UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The stimulation of GH secretion from the anterior pituitary by synthetic GRF (hpGRF) is associated with a rapid increase in cAMP production. Within 5 min of the addition of 1 nM hpGRF to cultured rat anterior pituitary cells, intracellular cAMP levels are elevated 6-fold, with a maximal response being observed at 30 min. cAMP accumulation in the extracellular medium is also enhanced by this peptide. Comparison of the two cellular responses (GH secretion and cAMP formation) at various concentrations of hpGRF indicates that 10 times more hpGRF is required to obtain half-maximal stimulation of cAMP production than for GH secretion. Somatostatin totally blocks hpGRF-stimulated GH release, but only partially attenuates cAMP production in the presence or absence of a phosphodiesterase inhibitor. Verapamil also inhibits GH release in response to hpGRF, but, unlike somatostatin, this effect is not associated with an attenuation of cAMP production. In fact, intracellular cAMP levels are slightly augmented in the presence of verapamil, indicating that Ca2+ is required for hormone release but not for the activation of adenylate cyclase. Consistent with this is the observation that the release of GH due to 8-bromo-cAMP is also blocked by verapamil. A requirement for Ca2+ is further indicated by the inhibitory effects of CoCl2 and CdCl2 on both basal and hpGRF-stimulated GH release. These results suggest that cAMP may play a role as an intracellular mediator of GRF action in somatotrophs and that Ca2+ is required for the release process. Somatostatin may exert its inhibitory effects on GH secretion either by interfering with cAMP production or by an action on the secretory process subsequent to cAMP production.
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PMID:Stimulation of adenosine 3',5'-monophosphate production by growth hormone-releasing factor and its inhibition by somatostatin in anterior pituitary cells in vitro. 619 79

The binding of vasoactive intestinal peptide (VIP) and its effect on cyclic AMP production were assessed in HeLa cells. The binding of [125I]VIP is a moderately rapid process, reversible, saturable, specific and dependent on temperature. Virtually no inactivation of the peptide is observed after 2 h of exposure to the cells. At 15 degrees C, the binding data obtained at steady state are compatible with the existence of two classes of binding sites: a first class with a Kd of 2.4 nM and low binding capacity (1.5 X 10(5) sites/cell) and a second class with a Kd of 100 nM and a high binding capacity (4.9 X 10(6) sites/cell). Secretin is eight times less potent than VIP in competing with 125I VIP but glucagon, insulin and somatostatin are inactive. VIP-induced stimulation of cyclic AMP production depends on time and temperature and is potentiated by a phosphodiesterase inhibitor. A concentration of VIP as low as 10(-10) M is able to stimulate adenylate cyclase. Half-maximal stimulation is observed at 10(-9) M and maximal stimulation (4 times above basal levels) at 10(-8) M VIP. Secretin is an agonist of VIP but exhibits a 1000 times lower potency with respect to adenylate cyclase activation. Glucagon, insulin and somatostatin do not show any effect. The presence of high-affinity binding sites and high sensitivity and specificity of adenylate cyclase for VIP in HeLa cells provide a good model to study the role of this peptide on cell proliferation and differentiation.
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PMID:Interaction of vasoactive intestinal peptide with a cell line (HeLa) derived from human carcinoma of the cervix: binding to specific sites and stimulation of adenylate cyclase. 626 63

Peptide extracts of rat brain powerfully inhibited the cyclic AMP phosphodiesterase activity of rat brain homogenate. Similar extracts of ox brain showed comparable although less potent activity. Preliminary investigation of the physicochemical properties of brain extracts indicated that the rat brain extract contained an active peptide of low molecular weight (about 1400), whereas ox brain contained two such peptides (about 1400 and 900). These studies indicate that endogenous oligopeptides that inhibit cyclic AMP phosphodiesterase are present in brain. Experiments on several pure peptides known to be present in brain. Experiments on several pure peptides known to be present in the CNS showed that the majority were inactive against brain phosphodiesterase, but ACTH(1-24), somatostatin, substance P and Lys8-vasopressin, in descending order of potency, were active. To help distinguish the peptides found in rat and ox brain extracts from known peptides, preliminary analyses of amino acid composition were performed. These suggested that the peptides found in brain extracts were distinct from known peptides having the ability to inhibit cyclic AMP phosphodiesterase.
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PMID:Endogenous peptides that inhibit brain cyclic AMP phosphodiesterase. 628 80

Vasoactive intestinal peptide (VIP) has been shown to increase cyclic AMP content in isolated epithelial cells of rat ventral prostate. The stimulatory effect of VIP was dependent on time and temperature and was potentiated by a phosphodiesterase inhibitor. At 15 degrees C, the response occurred in the 1 X 10(-10)-10(-7)M range of VIP concentrations. Half-maximal stimulation of cellular cyclic AMP was obtained at 1.4 nM and maximal stimulation (3-fold basal level) at about 100 nM VIP. Chicken VIP and porcine secretin were agonists of porcine VIP but exhibited a 2-times higher and a 170-times lower potency, respectively. A high concentration (1 X 10(-6)M) of glucagon, somatostatin, neurotensin, substance P, Met-enkephalin or Leu-enkephalin did not modify cAMP levels. The finding of a VIP-stimulated cAMP system in rat prostatic epithelial cells together with the previous characterization of high-affinity receptors for VIP in the same cell preparation, as well as the presence of VIP-containing neurones innervating the male genitourinary tract, strongly suggest that VIP may be involved in prostatic growth regulation and function.
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PMID:Cyclic AMP-stimulating effect of vasoactive intestinal peptide in isolated epithelial cells of rat ventral prostate. 631 52

Luminal application of acid was recently shown to stimulate surface epithelial HCO3(-) transport in stomach and duodenum. Effects of some potential transmitters of this response were therefore studied in amphibian gastric fundic and proximal duodenal mucosa in vitro. Duodenal HCO3- transport, which could be titrated directly, was stimulated by dibutyryl cAMP (DBcAMP, 10(-6) M), the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (10(-6) M), noradrenaline (10(-6) M), pancreatic glucagon (10(-8) M), and gastric inhibitory peptide (GIP, 10(-10) M). Stimulation by glucagon, but not by prostaglandin E2 (PGE2, 10(-6) M), required Cl- in the luminal solution and was prevented by furosemide (10(-3) M). This suggests that glucagon may affect HCO3(-)-Cl- exchange at the luminal membrane while transport stimulated by prostaglandins may be electrogenic. Stimulatory effects of glucagon and PGE2 were also additive. Gastric HCO3- transport, studied in tissues after inhibition of H+ secretion by histamine H2-antagonists, clearly differed from duodenum in that noradrenaline and GIP were inhibitory and DBcAMP was without effect. Stimulation of gastric HCO3- transport was observed with glucagon (10(-8) M), natural cholecystokinin (CCK, 10(-8) M), and CCK octapeptide (10(-7) M), CCK preparations had no effect in the duodenum. Although tested over a wide range of concentrations, no effect on either duodenal or gastric HCO3- transport was observed with histamine, pentagastrin, tetragastrin, urogastrone, ACTH, bombesin, motilin, secretin, serotonin, somatostatin, substance P, or vasoactive intestinal peptide.
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PMID:Gastric and duodenal HCO3- transport in vitro: effects of hormones and local transmitters. 697 77

To evaluate the effect of chronically elevated adenylyl cyclase, we targeted the expression of a constitutively active mutant alpha-subunit (alpha s+) of Gs to the insulin-producing pancreatic beta-cells of transgenic mice. As assessed by the polymerase chain reaction, expression of alpha s+ mRNA was restricted to the transgenic pancreas. Histological analysis by light microscopy and immunohistochemistry for insulin, glucagon, and somatostatin appeared normal in transgenic islets. Pancreatic insulin content was quantitatively the same for alpha s+ transgenic and control mice. Comparisons of glucose homeostasis, insulin secretion, and islet cAMP revealed the expected differences between alpha s+ transgenic and control mice; in every case, however, responses to glucose alone were normal, and the differences were observed only when measurements were performed in the presence of isobutylmethylxanthine (IBMX), an inhibitor of cAMP phosphodiesterase. 1) In vivo, ip glucose tolerance was normal in alpha s+ transgenics; when ip glucose was preceded by administration of IBMX, the rise in blood glucose was approximately 33% less in the transgenic than in the control mice. 2) Insulin secretion from the perfused pancreas stimulated sequentially with 11 and 22 mM glucose caused characteristic first and second phase insulin release that did not differ between transgenic and control pancreases. IBMX increased biphasic insulin release from all pancreases, but caused a 2-fold greater than normal release from the transgenics. 3) Similarly, batch-incubated alpha s+ and control islets secreted equivalent amounts of insulin in the presence of glucose (22 mM) alone, whereas the combination of glucose plus IBMX was twice as effective on alpha s+ islets. 4) Islet cAMP levels paralleled insulin secretion; in the presence of IBMX, but not glucose alone, cAMP was increased 2-fold more in alpha s+ vs. control islets. We conclude that expression of constitutively active alpha s mutant in pancreatic beta-cells of transgenic mice is functionally effective, causing the physiological phenotype of increased islet cAMP and insulin secretion. However, these changes are uncovered only in the presence of IBMX; without IBMX, glucose homeostasis and islet function appear normal. This normalization, or counterregulation, of cAMP synthesis presumably is accomplished by a compensatory increase in cAMP degradation, possibly via increased activity of cAMP phosphodiesterase.
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PMID:Constitutively active stimulatory G-protein alpha s in beta-cells of transgenic mice causes counterregulation of the increased adenosine 3',5'-monophosphate and insulin secretion. 750 12

In this study, vasoactive intestinal peptide (VIP) is shown to inhibit substrate adherence capacity of rat peritoneal macrophages. The inhibitory response occurred in the 0.1-1,000 nM range of VIP concentrations and it was a time-dependent process. At 15 min, half maximal inhibition (IC50) was obtained at 0.37 +/- 0.26 nM and maximal inhibition (53.8%) at 10(-6) M VIP. The inhibitory effect of VIP was correlated with the stimulation by this peptide of cyclic AMP (cAMP) production in rat peritoneal macrophages. Moreover, agents that inhibited VIP-stimulated cAMP production, such as the VIP-antagonist [4-Cl-D-Phe6, Leu17]-VIP and somatostatin, also decreased the inhibitory effect of VIP on substrate adherence capacity of macrophages. On the contrary, the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX) and the lipid-soluble derivative of cAMP N6,2'-O-dibutyryl cAMP (Bu-cAMP) inhibited the adherence of macrophages to substrate and potentiated the inhibitory action of VIP. These results demonstrate that VIP inhibits substrate adherence capacity of rat peritoneal macrophages by a mechanism that involves cAMP, and show, for the first time, an action of VIP on the function of peritoneal macrophages.
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PMID:Vasoactive intestinal peptide (VIP) inhibits substrate adherence capacity of rat peritoneal macrophages by a mechanism that involves cAMP. 752 55

The present experiments were devoted to analyzing the hypothesis that somatostatin (SS) could modulate glomerular filtration rate by interacting with mesangial cells. Studies were performed in cultured human mesangial cells, passages 3-5. Radioligand experiments demonstrated the presence in the cells of two kinds of receptors, with high (dissociation constant 14 pM. Number of sites: 426 fmol/mg) and low (dissociation constant 56 pM. Number of sites: 20, 111 fmol/mg) affinity. SS prevented in a dose-dependent manner the reduction in planar cell surface area induced by 100 nM Angiotensin II (AII). This effect was not inhibited by the blockade of the vasorelaxing prostaglandins (indomethacin, 10 microM), nitric oxide (L-N-methyl-arginine, 0.2 mM), adenylate cyclase (2,5'-dideoxyadenosine, 0.1 mM), or guanylate cyclase (Methylene blue, 30 microM; LY-83583, 10 microM), but it was potentiated by zaprinast, an inhibitor of the cyclic GMP (cGMP)-specific phosphodiesterase. SS also blocked the increase in myosin light chain phosphorylation induced by AII. SS increased cGMP synthesis by cultured human mesangial cells, an effect that seemed to be dependent on the stimulation of a particulate guanylate cyclase. Preincubation of the cells with pertussis toxin (0.5 microgram/ml) inhibited the effect of SS on the AII-dependent changes in planar cell surface area, as well as the SS-dependent cGMP stimulation. In summary, these results demonstrate the ability of SS to relax cultured human mesangial cells, thus supporting a role for this peptide in the regulation of the glomerular filtration rate. The SS-dependent mesangial cell relaxation may be due to changes in the intracellular concentrations of cGMP, as a consequence of the activation of a particulate guanylate cyclase.
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PMID:Effects of somatostatin on cultured human mesangial cells. 762 80

Natriuretic peptides inhibit the release and action of many hormones through cyclic guanosine monophosphate (cGMP), but the mechanism of cGMP action is unclear. In frog ventricular muscle and guinea-pig hippocampal neurons, cGMP inhibits voltage-activated Ca2+ currents by stimulating phosphodiesterase activity and reducing intracellular cyclic AMP; however, this mechanism is not involved in the action of cGMP on other channels or on Ca2+ channels in other cells. Natriuretic peptide receptors in the rat pituitary also stimulate guanylyl cyclase activity but inhibit secretion by increasing membrane conductance to potassium. In an electrophysiological study on rat pituitary tumour cells, we identified the large-conductance, calcium- and voltage-activated potassium channels (BK) as the primary target of another inhibitory neuropeptide, somatostatin. Here we report that atrial natriuretic peptide also stimulates BK channel activity in GH4C1 cells through protein dephosphorylation. Unlike somatostatin, however, the effect of atrial natriuretic peptide on BK channel activity is preceded by a rapid and potent stimulation of cGMP production and requires cGMP-dependent protein kinase activity. Protein phosphatase activation by cGMP-dependent kinase could explain the inhibitory effects of natriuretic peptides on electrical excitability and the antagonism of cGMP and cAMP in many systems.
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PMID:Potassium channel stimulation by natriuretic peptides through cGMP-dependent dephosphorylation. 767 99

Previous studies have demonstrated that the number of vasopressin (VP) neurons present in primary diencephalic cultures can be markedly augmented by treatment with drugs that elevate intracellular cAMP. To evaluate the effect of this drug treatment on VP secretion by hypothalamic cultures and to determine if this represents a developmental phenomenon or a mechanism involved in the continuing dynamic regulation of the VP gene, we have exposed primary dispersed hypothalamic cultures derived from 14-day-old fetal Sprague-Dawley rats to forskolin (25 microM) and the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX; 500 microM), either continually or intermittently, for up to 39 days. Culture medium was collected throughout the culture period for VP RIA, and at the end of the culture period, cultures were stained immunocytochemically for neurophysin (NP). As reported by previous investigators, exposure to the drugs for 11 days resulted in an increase in the number of NP-positive neurons. The increase was sustained with longer periods of exposure up to 39 days. IBMX and forskolin treatment also resulted in detectable release of VP into the culture medium, which increased from 1.4 +/- 0.15 pg/ml at 11 days to 8.4 +/- 0.6 pg/ml after 32 days of drug treatment. The VP concentration remained undetectable (< 1.25 pg/ml) in nontreated cultures throughout this period. The effect on VP expression did not require immediate exposure to the drugs in culture, but did require the continuous presence of the drugs. Removal of the drugs from days 11-18 of culture resulted in an almost complete loss of NP-positive cells; however, reexposure to the drugs reinstated NP expression in a time-dependent fashion. The effect of IBMX/forskolin treatment on the expression of other neuronal markers was also evaluated. The treatment did not alter the total number of neurons, and there was no evidence of stimulation of oxytocin expression. There was a marked increase in the number and size of neurons stained immunocytochemically for tyrosine hydroxylase and a small increase in the number of cells staining for somatostatin. These results demonstrate that treatment with cAMP-elevating drugs markedly and selectively elevates VP secretion from dispersed hypothalamic cultures, but continuous exposure to the drugs is necessary to sustain the effect. These findings suggest that although cAMP is required in hypothalamic cultures for VP gene expression, it may also participate in the dynamic regulation of VP gene transcription in response to physiological challenges.
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PMID:The stimulation of vasopressin gene expression in cultured hypothalamic neurons by cyclic adenosine 3',5'-monophosphate is reversible. 768 52

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