UNIPROT:P61278 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The action of somatostatin on compostition and flow rate of pure pancreatic juice obtained by endoscopic cannulation of the main pancreatic duct was evaluated in 5 healthy volunteers. Synthetic secretin (0.06 CU/kg-h) was intravenously infused throughout the 80-min study. Bicarbonate concentrations in pancreatic juice achieved constant levels (117 +/- 3 muEq/ml) after 10 min, whereas a steady state of juice flow (7.3 +/- 1.4 ml/5 min) was attained after 15 min of secretin infusion. In the third 20-min period, cyclic somatostatic (5 mug/kg-h i.v.) was given, leading to a decrease in pancreatic flow rate by 47% after 10 min, and by 67% after 15 min of somatostatin administration. Alrady 5 min after the infusion of somatostatin had been discontinued, pancreatic flow rate gradually recovered; presomatostatin levels, however, were not reached within 20 min. Cyclic AMP varied roughly in accordance with bicarbonate concentrations, whereas the chloride concentrations were reciprocally related. Bicarbonate, sodium, potassium, protein, and cyclic GMP concentrations did not change substantially due to somatostatin.
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PMID:Inhibition by somatostatin of secretin-stimulated pancreatic secretion in man: a study with pure pancreatic juice. 18 82

Short term (30 min) infusion of cyclic somatostatin (50 microgram/rat), insulin (1 U/rat) or the two together significantly suppressed urinary cyclic AMP excretion in streptozotocin-diabetic rats. While somatostatin tended to increase cyclic GMP excretion, insulin had an opposite effect in diabetic but not in normal rats. It is suggested that somatostatin suppresses cyclic AMP excretion by inhibiting directly adenylate cyclase in liver and perhaps in other organs. The possibility that suppression of urinary cyclic AMP is due to inhibition of glucagon secretion is also considered.
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PMID:Somatostatin inhibits urinary cyclic AMP excretion in diabetic rats. 19 95

We have prepared (125)I-labeled [Tyr(4)]bombesin and have examined the kinetics, stoichiometry, and chemical specificity with which the labeled peptide binds to dispersed acini from guinea pig pancreas. Binding of (125)I-labeled [Tyr(4)]-bombesin was saturable, temperature-dependent, and reversible and reflected interaction of the labeled peptide with a single class of binding sites on the plasma membrane of pancreatic acinar cells. Each acinar cell possessed approximately 5000 binding sites, and binding of the tracer to these sites could be inhibited by [Tyr(4)]bombesin [concentration for half-maximal effect (Kd), 2 nM], bombesin (Kd, 4 nM), or litorin (Kd, 40 nM) but not by eledoisin, physalemin, somatostatin, carbachol, atropine, secretin, vasocative intestinal peptide, neurotensin, or bovine pancreatic polypeptide. At high concentrations (>0.1 muM), cholecystokinin and caerulein each caused a small (15-20%) reduction in binding of lableled [Tyr(4)]bombesin. With bombesin, litorin, and [Tyr(4)]bombesin, there was a close correlation between the relative potency for inhibition of binding of labeled [Tyr(4)]bombesin and that for stimulation of amylase secretion. For a given peptide, however, a 10-fold higher concentration was required for half-maximal inhibition of binding than for half-maximal stimulation of amylase secretion, calcium outflux, or cyclic GMP accumulation. These results indicate that dispersed acini from guinea pig pancreas possess a single class of receptors that interact with [Tyr(4)]bombesin, bombesin, and litorin and that occupation of 25% of these receptors will cause a maximal biological response.
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PMID:Interaction of bombesin and litorin with specific membrane receptors on pancreatic acinar cells. 21 15

We have prepared 125I-labeled physalaemin and have examined the kinetics, stoichiometry, and chemical specificity with which the labeled peptide binds to dispersed acini from guinea pig pancreas. Binding of 125I-labeled physalaemin was saturable, temperature-dependent, and reversible and reflected interaction of the labeled peptide with a single class of binding sites on the plasma membrane of pancreatic acinar cells. Each acinar cell possessed approximately 500 binding sites, and binding of the tracer to these sites could be inhibited by physalaemin [concentration for half-maximal effect (Kd), 2 nM], substance P (Kd, 5 nM), or eledoisin (Kd, 300 nM) but not by cholecystokinin, caerulein, bombesin, litorin, gastrin, secretin, vasoactive intestinal peptide, glucagon, somatostatin, neurotensin, bovine pancreatic polypeptide, leucine-enkephalin, methionine-enkephalin, atropine, or carbamylcholine. With physalaemin, substance P, and eledoisin, there was a close correlation between the relative potency for inhibition of binding of labeled physalaemin and that for stimulation of amylase secretion. For a given peptide, however, a 3-fold higher concentration was required for half-maximal inhibition of binding than for half-maximal stimulation of amylase secretion, calcium outflux, or cyclic GMP accumulation. These results indicate that dispersed acini from guinea pig pancreas possess a single class of receptors that interact with physalaemin, substance P, and eledoisin and that occupation of 45% of these receptors will cause a maximal biological response.
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PMID:Interaction of physalaemin, substance P, and eledoisin with specific membrane receptors on pancreatic acinar cells. 23 Apr 88

Nitric oxide has recently been implicated as the effector molecule that mediates IL-1 beta-induced inhibition of glucose-stimulated insulin secretion and beta-cell specific destruction. The pancreatic islet represents a heterogeneous cell population containing both endocrine cells (beta-[insulin], alpha-]glucagon], gamma[somatostatin], and PP-[polypeptide] secreting cells) and non-endocrine cells (fibroblast, macrophage, endothelial, and dendritic cells). The purpose of this investigation was to determine if the beta-cell, which is selectively destroyed during insulin-dependent diabetes mellitus, is both a source of IL-1 beta-induced nitric oxide production and also a site of action of this free radical. Pretreatment of beta-cells, purified by FACS with IL-1 beta results in a 40% inhibition of glucose-stimulated insulin secretion that is prevented by the nitric oxide synthase inhibitor, NG-monomethyl-L-arginine (NMMA). IL-1 beta induces the formation of nitric oxide by purified beta-cells as evidenced by the accumulation of cGMP, which is blocked by NMMA. IL-1 beta also induces the accumulation of cGMP by the insulinoma cell line Rin-m5F, and both NMMA as well as the protein synthesis inhibitor cycloheximide prevent this cGMP accumulation. Iron-sulfur proteins appear to be intracellular targets of nitric oxide. IL-1 beta induces the formation of an iron-dinitrosyl complex by Rin-m5F cells indicating that nitric oxide mediates the destruction of iron-sulfur clusters of iron containing enzymes. This is further demonstrated by IL-1 beta-induced inhibition of glucose oxidation by purified beta-cells, mitochondrial aconitase activity of dispersed islet cells, and mitochondrial aconitase activity of Rin-m5F cells, all of which are prevented by NMMA. IL-1 beta does not appear to affect FACS-purified alpha-cell metabolic activity or intracellular cGMP levels, suggesting that IL-1 beta does not exert any effect on alpha-cells. These results demonstrate that the islet beta-cell is a source of IL-1 beta-induced nitric oxide production, and that beta-cell mitochondrial iron-sulfur containing enzymes are one site of action of nitric oxide.
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PMID:Interleukin 1 beta induces the formation of nitric oxide by beta-cells purified from rodent islets of Langerhans. Evidence for the beta-cell as a source and site of action of nitric oxide. 133 75

During experimental gastric ulceration in rats an elevation in the mucosal cAMP/cGMP ratio can be encountered. The cause of this significant elevation is mainly (but not entirely) the dramatic fall of the cGMP level. Similar observations were obtained with prostacyclin application (100 micrograms/kg, p.o.), too. This prostaglandin derivative is well known, among others, because of its pronounced anti-ulcerogenic (cytoprotective) effect, too. Other substances of different molecular structure and properties may also exert such effect. The exact mechanism of action of this above-mentioned cytoprotection is still not completely understood. H2-receptor blocker drug cimetidine, given in such small dose (5 mg/kg, p.o.) which does not interfere with gastric acid secretion, also exerts very significant cytoprotective effect in stress (restraint)- and drug (indomethacin)-induced gastric ulcer models. Under cimetidine effect--together with a noticeable endogenous prostacyclin mobilization--the gastric mucosal cAMP/cGMP ratio was also strongly elevated. We conclude that this elevation in the mucosal cAMP/cGMP ratio might be a possible molecular basis of the gastric cytoprotective (anti-ulcerogenic) drugs but it needs further investigations whether all substances exerting cytoprotective effect, e.g. atropine, somatostatin, sulfhydryl drugs, etc., have the same "shifting" property or not? Moreover the phenomenon of the so-called "adaptive cytoprotection" can not be ruled out completely either, therefore this problem needs attention, too.
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PMID:Gastric anti-ulcerogenic drug effect. A possible mechanism of its molecular basis. 134 9

It has been found that injection of dalargin before the occlusion of the left anterior coronary artery prevents an increase of cAMP content in the myocardium and blood plasma. In the myocardium of rats given dalargin before acute myocardial ischemia, the content of cGMP was increased and the level of somatostatin was reduced. It is assumed that the increase of the content of cGMP and the reduction of cAMP and somatostatin levels in the myocardium play an important role in antiarrhythmic action of dalargin.
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PMID:[The mechanism of the antiarrhythmic action of dalargin in experimental myocardial ischemia]. 135 76

The second messengers and protein kinases involved in the induction of type I plasminogen activator inhibitor (PAI-1) synthesis by various agents were evaluated in cultured bovine aortic endothelial cells. Phorbol myristate acetate (PMA) induced PAI-1 in these cells implicating the protein kinase C (PK-C) pathway. However, bradykinin, which also activates PK-C in bovine aortic endothelial cells, did not induce PAI-1. Moreover, when PK-C was down-regulated by PMA pretreatment, subsequent induction of PAI-1 by transforming growth factor beta (TGF beta) and tumor necrosis factor alpha (TNF alpha) was unaltered, and induction by lipopolysaccharide (LPS) was decreased by only 50%. LPS increased phospholipid second messengers which can activate PK-C but TGF beta and TNF alpha did not. Agents which increase cAMP, (e.g., forskolin and isobutylmethylxanthine) blocked the induction of PAI-1 synthesis by PMA, LPS, TGF beta and TNF alpha suggesting that induction may occur by lowering cAMP. This possibility seems unlikely since cAMP levels did not change in response to any of these agents. Moreover, somatostatin lowered cAMP but did not induce PAI-1. PAI-1 was not induced by treating the cells with cGMP, Na+/H+ ionophore and calcium ionophore or arachidonic acid.
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PMID:Regulation of type I plasminogen activator inhibitor synthesis by protein kinase C and cAMP in bovine aortic endothelial cells. 165 42

In vitro, we were able to induce a differentiation of human (SK-N-MC, IMR-32, Leo-2) and murine neuroblastoma cells (NA-2, C-1300, NIE-115) with dibutyryl cyclic 3'5'-adenosine monophosphate (dbcAMP), hypothalamic factor (HF), and somatostatin. As morphological criteria of cellular differentiation we used the decrease in cell proliferation and the formation of neurites. Functional parameters were the increase of A cholinesterase activity, cAMP level, and protein content, and the decrease of cGMP level. After application of dbcAMP and HF, the effects were stronger than after somatostatin. We believe that the action of HF and somatostatin is caused by an increase in cAMP levels. In the in vivo experiments, human and murine neuroblastoma cells (NA-2, C-1300, and Leo-2) were transplanted into nude/nude mice. After HF treatment of 14 mice with NA-2 tumors, 4 of the mice were tumor-free, and mean tumor weight was reduced to one-third of the controls. Of the animals with C-1300 and Leo-2 tumors, half became tumor-free, and mean tumor weight was reduced to one-fourth. The results indicate that the induction of cellular differentiation by factors and hormones may in future become a method of therapy for human neuroblastoma.
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PMID:Research on the differentiation of human and murine neuroblastoma cells. 167 82

The effects of rat growth hormone releasing factor (rGRF) on somatostatin (SRIF) secretion, cyclic nucleotide production and phosphatidylinositol metabolism were investigated in the median eminence (ME), using an in vitro system. Medium was discarded and replaced by medium containing various concentrations of rGRF or rGRF plus epinephrine (E, 6 x 10(-7) M). rGRF had no effect on basal or E-stimulated release of cAMP. In the same experiments rGRF markedly stimulated SRIF release. These results suggested that cAMP is not involved in the stimulatory effect of GRF on SRIF release. However, GRF significantly stimulated release of both SRIF and cGMP in a dose-related manner. Maximal stimulation was observed at 10(-10) M GRF (p less than 0.005) which also produces maximal SRIF release. 2'0-monobutyrylguanosine 3'5' cyclic phosphate (mbcGMP, 10(-11) to 10(-10) M) stimulated SRIF release from ME fragments (p less than 0.001 at 10(-10) M) whereas the control, sodium butyrate (10(-6) M), had no effect. GRF caused significant elevation of 30.6% in the concentration of labelled inositol phosphates [( 3H]-IPs) in the ME. These data indicate that GRF stimulation of SRIF release is accompanied by increased cGMP production and phosphatidyl-inositol (PI) metabolism but does not alter cAMP production. Because mbcGMP can directly stimulate SRIF release, we suggest that GRF causes a receptor-mediated increase in the metabolism of phosphatidylinositol and cGMP formation. These actions therefore may be among the early metabolic events in the mechanism of GRF-stimulated SRIF release from the ME.
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PMID:Rat growth hormone-releasing factor stimulates cyclic GMP formation and phosphatidylinositol metabolism in the median eminence. 167 56

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