelium by a photoelectric method in vitro. Administration of VIP (10(-7) M) elicited an increase in ciliary beat frequency (CBF) from the baseline values of 970 +/- 52 to 1139 +/- 75 beats/min (mean +/- S.E., P less than 0.01). This ciliostimulatory effect was dose-dependent, with the maximal increase and EC50 value being 17.4 +/- 1.0% (P less than 0.05) and 6.10(-11) M, respectively. The VIP-induced increase in CBF was abolished by pretreatment of cells with [4-Cl-D-Phe6, Leu17]-VIP, a VIP receptor antagonist. The neutral endopeptidase inhibitor phosphoramidon (10(-5) M) potentiated the effect of VIP, so that the CBF dose-response curve for VIP was shifted to lower concentrations by 0.5 log U. The administration of VIP increased cyclic AMP levels in epithelial cells, an effect that was also potentiated by phosphoramidon. These results suggest that VIP may interact with its specific receptors and stimulate airway ciliary activity probably through the activation of adenylate cyclase, and that neutral endopeptidase may play a role in modulating this effect of VIP.
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PMID:Vasoactive intestinal peptide stimulates ciliary motility in rabbit tracheal epithelium: modulation by neutral endopeptidase. 165 11

Treatment of rat prostatic epithelial cells with cholesteryl hemisuccinate (ChH) resulted in a time- and dose-dependent inhibition of the stimulatory effect of the neuropeptide vasoactive intestinal peptide (VIP) on cyclic AMP accumulation, with a 40% decrease in the response to a maximally effective VIP concentration. Cell treatment with ChH led also to a similar blocking of isoproterenol (a beta-adrenergic agonist) action but did not modify forskolin (which is assumed to act directly on the catalytic unit of adenylate cyclase) activity upon cyclic AMP levels. The levels of the transduction protein Gs were similar in membranes from both control and ChH-treated cells as suggested by experiments on cholera toxin-catalyzed ADP-ribosylation. The inhibitory effect of ChH was accompanied by an increase of membrane microviscosity as estimated by measurements of fluorescence polarization. Experiments on VIP binding indicated that increasing cholesterol concentration in the plasma membrane led to a higher VIP binding capacity without changes in the affinity of VIP receptors. These data suggest that membrane cholesterol incorporation diminishes the coupling efficiency between adenylate cyclase and the VIP-receptor complex or other receptor systems (i.e., desensitization) due to an increase of plasma membrane rigidity.
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PMID:Cholesterol modulation of membrane fluidity and VIP receptor/effector system in rat prostatic epithelial cells. 165 81

Interleukin 6 (IL-6) production was shown to be stimulated by vasoactive intestinal peptide via cAMP dependent signal transduction pathway in the pituitary. We were interested in whether other hypothalamic neuropeptides, which activate adenylate cyclase in the pituitary, also stimulate pituitary IL-6 production. Whereas vasoactive intestinal peptide was effective in stimulating pituitary IL-6 production only at concentrations of 10(-6) M or higher, pituitary adenylate cyclase activating polypeptide with 38 residues (PACAP38) and calcitonin gene-related peptide (CGRP) at concentrations from 10(-10) to 10(-9) M significantly stimulated IL-6 production. Similar effective concentrations of each peptide were required for activating adenylate cyclase, as measured by extracellular cAMP accumulation. H89, a specific inhibitor of cAMP dependent protein kinase (protein kinase A), inhibited IL-6 production stimulated by PACAP38, CGRP, and (Bu)2cAMP. However, H89 failed to inhibit the IL-6 production stimulated by lipopolysaccharide, a ligand which enhanced IL-6 production in the absence of cAMP accumulation. Two other peptides which are known to activate pituitary adenylate cyclase, corticotropin-releasing factor and GRF failed to stimulate IL-6 production in pituitary cells. Using discontinuous Percoll gradients to fractionate the pituitary cells, the greatest PACAP38-stimulated IL-6 secretion was observed in the low density fraction 1 (F1). This fraction also contained the highest percentage of folliculo-stellate (FS) cells, one of the nonhormone secreting pituitary cells. However, the largest PACAP38-induced accumulation of cAMP was observed in F4. These results suggest that the production of IL-6 stimulated by PACAP and CGRP is mediated by the adenylate cyclase/protein kinase A signal transduction system. FS cells appear to be the most likely target cell type for PACAP-induced IL-6 production. However, IL-6 producing FS cells may not be an exclusive target for PACAP in the pituitary.
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PMID:Neuropeptide regulation of interleukin-6 production from the pituitary: stimulation by pituitary adenylate cyclase activating polypeptide and calcitonin gene-related peptide. 165 84

When applied to rat anterior pituitary cells, angiotensin-II (AII) exerted two opposite effects on adenylate cyclase (AC) activity: a pertussis toxin (PTX)-sensitive inhibition of the enzyme with a maximal effect of -42 +/- 2% in crude cell membrane preparations, and, in contrast, a non-PTX-sensitive stimulation of cAMP production (maximal effect = 38 +/- 3%) in intact cells. The apparent affinity of both effects was equal to 1.8 nM. The stimulation of cAMP formation parallels the stimulation of PRL release. Under the same conditions, dopamine (DA) inhibited both membrane AC activity and cAMP formation in intact cells by a PTX-sensitive mechanism. After separation of pituitary cell types by sedimentation at unit gravity, the effects of AII and DA on intracellular cAMP and membrane AC activity coincided in the same fractions (those enriched in PRL cells). The stimulatory effect of AII on cAMP formation was about 5 times weaker than that of peptides positively coupled to AC as vasoactive intestinal peptide in total as well as in PRL-enriched cells. Since the AII receptor is also coupled to phospholipase-C (PLC) in a non-PTX-sensitive manner, we investigated whether protein kinase-C (PKC) could indirectly account for the positive effect of AII on cAMP formation. 12-O-Tetradecanolylphorbol 13-acetate (TPA), a stimulator of PKC was indeed able to increase intracellular cAMP; this effect was not additive with that of AII. conversely, application of the PKC inhibitors H7 [1-(5-isoquinolylsulfonyl)2-methyl-piperazine] and staurosporine or desensitization of PKC by long exposure of the cells to TPA abolished the cAMP response to TPA as well as that to AII. In addition, thyreoliberin, another activator of the PLC pathway, was able to stimulate cAMP formation in a PKC-dependent manner. DA inhibition of intracellular cAMP was not affected by any PKC inhibition. We conclude that in lactotroph cells, 1) the AII inhibitory coupling to AC observed in membrane preparations does not exist in intact cells, at least under basal conditions; and 2) the AII intracellular cAMP stimulation observed is not accounted for by a direct coupling with AC; it is due to a cross-talk of the PLC pathway mediated by PKC, an effect that might be shared by other PLC-stimulating mediators and may participate in the regulation of PRL release.
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PMID:Involvement of protein kinase-C in the effect of angiotensin-II on adenosine 3',5'-monophosphate production in lactotroph cells. 165 95

To evaluate whether pretreatment with prostaglandin E2 (PGE2) could desensitize pepsinogen secretion in chief cells from guinea pig, chief cells were pretreated with 10 microM PGE2 for up to 30 min. Desensitization of subsequent PGE2-stimulated secretion was maximal after 15 min, averaging only 29 +/- 9% (SE) of pepsinogen secretion in control cells stimulated with 10 microM PGE2. Desensitization was half-maximal with 30 nM PGE2. PGE2 pretreatment at 4 degrees C did not cause desensitization. In cells pretreated with 10 microM PGE2 for 15 min and then given 60 min to recover, responsiveness increased to 79 +/- 7% of that for control cells stimulated with PGE2. Thus the desensitization was reversible. Pretreatment with PGD2 and PGF2a did not alter subsequent PGE2-mediated secretion. PGE2-induced desensitization was heterologous but mediator specific because pepsinogen secretion was reduced in response to adenosine 3',5'-cyclic monophosphate (cAMP)-mediated agents (secretin and vasoactive intestinal peptide) but not Ca(2+)-mediated agents (CCK-8, gastrin, or carbachol). Pretreating chief cells with 10 microM PGE2 did not significantly alter cAMP generation in response to PGE2, secretin, or 3-isobutyl-1-methylxanthine, suggesting that desensitization was not mediated by an alteration in the receptor-coupled adenylate cyclase system. Because PGE2 pretreatment also desensitized pepsinogen secretion induced by the synthetic cAMP analogues 8-BrcAMP and 2'-O-monobutyryl-8-BrcAMP, it is likely that the ability of PGE2 to desensitize pepsinogen secretion in chief cells isolated from guinea pig is due to a mechanism distal to generation of cAMP.
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PMID:Prostaglandin E2 desensitizes cAMP-mediated pepsinogen secretion in chief cells. 165 22

A low-metastatic, glycosylation-defective variant of the B16 murine melanoma was obtained by Tao and Burger (1977) through selection with wheat germ agglutinin. We found that variant and parental (wild-type) cell lines were equally invasive when confronted with precultured embryonic chick heart fragments in vitro. Also, a short-term in vivo arrest assay showed no significant differences. After intravenous injection, wild-type cells killed the recipient mice faster than did the variant cells. We were able to confirm the changes in glycosylation at the enzyme level. In addition, we showed that the pattern of endogenous lectins was strikingly different, at least at the quantitative level. We also looked at another set of receptor proteins, namely receptors for neurotransmitters coupled to adenylate cyclase. The response to the vasoactive intestinal peptide and prostaglandins was lower in the variant cells, which also had a delayed response to cholera toxin. Although most of the data can be explained by altered glycosylation in the variant cells, the large number of differences between variant and parent cells makes it difficult to identify the biochemical basis of altered metastatic behaviour. This might also be the case with other pairs of cells differing in metastatic activity.
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PMID:Multiple differences between wild-type B16 melanoma cells and a wheat germ agglutinin resistant clone. 166 26

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


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