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 aim of this paper is to elucidate the cause of death after 90 min of normothermic partial (2/3) ischemia of the liver and to examine the effects of glucagon, somatostatin, insulin, prednisolone and oral administration of polymyxin B (PB). The animals 24 hr after partial ischemia for 90 min were divided into two groups; namely, animals with normal appearance and those with moribund state. There were no significant differences in the plasma level of S-GOT, S-GPT, amino acids, NH3 or insulin, or in morphometrically estimated volume ratio of necrotic hepatocytes between the two groups of rats. The blood glucose level, however, was significantly decreased (31 +/- 28 mg/100 ml, n = 6) in the moribund rats with a higher incidence of positive Limulus gelation tests as compared with the rats with normal appearance (149 +/- 19, n = 5). The 1-day and 1-week survival rates of the animals were 42/62 (69%) and 32/61 (53%), respectively. A glucagon injection (1.5 mg/kg, after ischemia) was effective to elevate the 1-day survival rate (14/14), but failed to increase the 1-week survival rate (11/14). On the other hand, a somatostatin injection (100 micrograms/kg, after ischemia) or PB treatment (15 mg/kg/day x 5-9, before ischemia) succeeded to increase the 1-week survival rate (20/22 p less than 0.01 and 17/17 p less than 0.01, respectively), although no significant amelioration in transaminase levels or volume ratio of necrosis was demonstrated. It could be seen that a moribund state after partial ischemia was accompanied by severe hypoglycemic shock, and that the injection of somatostatin after ischemia or the annihilation of gram-negative bacteria by means of oral administration of polymyxin B before ischemia prevented the occurrence of the hypoglycemic shock.
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PMID:Postischemic liver damage in rats: effect of some therapeutic interventions on survival rate. 629 17

Short (90 min)-, mid (5 days)-, and long-term (15 days) ammonium acetate (5 mmol/kg IP) administration decreased the number of specific [125I][Tyr11]somatostatin receptors in synaptosomes from the frontoparietal cortex without changing the affinity constant. Administration of ammonium acetate did no affect the levels of somatostatin-like immunoreactivity in the frontoparietal cortex. The administration of a single dose of N-carbamyl-L-glutamate (1 mmol/kg) plus L-arginine (1 mmol/kg) 1 h before the last administration of ammonium acetate totally blocked the inhibitory effects of the latter on somatostatin receptor number in the frontoparietal cortex synaptosomes. N-Carbamyl-L-glutamate plus L-arginine alone had no observable effect on the somatostatinergic system. The decrease in the number of somatostatin receptors induced by ammonium acetate might reflect decreased target cell sensitivity to somatostatin, a phenomenon that could contribute to the depressed neuronal excitability induced by ammonia in the rat frontoparietal cortex.
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PMID:Effect of ammonium acetate on the somatostatinergic system in the rat frontoparietal cortex. 790 42

The authors review recent progresses made in the understanding of the disturbed gastrin homeostasis in Helicobacter pylori infection and in pernicious anaemia. Regulation of gastrin release in a complex mechanism involving inhibition by a low gastric pH and several peptides including somatostatin, and stimulation by different factors, mainly alimentary peptides and amino-acids. The hypergastrinaemia observed in patients with Helicobacter pylori infection occurs despite a normal intraluminal pH. This may be through alkalinisation of the gastric mucus layer due to the production of ammonia by the bacterial urease or through local release of inflammatory mediators. In pernicious anaemia a factor present in the antacid gastric juice could explain the important hypergastrinaemia observed. The gastrin releasing activity of the gastric juice itself was demonstrated by a decrease of the patients' plasma gastrin concentration during a neutral gastric lavage and by a rise of the gastrin levels in rats whose stomachs were perfused with gastric juice from pernicious anaemia patients. A better understanding of the relation between gastric pH and gastrin release is important not only for these pathological states but also for treatments which suppress acid secretion.
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PMID:[Mechanisms in hypergastrinemia in autoimmune atrophic gastritis and Helicobacter pylori infection]. 826 64

Research is asking how H. pylori causes diseases, and also why the same bacteria produces different conditions in different persons. The process involves bacterial factors and the host's response. Some bacterial factors such as urease are produced by all strains of H. pylori. This enzyme may damage the gastric epithelium by practically releasing ammonia. Other bacterial factors such as vacuolating toxin are only produced by some strains, and these strains are more likely to cause ulcers or cancer. The host's response has been studied by physiologists, immunologists, and histologists, but the separation of systems is artificial. For example, physiologists find that H. pylori stops gastric D-cells from expressing somatostatin normally, which impairs reflex inhibition of acid secretion, but the D-cell malfunction is probably due to inflammatory factors. In H. pylori gastritis, the gastric epithelial cells behave like immunocytes and express class II molecules and cytokines such as interleukin-8. The patient's histological response to H. pylori is quite closely related to the disease outcome. Patients who respond by developing gastric atrophy are more likely to get gastric ulcers or stomach cancer, but patients whose gastric corpus remains healthy tend to secrete more acid and develop duodenal ulcers, particularly if they have gastric metaplasia in their duodenum. Studies of disease mechanisms provide a valuable insight into the development of these common diseases, and may enable us to identify at-risk groups who particularly merit eradication therapy.
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PMID:Pathogenic mechanisms. 856 49

It has been reported that ingestion of an ammonium-containing diet produces hyperammonemia without encephalopathy, thus permitting the study of the specific effects of ammonia toxicity. The present study investigated the rat cerebral somatostatinergic system using this experimental model of hyperammonemia. Wistar rats were fed a high ammonia diet prepared by mixing a standard diet with ammonium acetate (20% w/w); in addition, 5 mM of ammonium acetate was added to their water supply. Control rats were fed with a standard diet. The animals were sacrificed at 3, 7 and 15 days of ammonia ingestion. Ammonia levels in blood had increased approximately 3-fold at 7 days of ammonia ingestion. These changes were associated with a significant decrease in the specific binding of somatostatin (SS) to putative receptors sites in the frontoparietal cortex and hippocampus at 7 and 15 days after starting the high ammonia diet. Scatchard analysis shows that the decrease in SS binding resulted from a decrease in the number of available SS receptors rather than a change in receptor affinity. No changes in the somatostatin-like immunoreactivity content (SSLI) were detected in either brain area at the three study times. These results suggest that hyperammonemia alone can affect the rat brain somatostatinergic system. However, the animal model of hyperammonemia used here is insufficient to produce encephalopathy despite the significant increase in serum ammonia.
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PMID:Response of rat cerebral somatostatinergic system to a high ammonia diet. 893 57

We used eight Polypay wethers (36 +/- .6 kg BW) fitted with hepatic portal, hepatic venous, mesenteric arterial and venous, and duodenal catheters in a crossover design experiment to determine the influence of somatostatin (SRIF) on splanchnic metabolism. Each crossover period consisted of 14 d, with net flux of nutrients and hormones (venoarterial differences x blood flow) measured on d 14. Before flux measurements, wethers received an i.v. dose (0 h) of either 0 (vehicle) or 50 mg x kg BW(-1) x 10 min(-1) cysteamine (CSH, SRIF-depleting agent) followed by a continuous duodenal infusion (h 10 to 22) of a starch hydrolysate-casein solution. Six sets of arterial, portal, and hepatic blood samples were obtained (h 12 to 16), after which a primed (10 microg), continuous jugular infusion of SRIF-14 (5.0 microg x kg BW(-1) x h(-1)) was initiated and sampling protocol repeated (h 18 to 22). Cysteamine administration increased (P < .01, vs control) portal and hepatic blood flow in the absence of exogenous SRIF (CSH x SRIF, P < .01). Net portal-drained viscera (PDV) release of glucose, alpha-amino N, ammonia N, beta-hydroxybutyrate, and oxygen consumption were decreased (P < or = .10) and lactate release increased (P = .005) during SRIF infusion. The CSH increased (P < .05) PDV release of beta-hydroxybutyrate and insulin and increased (P = .09, CSH alone vs control) net release of glucose in the absence of exogenous SRIF. Exogenous SRIF increased (P = .10) and CSH decreased (P = .09) net hepatic glucose output, whereas liver oxygen consumption was decreased (P = .04) with exogenous SRIF and increased (P = .01) with CSH. Net total splanchnic alpha-amino N release and oxygen consumption were decreased (P < .10) with exogenous SRIF, but CSH increased (P < .05) insulin release and oxygen consumption. These data provide initial evidence for a regulatory involvement of SRIF in visceral metabolism in ruminants.
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PMID:Effects of exogenous somatostatin and cysteamine on net nutrient flux across the portal-drained viscera and liver of sheep during intraduodenal infusion of starch hydrolysate and casein. 937 19

Helicobacter pylori infection increases gastric acid secretion in patients with duodenal ulcers but diminishes acid output in patients with gastric cancer and their relatives. Investigation of the basic mechanisms may show how H. pylori causes different diseases in different persons. Infection of the gastric antrum increases gastrin release. Certain cytokines released in H. pylori gastritis, such as tumor necrosis factor alpha and specific products of H. pylori, such as ammonia, release gastrin from G cells and might be responsible. The infection also diminishes mucosal expression of somatostatin. Exposure of canine D cells to tumor necrosis factor alpha in vitro reproduces this effect. These changes in gastrin and somatostatin increase acid secretion and lead to duodenal ulceration. But the acid response depends on the state of the gastric corpus mucosa. The net effect of corpus gastritis is to decrease acid secretion. Specific products of H. pylori inhibit parietal cells. Also, interleukin 1 beta, which is overexpressed in H. pylori gastritis, inhibits both parietal cells and histamine release from enterochromaffin-like cells. H. pylori also promotes gastric atrophy, leading to loss of parietal cells. Factors such as a high-salt diet and a lack of dietary antioxidants, which also increase corpus gastritis and atrophy, may protect against duodenal ulcers by decreasing acid output. However, the resulting increase of intragastric pH may predispose to gastric cancer by allowing other bacteria to persist and produce carcinogens in the stomach.
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PMID:How does Helicobacter pylori cause mucosal damage? Its effect on acid and gastrin physiology. 939 59

The protection of Helicobacter pylori from the gastric acid exerted by urease is based on an increase of the bacterial periplasmic pH and membrane potential. Ammonia generated from urea induces apoptosis of gastric cells in vitro, and inhibits gastric somatostatin release in animals, which could have consequences on the physiology of digestion in general. The type s1/m1 structure of the vacA gene is associated with the production of high levels of cytotoxin. Strains with m2 region type, formerly considered devoid of toxic activity, are fully toxic when assayed with cell lines other than HeLa cells, which possibly lack receptors for m2 VacA type. The enhanced gastric mucosa damage associated with infection by cytotoxic organisms could be explained by the varying of effects exerted by VacA on target cells: extracellular secretion of acidic hydrolases, cytoskeletal alterations, actin rearrangement, reduction of epidermal growth factor binding to its receptor, inhibition of the stimulation of CD4+ T cells proliferation induced by the antigen presenting cells. Organisms that possess the pathogenicity island cag (cag+) induce an increased inflammation and transduction of signals to the host cells; however, they reduce the apoptosis of colonised cells. The results of an investigation on the possible influence of a variable cagA status on the extension of apoptosis have indicated that this kind of programmed death is disengaged from the possession of cagA by Helicobacter pylori organisms colonising the same gastric areas. It is likely that the whole pathogenic potential of cag+ organisms is far from being completely explored, as suggested by the recent finding that the expression of a bacterial adhesin (called BabA) involved in binding to the blood group antigen Lewis b is associated with the presence of cag.
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PMID:New acquisitions in Helicobacter pylori characteristics. 1007 48

Somatostatin suppresses gastrin and somatostatin secretion via somatostatin receptors (SSTRs). Ammonia produced by Helicobacter pylori has been reported to modify gastric gastrin and somatostatin levels. We investigated the distribution of SSTR-subtype 2 (SSTR-2) in relation to gastrin- and somatostatin-containing cells and the effect of ammonia solution (0.01%-0.1%) administered orally for 2 to 4 weeks on these cells in rat antral mucosa by immunohistochemistry. The majority of SSTR-2 peptide [31-41]-positive cells were located in the basal third of the glands. Double staining experiments revealed that SSTR-2 peptide [31-41]-positive cells are co-localized in 85.0 +/- 2.2% of the gastrin-containing cells and in 34.4 +/- 4.8% of the somatostatin-containing cells. Ammonia solution significantly decreased the number of somatostatin-containing cells and increased the proportion of SSTR-2 peptide [31-41]-labeling in the somatostatin-containing cells in a duration-dependent manner. Maximum changes were observed in rats treated with ammonia solution at the lowest level of 0.01% accompanied by an increase in serum gastrin levels in the portal vein. Sodium hydroxide at the similar pH to 0.01% ammonia solution had no effect. These findings suggest that SSTR-2 are localized in antral endocrine cells and that ammonia solution mainly decreases somatostatin-containing cells without SSTR-2 expression, resulting in an increase in gastrin secretion into the portal vein.
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PMID:Effect of intragastric ammonia on gastrin-, somatostatin-and somatostatin receptor subtype 2 positive-cells in rat antral mucosa. 1040 9

Helicobacter pylori infection has been found to decrease the expression of antral somatostatin and to increase the release of the acid-stimulating hormone gastrin. The reversal of these changes in gut hormones by the eradication of H. pylori, and in-vivo and in-vitro studies in animals either infected with H. pylori or exposed to H. pylori-related materials may support the somatostatin-gastrin link theory in the pathophysiology of H. pylori infection. The following mechanisms have been proposed to explain the H. pylori infection-associated changes in gut hormones; (1) ammonia produced by H. pylori and monochloramine, (2) effect on somatostatin receptor subtype-2, (3) action of lipopolysaccharide from H. pylori on somatostatin receptor, (4) inflammatory cells and mediators, and (5) bacterial strain diversity. H. pylori infection can alter gastric acid secretion in both directions. The elevated acid secretion in patients with duodenal ulcer is decreased by H. pylori eradication, and is accompanied by the normalization of gut hormones in patients whose H. pylori-induced gastritis is limited to the antrum with hyperacidity. Corpus gastritis and the subsequent development of mucosal atrophy induced by H. pylori result in decreased acid secretion, although the mechanism underlying H. pylori-induced atrophy in some subjects remains unclear. Hypoacidity enhances corpus atrophy and increases gastrin secretion, mediated via a physiological suppression of somatostatin release, features that are also observed in H. pylori infection. Therefore, the capacity of acid secretion and distribution of gastritis or atrophy should be taken into consideration when we discuss the affect of H. pylori on gut hormones.
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PMID:Helicobacter pylori and gut hormones. 1187 70

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