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 effect of somatostatin (SRIF) and of insulin on the plasma levels of immunoreactive glucagon (IRG) and glucose was examined in normal (N) and depancreatized (PX) dogs. The infusion of SRIF (3 microgram/min for 15 min) caused a rapid decrease of the total IRG measured by means of an antiglucanon serum (AGS 10) which cross reacts with extracts of intestinal mucosa. This decrease was due primarily to a fall in the IRG fraction measured by an antiserum (AGS 18) specific for the carboxyl terminus of pancreatic or A-cell IRG. When the dose of SRIF was increased to 10 microgram/min for 90 min, the difference between total and A-cell IRG in the systemic blood also decreased, indicating that other IRG fractions, such as gut IRG, had also been suppressed. The introduction of 50 ml of a 5% glucose solution into a loop of ileum was followed by an increase of gut IRG measured in the regional mesenteric blood. This response was suppressed by the infusion of SRIF (3 microgram/min). Insulin suppressed the basal level of total IRG, but did not alter the gut IRG response to glucose. The SRIF- and insulin-induced reduction in plasma IRG was not associated with a reduction in plasma glucose, suggesting that the high levels of total and A-cell IRG observed in depancreatized dogs were not essential for the maintenance of hyperglycemia.
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PMID:A-Cell and gut glucagon in normal and depancreatized dogs. Inhibition by somatostatin and insulin. 47 84

Total immunoreactive glucagon (IRG) and immunoreactive glucagon of A cell origin (IRGa) were measured in the serum of normal, sham-operated and depancreatized rats, after the administration of three glucagon antagonists: insulin (5--200 mU/rat/h), somatostatin (SRIF; 100 microgram/kg/h) and antiglucagon serum (AGS, enough to bind three times the calculated total amount of circulating IRG). Since no differences were noted between the responses of normal and sham-operated animals, the values were pooled and used as controls. Pancreatectomy caused a significant increase in serum glucose, IRGa and total IRG and a significant decrease in serum insulin. AGS and SRIF significantly decreased serum glucose in control, but not in depancreatized rats, even though SRIF caused a significant decrease of IRGa in all animals. SRIF significantly decreased plasma insulin in control rats, but did not modify total IRG secretion in either groups. In control rats the minimum effective hypoglycaemic dose of insulin (5 mU/rat/h) may have decreased serum IRGa, but not total IRG. At higher doses (20 mU/rat/h) insulin stimulated glucagon secretion. In depancreatized animals, higher doses of insulin (200 mU/rat/h) were needed to lower serum glucose. On the other hand, a dose of 100 muU/rat/h was sufficient to lower the serum IRG. We conclude that although hyperglucagonaemia may contribute to the hyperglycaemia of the untreated depancreatized rats, the excessive secretion of glucagon is secondary to insulin insufficiency and that, at least in this animal model, the hypoglycaemic action of insulin is only minimally dependent upon its ability to suppress glucagon secretion.
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PMID:The serum glucose response to glucagon suppression with somatostatin, insulin or antiglucagon serum in depancreatized rats. 62 33

Effects of somatostatin on extrapancreatic glucagon secretion in totally depancreatized dogs were examined. Somatostatin infusion at a rate of 3 microgram/min showed a rapid decrease of total glucagon-like immunoreactive materials (total GLI) measured by nonspecific antiserum, AGS 10, and gut glucagon immunoreactivity (gut GI) measured by specific antiserum, AGS 18, in systemic blood. Gut GLI calculated as the difference between total GLI and GI did not decrease significantly within 30 min. No changes of blood glucose were noted. Significant decreases of all glucagon fractions were observed when the rate of somatostatin infusion was increased to 10 microgram/min and prolonged for 90 min, whereas again blood glucose did not change at all. It is concluded that somatostatin inhibits both gut GI and GLI secretion, although gut GLI remains in circulation longer than gut GI. Suppression of gut GI is not effective for the reduction of blood glucose once an extreme hyperglycemia is brought about by insulin deficiency.
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PMID:Failure of somatostatin to decrease blood glucose by suppression of extrapancreatic glucagon in severely diabetic depancreatized dogs. 75 98

Somatostatin is a potent inhibitor of gastrin secretion and gene expression. Menin is a 67-kDa protein product of the multiple endocrine neoplasia type 1 (MEN1) gene that when mutated leads to duodenal gastrinomas, a tumor that overproduces the hormone gastrin. These observations suggest that menin might normally inhibit gastrin gene expression in its role as a tumor suppressor. Since somatostatin and ostensibly menin are both inhibitors of gastrin, we hypothesized that somatostatin signaling directly induces menin. Menin protein expression was significantly lower in somatostatin-null mice, which are hypergastrinemic. We found by immunohistochemistry that somatostatin receptor-positive cells (SSTR2A) express menin. Mice were treated with the somatostatin analog octreotide to determine whether activation of somatostatin signaling induced menin. We found that octreotide increased the number of menin-expressing cells, menin mRNA, and menin protein expression. Moreover, the induction by octreotide was greater in the duodenum than in the antrum. The increase in menin observed in vivo was recapitulated by treating AGS and STC cell lines with octreotide, demonstrating that the regulation was direct. The induction required suppression of protein kinase A (PKA) since forskolin treatment suppressed menin protein levels and octreotide inhibited PKA enzyme activity. Small-interfering RNA-mediated suppression of PKA levels raised basal levels of menin protein and prevented further induction by octreotide. Using AGS cells, we also showed for the first time that menin directly inhibits endogenous gastrin gene expression. In conclusion, somatostatin receptor activation induces menin expression by suppressing PKA activation.
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PMID:Somatostatin stimulates menin gene expression by inhibiting protein kinase A. 1875 9