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 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

The present study was performed in order to evaluate the plasma glucose pattern in cirrhotic patients who, in the course of a continuous somatostatin infusion (500 microgram/h), were given pulses of glucagon (1 mg i.v.). In normal as well as in cirrhotic subjects somatostatin infusion provoked a marked reduction of the IRI plasma level and this was uninfluenced by subsequent glucagon administration. The rise in plasma glucose level in response to i.v. glucagon administration during somatostatin infusion was less marked in cirrhotics compared to normal subjects. This can be attributed to a variety of factors such as reduced number of liver cells or quantitative or qualitative changes of the liver cell glucagon receptors. Glucagon does not seem to contribute to the pathogenesis of carbohydrate intolerance in liver cirrhosis.
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PMID:Effect of somatostatin (SRIF) on plasma glucose and insulin response to glucagon in liver cirrhosis. 48 63

These studies assessed the ability of glucose infusions to potentiate the acute insulin response (AIR) to iv isoproterenol (12 micrograms), arginine (750 mg), or glucose (5 g) that was previously inhibited by an infusion of somatostatin (SRIF). SRIF (1.7 micrograms/min) markedly inhibited the AIR to isoproterenol (AIR before SRIF, 28 +/- 1 microU/ml; AIR during SRIF, 8 +/- microU/ml; P less than 0.025), arginine (AIR before SRIF, 6 +/- 2 microU/ml; AIR during SRIF, 1 +/- 1 microU/ml; P less than 0.01), and glucose (AIR before SRIF, 19 +/- 7 microU/ml; AIR during SRIF, 1 +/- microU/ml; P less than 0.05). The administration of a glucose infusion of 105 mg/min partially restored the AIR to isoproterenol and arginine. Glucose infused at 440 mg/min fully restored the AIR to both isoproterenol (AIR during SRIF plus glucose, 31 +/- 4 microU/ml) and arginine (AIR during SRIF plus glucose, 9 +/- 2 microU/ml). In contrast, the AIR to glucose was not affected by infusion of glucose (AIR during SRIF plus glucose, 0 +/- 1 microU/ml). In the absence of SRIF, glucose infusion potentiates the AIR to isoproterenol and arginine but not to glucose. Therefore, during SRIF infusion, glucose retains the ability to potentiate the AIR to nonglucose stimuli despite the loss of the ability to stimulate insulin release directly. These data suggest that the potentiating effects of glucose and the inhibiting effects of SRIF may be mediated by a common mechanism affecting insulin release.
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PMID:Glucose infusion potentiates the acute insulin response to nonglucose stimuli during the infusion of somatostatin. 48 8

Twenty-one nondiabetic subjects, their weights ranging from 56 to 165 kg, received an infusion of glucose (420 mg/min), insulin (0.77 mU/kg/min), and somatostatin (500 microgram/h) for 150 min. A steady state level of plasma insulin and glucose was attained after 90 min. Endogenous insulin secretion determined by C-peptide measurement, and glucagon secretion remained suppressed throughout the period. With similar steady state levels of plasma insulin (SSPI) maintained in all subjects, the height of the steady state plasma glucose concentration (SSPG) was considered an index of total body sensitivity to insulin-mediated glucose uptake. A positive correlation between SSPG and the degree of obesity, as determined by the body mass index (BMI), was demonstrated (r = 0.70, P less than 0.001). No correlation was found between SSPI and BMI. The fasting plasma insulin concentration correlated with BMI (r = 0.82, P less than 0.0001) and SSPG (r = 0.80, P less than 0.0001). This method provides a simple safe measure of total body insulin resistance over a wide range of obesity and is independent of endogenous insulin secretion.
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PMID:A simplified method using somatostatin to assess in vivo insulin resistance over a range of obesity. 48 47

Normal subjects were infused 1) with epinephrine (50 ng/(kg.min)) for 180 min followed by epinephrine plus glucagon (3 ng/(kg.min)) for 60 min after which the epinephrine infusion rate was increased (125 ng/(kg.min)) or 2) with epinephrine plus somatostatin (500 microgram/h) for 180 min. Epinephrine increased glucose production and plasma glucagon transiently but caused persistent suppression of glucose clearance and sustained hyperglycemia (despite increased plasma insulin and gluconeogenic substrates); glucose production increased again on addition of glucagon and on increasing the epinephrine infusion rate. During epinephrine plus somatostatin, glucose production still increased transiently, but further suppression of glucose clearance caused more marked hyperglycemia. In conclusion, 1) in man hyperepinephrinemia within the physiological range caused sustained suppression of glucose clearance but only a transient increase in glucose production; 2) this transient hepatic response a) was not due to glycogen or substrate depletion, b) occurred without changes in plasma glucagon or insulin, c) was specific for epinephrine but permitted subsequent responses to changes in plasma epinephrine; 3) epinephrine can serve as a physiological regulator of glucose homeostasis in man both by increasing glucose production and by decreasing glucose clearance.
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PMID:Differential effects of epinephrine on glucose production and disposal in man. 49 14

The effect of somatostatin (SRIF) on glucagon and insulin secretion was examined in fed and fasted sheep. This was related to changes in glucose production. Infusion of SRIF at 80 micrograms/h caused a marked reduction in plasma glucagon concentrations. However, the insulin response to SRIF infusion was not consistent; its concentrations decreased occasionally, but often did not change. The depression of glucagon was not associated with a significant reduction in blood glucose concentrations in either fed or fasted sheep, but was associated with a reduction in glucose production by 12--15%. The inhibitory effect of insulin on glucose production was not markedly increased by glucagon deficiency. Infusion of insulin at 1.17 U/h with SRIF decreased glucose production only an additional 10%. Thus, it appears that under basal conditions pancreatic hormonal influences on hepatic glucose production were relatively small in sheep. This implies that under normal conditions in sheep, substrate supply has a much greater impact on hepatic glucogenesis than do hormones.
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PMID:Effect of somatostatin suppression of glucagon secretion on glucose production in sheep. 49 97

We have demonstrated previously that cyclic somatostatin (GH-RIH) exerts a diabetogenic action in healthy subjects. To further examine the impact of this phenomenon studies of blood glucose (BG), immunoreactive insulin (IRI), glucagon (IRG) and growth hormone (GH) were performed in insulin requiring diabetics (n = 6) receiving i.v. arginine (0.5 g/kg) both in the absence and presence of i.v. GH-RIH (500 microgram/h). The infusion of GH-RIH-resulted in a persistent diminution in plasma IRI, IRG and GH. BG fell during i.v. GH-RIH during the initial 30 min and was below control values up to 45 min after initiation of i.v. arginine, but subsequently exceeded control levels (p less than 0.05 - less than 0.025). The excess rise in BG occurred in spite of suppression by somatostatin of the ariginine induced release of IRG, IRI and GH. A fall in BG was seen following cessation of i.v. GH-RIH and during a rebound of insulin release with glucagon levels remaining in the basal range. These findings indicate a diabetogenic action of somatostatin also in insulin requiring diabetics as long as some residual capacity for insulin release is retained.
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PMID:Increase by somatostatin of the arginine induced rise in blood glucose in untreated insulin requiring diabetics. 49

The present study was designed to examine the effects of intravenously injected alloxan (75 mg/kg) upon plasma somatostatin-like immunoreactivity (SLI), glucagon (IRG), insulin (IRI) and glucose levels in 6 dogs. Within 2 hours of the injection of alloxan, SLI and IRI levels decreased significantly below their respective baselines, while IRG and plasma glucose concentrations increased. At 8 hours SLI levels had increased significantly by 55 pg/ml, together with a rise in IRI and a decrease in IRG and glucose concentrations. After 24 hours, marked hyperglycemia and hyperglucagonemia had developed whereas SLI levels were not different from preinjection values.
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PMID:Response of plasma somatostatin-like immunoreactivity to the administration of alloxan in dogs. 49 95

The blood glucagon concentration (fasting and in insulin hypoglycemia) was determined by radioimmunoassay in diabetic patients, relatives of diabetic patients with a normal glucose tolerance test, patients with obesity and a group of normal weight subjects. The index of glucagon rise above the fasting level and glucagon release rate were estimated. In relatives of diabetic and obese patients the initial blood glucagon concentration did not differ from that of healthy subjects. However, during insulin hypoglycemia, glucagon secretion was significantly reduced, and in relatives of diabetic patients it also proved to be delayed. A comparison of glucagon and somatostatin changes in the above mentioned patients allows to suggest participation of the somatostatin mechanism in disorders of glucagon secretion.
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PMID:Glucagon secretion in subjects with prediabetes, diabetes mellitus and obesity. 50 63

Four patients with glucagon-producing tumours of the pancreas were investigated. Fasting plasma glucagon concentrations ranged from 209--625 pmol/l. Plasma insulin concentrations were normal except in one patient, where the tumour also produced insulin (558 pmol/l). Intravenous glucose (25 g/m2) depressed the glucagon concentration in two patients, while no change was noted in the others. Intravenous arginine stimulated glucagon secretion in three patients, but not in the fourth. Intravenous somatostatin suppressed glucagon secretion in all three patients investigated. All patients had abnormally low plasma levels of individual amino acids; glucogenic and branched-chain amino acids were equally depressed. Surgical removal of the tumours led to complete recovery from dermatosis and the glucagon levels were normalized. Postoperative tests were performed in three patients. The alpha-cell responsiveness to iv glucose was restored. Glucose tolerance (Kg-value) was improved in one patient (0.73 to 1.65), persistently low in one patient (0.75 to 0.72) and impaired in the third patient (1.35 to 1.09). It is concluded that none of these functional tests will be of diagnostic value in cases suspected of glucagonomas. The results also show that glucose homeostasis is remarkably unaffected by the extreme hyperglucagonaemia of these patients and that hypoaminoacidaemia is an important consequence of chronic hyperglucagonaemia.
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PMID:Functional studies in patients with the glucagonoma syndrome. 51 Aug 30

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