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)

Whether somatostatin stimulates prostaglandin synthesis by gastric cells is controversial. Also, it is unknown whether somatostatin protects gastric cells against exogenous injury in conditions independent of systemic factors and of inhibition of gastric acid secretion. The present study was undertaken (1) to evaluate the effect of somatostatin on prostaglandin production by rat gastric epithelial cells in monolayer culture and (2) to assess whether somatostatin protects gastric cells against taurocholate- and indomethacin-induced damage in vitro. Somatostatin at concentrations of 10(-5) M and 10(-4) M significantly stimulated PGE2 and 6-keto-PGF1 alpha production by rat gastric epithelial cells but was not able to prevent damage induced by sodium taurocholate and indomethacin to rat gastric cells in monolayer culture. These results suggest that: (1) somatostatin stimulates prostaglandin synthesis by cultured rat gastric epithelial cells, but (2) is not directly protective to rat gastric epithelial cell monolayers against drug-induced damage in vitro.
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PMID:Somatostatin stimulates prostaglandin production by rat gastric epithelial cells in vitro, but is not cytoprotective. 290 14

Gallbladder mucosal net fluid transport and motility were measured in vivo by a continuous perfusion technique in the anaesthetized cat. Prostaglandin E2, administered to the perfused gallbladder lumen, caused a contraction decreasing gallbladder volume capacity, and induced a secretory response by the mucosa. These effects by prostaglandin E2 were abolished by the nerve-blocking agent tetrodotoxin (administered close intraarterially) and somatostatin (administered intravenously), but not by intravenous hexamethonium. Atropine (administered intravenously) reduced the order of magnitude of the gallbladder contraction in response to prostaglandin E2 but did not affect the secretory response by the mucosa. Neither of these drugs significantly affected gallbladder volume capacity or mucosal fluid transport during basal conditions. Tetrodotoxin did not abolish the gallbladder responses to intravenous cholecystokinin or vasoactive intestinal peptide, peptides known to act directly upon smooth muscle and epithelial cell receptors, respectively. It is suggested that prostaglandin E2 affects gallbladder function in vivo mainly by activation of postganglionic non-cholinergic intramural nerve cells.
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PMID:Intraluminal prostaglandin E2 affects gallbladder function by activation of intramural nerves in the anaesthetized cat. 290 7

A bovine milk diet (BM) resulted in remarkable changes in histamine H2 receptor activity (sensitization) and PGE2 receptor activity (desensitization) in gastric glands isolated from adult rats. In contrast, the receptor-cAMP systems sensitive to glucagon(s) and secretin in parietal cells and muco-peptic cells were unaffected. In the two experimental groups, cimetidine produced a parallel displacement of the histamine dose-response curve suggesting competitive inhibition between this classical H2 receptor antagonist and histamine. The BM diet reduced the histidine decarboxylase activity in rat gastric mucosa; the histamine content was not significantly different in control and BM-fed rats. There was no alteration of the circadian rhythm of the parietal cell (ultrastructural changes: microvilli, tubulo-vesicles) determined at intervals of 6 hours in milk-fed rats. Prostaglandins and other components in milk (EGF, somatostatin, etc.) might therefore protect gastric mucosa by a differential control of PGE2 and histamine H2 receptor activity, either directly (PGE2 and EGF in milk) or indirectly (inhibition of endogeneous histamine synthesis/release and stimulation of prostaglandin synthesis/release).
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PMID:Effect of a milk diet on rat gastric mucosa: receptor activity, histamine metabolism and ultrastructural analyses. 303 66

In experimental studies, 0.6 N HCl-induced gastric mucosal injury was significantly severe in submandibularectomized rats (SMR rats) than that in either SMR rats receiving exogenous mouse EGF (SMR + EGF rats) or controls. This was also true in gastric injury induced by 0.4 N HCl under pretreatment with indomethacin to reduce gastric mucosal prostaglandins (PGs). Somatostatin (SLI), PGE2, and PAS-stained mucus in the corpus were significantly reduced in SMR rats in comparison to SMR + EGF and control rats. In clinical studies, salivary EGF secretion was much higher in peptic ulcer patients than healthy controls. beta-Urogastrone was effective in the treatment of gastric ulcers. On the basis of experimental studies, we conclude that the protective effect of EGF on the gastric mucosa is, in part, mediated indirectly by increases in SLI, PGE2, and mucus production. However, endogenous, as well as exogenous, EGF has an important direct, cytoprotective effect on the gastric mucosa. From the clinical studies, we also conclude that salivary EGF secretion in ulcer patients increases in a homeostatic response to the presence of an ulcer, facilitating ulcer healing. Furthermore, we believe that beta-urogastrone, human EGF, might prove to be an effective drug in the clinical treatment of gastric ulcers.
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PMID:Experimental and clinical studies on epidermal growth factor for gastric mucosal protection and healing of gastric ulcers. 326 11

The influence of prostaglandins (PG) on central nervous system regulation of blood sugar homeostasis was studied in rats. Substances were injected into the third cerebral ventricle of anesthetized rats while rectal temperature and hepatic venous plasma glucose concentration were recorded. Stereotaxic microinjection of PGD2, E1, E2, and F2 alpha produced hyperglycemia and hyperthermia. The relative order of potency in hyperglycemia, PGF2 alpha greater than D2 greater than E1 greater than E2, was not consistent with that of hyperthermia, PGE2 greater than F2 alpha greater than E1 greater than D2, which suggests that hyperglycemia was a primary, not secondary, response to hyperthermia. Injection of PGF2 alpha caused a dose dependent (5-200 micrograms) increase in the hepatic venous plasma glucose level. Neither the injection of PGF2 alpha (50 micrograms) into the cortex nor into the systemic vein caused hyperglycemia. The injection of PGF2 alpha into the ventricle resulted in the increase of not only glucose, but also glucagon, epinephrine, and norephinephrine in the hepatic venous plasma. However, constant infusion of somatostatin through the femoral vein completely prevented the increase of glucagon after administration of PGF2 alpha, although the increase of plasma glucose level was still observed. PGF2 alpha-induced hyperglycemia did not occur in adrenodemedullated rats. Intravenous injection of naloxone or propranolol did not affect the hyperglycemia, but phentolamine significantly prevented the hyperglycemic effect of PGF2 alpha. These results suggest that intraventricular PGF2 alpha affects the central nervous system to produce hyperglycemia by increasing epinephrine secretion from the adrenal medulla.
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PMID:Prostaglandins affect the central nervous system to produce hyperglycemia in rats. 347 43

The first portion of this paper is devoted to an overview of the normal function of the hypothalamo-pituitary-thyroid axis. This section emphasizes areas of current research interest and it identifies several sites and mechanisms that are potentially important interfaces with toxins or toxic mechanisms. We then describe an in vitro technique for the continuous superfusion of enzymatically dispersed pituitary cells; this approach is particularly valuable in studying the dynamics of the TSH responses to the factors known (or suspected) to regulate TSH secretion in vivo. Using this technique, we have found that 10(-5)M prostaglandin (PG)I2 stimulates TSH secretion without altering the response to TRH (10(-8)M), and that this stimulation is not due to its rapid conversion to 6-keto PGF1 alpha. In contrast PGs of the E series (PGE1 and PGE2, 10(-5)M) increase responsiveness to TRH but have no effect alone. We found no effects of any of the other prostanoids tested (PGs A2, B2, F1 alpha, F2 alpha, thromboxanes A2 and B2, and the endoperoxide analog, U-44069. Somatostain (10(-9)M inhibits TRH-induced TSH secretion, but does not alter the responsiveness to PGI2. These findings suggest that somatostatin blocks TSH secretion at a point that is functionally prior to the involvement of the PGs, and perhaps does so by blocking synthesis or limiting availability of selected PGs.
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PMID:Factors modulating the secretion of thyrotropin and other hormones of the thyroid axis. 611 37

Rat anterior pituitary gland adenylyl cyclase activity is stimulated by prostaglandins with an order of potency of PGE1 congruent to PGE2 greater than PGA1 much greater than PGB1 congruent to PGF1 alpha congruent to PGF2 alpha which is the same for cAMP accumulation and growth hormone release. Somatostatin inhibited prostaglandin-stimulated adenylyl cyclase with an ID50 of 1.48 X 10(-8) +/- 0.27 X 10(-8) M. GTP also stimulated adenylyl cyclase activity at concentrations greater than 10(-6) M but did not prevent inhibition by somatostatin. These results indicate that at least one action of somatostatin is exerted directly on cAMP formation.
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PMID:Inhibition of anterior pituitary prostaglandin-stimulated adenylyl cyclase activity by somatostatin. 611 86

We have isolated form extracts of ovine hypothalami two molecules characterized as somatostatin-28 and somatostatin-4-28 (referred to as somatostatin-25). They were reproduced by solid hase synthesis. In equimolar ratio and depending upon the experimental conditions, synthetic somatostatin-28 ans somatostatin-25 are 3-14 times more potent than somatostatin-14 to inhibit the basal in vitro secretion of growth hormone or as stimulated by prostaglandin (PGE2). In early studies in vivo, somatostatin-28 and somatostatin-25 are also more potent than somatostatin-14 in inhibiting the secretion of growth hormone acutely stimulated in the rat by injection of morphine; somatostatin-28 is also longer-acting than somatostatin-14. These results suggest that somatostatin-14, as originally isolated, is a biologically active fragment of a larger molecule of greater specific activity; it should be considered as another form of somatostatin with high biological activity present in some tissues and likely secreted y the tissues along with somatostatin-14 and possibly other somatostatin-peptides of diverse sizes.
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PMID:High biological activity of the synthetic replicates of somatostatin-28 and somatostatin-25. 611 16

We studied the effect of the intravenous infusion of 16,16-dimethylprostaglandin E2 methyl ester (di-M-PGE2) and somatostatin on bombesin-stimulated gastric acid secretion, plasma gastrin and plasma pancreatic polypeptide in four chronic gastric fistula dogs. Bombesin-stimulated gastric acid secretion was significantly inhibited by somatostatin and virtually abolished by di-M-PGE2. Both agents caused significant, but indistinguishable inhibition of gastrin release (P less than 0.05). Bombesin-stimulated pancreatic polypeptide release was also significantly inhibited by both somatostatin and di-M-PGE2; the inhibitory effect of somatostatin was significantly greater than that of di-M-PGE2 (P less than 0.05). This study provides further evidence in support of the complex interrelationships between agents responsible for the modulation of gastrointestinal physiology.
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PMID:The effect of somatostatin and 16,16-dimethyl-prostaglandin E2 on bombesin-stimulated canine gastric acid, plasma gastrin and pancreatic polypeptide secretion. 611 18

In this study we have examined the interactions of bombesin (1 microgram ICV), neurotensin (1 microgram ICV), TRH (10 micrograms ICV), somatostatin (10 micrograms ICV), PGE2 (10 micrograms ICV) and naloxone (10 mg/kg SC) on thermoregulation in the rat at room temperature (20 +/- 1 degree C). Given alone, bombesin, neurotensin, somatostatin and naloxone all produced hypothermia (bombesin greater than neurotensin greater than somatostatin congruent to naloxone). PGE2 was hyperthermic, and TRH had no effect. Bombesin and PGE2 neutralized one another's effects. Neurotensin had no effect on PGE2-induced hyperthermia. Naloxone enhanced the hypothermic effect of bombesin and somatostatin enhanced the rate of onset of hypothermia after bombesin. TRH had no effect on bombesin-induced hypothermia. TRH, somatostatin and naloxone had no effect on neurotensin-induced hypothermia. TRH antagonized the hypothermia due to naloxone and somatostatin.
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PMID:Neuropeptides and thermoregulation: the interactions of bombesin, neurotensin, TRH, somatostatin, naloxone and prostaglandins. 612 11

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