Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

To further characterize mechanisms of glucose counterregulation in man, the effects of pharmacologically inducd deficiencies of glucagon, growth hormone, and catecholamines (alone and in combination) on recovery of plasma glucose from insulin-induced hypoglycemia and attendant changes in isotopically ([3-(3)H]glucose) determined glucose fluxes were studied in 13 normal subjects. In control studies, recovery of plasma glucose from hypoglycemia was primarily due to a compensatory increase in glucose production; the temporal relationship of glucagon, epinephrine, cortisol, and growth hormone responses with the compensatory increase in glucose appearance was compatible with potential participation of all these hormones in acute glucose counterregulation. Infusion of somatostatin (combined deficiency of glucagon and growth hormone) accentuated insulin-induced hypoglycemia (plasma glucose nadir: 36+/-2 ng/dl during infusion of somatostatin vs. 47+/-2 mg/dl in control studies, P < 0.01) and impaired restoration of normoglycemia (plasma glucose at min 90: 73+/-3 mg/dl at end of somatostatin infusion vs. 92+/-3 mg/dl in control studies, P<0.01). This impaired recovery of plasma glucose was due to blunting of the compensatory increase in glucose appearance since glucose disappearance was not augmented, and was attributable to suppression of glucagon secretion rather than growth hormone secretion since these effects of somatostatin were not observed during simultaneous infusion of somatostatin and glucagon whereas infusion of growth hormone along with somatostatin did not prevent the effect of somatostatin. The attenuated recovery of plasma glucose from hypoglycemia observed during somatostatin-induced glucagon deficiency was associated with plasma epinephrine levels twice those observed in control studies. Infusion of phentolamine plus propranolol (combined alpha-and beta-adrenergic blockade) had no effect on plasma glucose or glucose fluxes after insulin administration. However, infusion of somatostatin along with both phentolamine and propranolol further impaired recovery of plasma glucose from hypoglycemia compared to that observed with somatostatin alone (plasma glucose at end of infusions: 52+/-6 mg/dl for somatostatin-phentolamine-propranolol vs. 72+/-5 mg/dl for somatostatin alone, P < 0.01); this was due to further suppression of the compensatory increase in glucose appearance (maximal values: 1.93+/-0.41 mg/kg per min for somatostatin-phentolamine-propranolol vs. 2.86+/-0.32 mg/kg per min for somatostatin alone, P < 0.05). These results indicate that in man (a) restoration of normoglycemia after insulin-induced hypoglycemia is primarily due to a compensatory increase in glucose production; (b) intact glucagon secretion, but not growth hormone secretion, is necessary for normal glucose counterregulation, and (c) adrenergic mechanisms do not normally play an essential role in this process but become critical to recovery from hypoglycemia when glucagon secretion is impaired.
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PMID:Role of glucagon, catecholamines, and growth hormone in human glucose counterregulation. Effects of somatostatin and combined alpha- and beta-adrenergic blockade on plasma glucose recovery and glucose flux rates after insulin-induced hypoglycemia. 3 13

The authors examined the activity of the cyclic Somatostatin on Ethanol hypoglycemia. While the peptide is capable of increasing the plasma glucose levels of hypoglicemia starved rats, it does not increase the levels of plasma glucose in normal rats under the action of ethanol perfusion.
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PMID:[Effect of cyclic somatostatin on ethanol-induced hypoglycemia]. 4

We treated a two-month-old infant with servere intractable hypoglycemia and nesidioblastosis with continuous glucose infusions (0.75 g per kilogram per hour) via a central venous catheter. Preprandial glucose levels on this regimen were 37+/-2 mg per deciliter (+/-S.E.M.). Basal serum insulin levels were within normal fasting levels for this age group but inappropriately elevated for the blood glucose levels. The beta cells were exquisitely sensitive to infusions of synthetic cyclic somatostatin, with a dose-dependent rise in blood glucose and concomitant suppression of serum insulin levels. There was only minimal suppression of plasma glucagon levels. Single subcutaneous injections of 50 microng of protamine zinc somatostatin raised preprandial blood glucose levels to 83+/-3 mg per deciliter for four to five days although preprandial hormone levels were unchanged. These findings indicate that hypoglycemia of infancy is a hyperinsulin state with abnormal basal regulation of insulin secretion.
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PMID:Hypoglycemia of infancy and nesidioblastosis. Studies with somatostatin. 19 7

The influence of somatostatin (SRIF) on blood glucose, plasma insulin and plasma glucagon was studied in hamsters bearing a transplantable islet-cell tumor secreting insulin and glucagon as well as in normal controls. Fed anesthetized animals were infused intraperitoneally either at a dose of 10 microgram in 15 min or of 150 microgram in 30 min, and intravenously at a dose of 250 microgram in 30 min. Blood was withdrawn from the jugular vein before and after infusion. Before the infusions, tumor bearing animals (TB) had lower blood glucose, markedly elevated plasma glucagon and slightly lower plasma insulin by comparison with normal hamsters (N). Both doses of somatostatin infused by the intraperitoneal route produced a slight but significant hypoglycemia in TB hamsters but not in normals. Ten microgram SRIF did not affect insulin and plasma glucagon levels whereas 150 microgram SRIF significantly depressed plasma insulin in both types of hamsters (N and TB). This latter dose of SRIF decreased plasma glucagon in normal but not in tumor-bearing hamsters. Intravenous infusion of 250 microgram SRIF did not reduce the hyperglucagonemia of TB hamsters either. These results indicate that somatostatin does not reduce the hyperglucagonemia due to the transplantable islet-cell tumor but nevertheless decreases blood glucose and plasma insulin.
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PMID:Effect of somatostatin in the Syrian hamster bearing a transplantable islet-cell tumor. 20 96

A case of glucagonoma syndrome with necrolytic migratory erythema, glossitis, anemia, hyperglucagonemia and a malignant, pancreatic A-cell tumour in a 68-year-old male is described. Gel filtration of the highly elevated circulating glucagon immunoreactivity (2200 pg/ml) demonstrated 60% pancreatic glucagon and 30% "proglucagon". Metabolic studies before operation demonstrated suppression of the total plasma glucagon concentration on oral glucose tolerance test, unchanged total plasma glucagon concentration during intravenous glucose tolerance test and insulin-induced hypoglycemia. Administration of arginine was followed by a rise in both the pancreatic glucagon and the "proglucagon", whereas alanine increased only the pancreatic glucagon. The plasma somatostatin level was immeasurable preoperatively. Somatostatin infusion completely suppressed the release of the pancreatic glucagon but did not significantly affect the "proglucagon". After removal of the tumour the skin lesions disappeared and the total plasma glucagon values fell to normal levels (120 pg/ml). Also, other abnormal laboratory findings returned to normal, including the preoperatively observed renal glucosuria.
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PMID:Metabolic studies and glucagon gel filtration pattern before and after surgery in a case of glucagonoma syndrome. 21 26

Somatostatin was infused for 5-8 hr into five normal men and eleven normal, conscious dogs. This infusion resulted in a persistent decline in plasma glucagon (40-60%) and insulin (30-45%). Plasma gluccose fell 15-25% during the initial 1-2 hr, but subsequently rose to hyperglycemic levels (130-155 mg/100ml) by 3-6 hr, despite persistent hypoglucagonemia. Glucose production initially declined by 40-50%, but later rose to levels 15-20% above basal rates while peripheral glucose utilization fell to levels 20-30% below basal, thereby accounting for hyperglycemia. Infusion of exogenous insulin so as to restore plasma insulin to preinfusion values or cessation of the somatostatin infusion with restoration of endogenous insulin secretion resulted in a prompt reduction of plasma glucose to baseline values. Prevention of the initial somatostatin-induced hypoglycemic response by intravenous infusion of glucose failed to prevent the delayed hyperglycemia. We conclude that somatostatin caused only transient hypoglycemia in normal subjects and that hyperglycemia eventually developes as a consequence of insulin deficiency. These data indicate that basal glucagon secretion is not essential for the development of fasting hyperglycemia and support the conclusion that insulin deficiency rather than glucagon excess is the primary factor responsible for abnormal glucose homeostasis in the diabetic.
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PMID:Glucose homeostasis during prolonged suppression of glucagon and insulin secretion by somatostatin. 26 86

These experiments have been designed to study the influence of alanine infusion of glucose dynamics in the dog and to further elucidate the role of pancreatic hormones in the interaction of alanine with glucose homeostasis. The primed constant infusion of glucose-2-t was used in order to quantitate the rates of glucose production by the liver (Ra) and glucose utilization (Rd). In a first group of experiments, the intravenous infusion of alanine at the rate of 2 mg./kg./min. produced a moderate enhancement of plasma insulin (IRI), while pancreatic glucagon (IRG) increased more consistently. This different pattern of IRI and IRG response caused the insulin/glucagon molar ratio to decline progressibely throughout the experiment. Both rates of glucose turnover increased significantly during alanine infusion. Since Ra rose more rapidly thanRd did initially, hyperglycemia developed. Later, glucose production slowly decreased and, in spite of the sustained hyperglucagonemia, reached levels very close to the baseline in the second part of the experiment. A significant direct correlation between Ra and IRG was found, while the changes in Ra correlated inversely with those in I/G molar ratio. In a second group of experiments, alanine was infused at the same dose together with 0.4 microng./kg./min. of cyclic somatostatin. In the first part of the infusion, IRG fell more than IRI did, so that I/G ratio increased. Later, IRI levels maintained at low values while IRG returned slowly to the baseline and consequently I/G ratio significantly decreased. Glucose production fell rapidly soon after the beginning of the infusion, and therefore hypoglycemia developed. Later, Ra increased progressively to levels above baseline and plasma glucose returned to the preinfusion levels. As in the the first group of experiments, a significant direct correlation between Ra and IRG and an inverse correlation between the changes in Ra and I/G ratio were observed. These experiments demonstrate that alanine infusion produces an acceleration of glucose turnover and that a clear interrelationship between the release of glucose by the liver and the mobilization of pancreatic hormones exists. Finally, the experiments with somatostatin indicate that hyperglucagonemia is one of the mechanisms underlying the stimulatory effect of alanine on glucose production.
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PMID:Studies on the mechanism underlying the influence of alanine infusion on glucose dynamics in the dog. 30 Mar 41

Somatostatin inhibition of gastric acid and pepsin secretion stimulated by insulin-hypoglycaemia was quantified in six conscious cats prepared with cannulated gastric fistulae. Somatostatin 0.5-5 microgram kg-1h-1 produced a dose dependent reduction of both acid and pepsin secretions stimulated by insulin 0.2 u kg-1h-1. The doses of somatostatin which produced 50% inhibition of pepsin and acid secretions (ID50) were not significantly different (0.70 +/- 0.16 and 0.93 +/- 0.11 microgram kg-1h-1 respectively). The slope of the calculated correlation line relating % inhibition of pepsin and % inhibition of acid is within experimental error of unity indicating equality of action of somatostatin on insulin-stimulated acid and pepsin secretion. The results indicate that somatostatin is a more potent inhibitor of insulin 0.2 u kg-1h-1 stimulated acid secretion than pentagastrin 8 microgram kg-1h-1 stimulated acid secretion, but is a more potent inhibitor of pentagastrin--than insulin--stimulated pepsin secretion. As insulin stimulates less acid and more pepsin secretion than pentagastrin, the differences in sensitivities to somatostatin of these secretions produced by the two stimulants is thought to be a result of the different absolute amounts of secretion produced by the stimulants.
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PMID:Quantitation of somatostatin inhibition of insulin-stimulated gastric acid and pepsin secretion in the cat. 35 81

The regulation of hepatic glucose production by glucagon and insulin has been studied in the intact dog. An attempt has been made to evaluate the role of basal physiological concentrations of the hormones in the regulation of glycogenolysis and gluconeogenesis. Somatostatin was infused continuously into postabsorptive dogs to inhibit the secretion of both glucagon and insulin. Either or both hormones were then replaced intraportally by continuous infusion as desired. The main observations were as follows. (1) When both hormones were simultaneously replaced for periods up to 4.5h, plasma insulin and glucagon concentrations, total glucose output (glycogenolysis plus gluconeogenesis), glucose utilization and the plasma glucose concentration closely matched the same parameters in 0.9% NaCl-infused controls. (2) When glucagon alone was infused, thereby creating a selective insulin deficiency, glucose output (primarily glycogenolysis) rapidly increased by as much as threefold. Glycogenolytic glucose production then fell off progressively and returned to the control value within 4h. The gluconeogenic conversion of [14C]alanine and [14C]lactate into [14C]glucose was stimulated markedly and increased progressively throughout the test period. Glucagon therefore converted the liver from an organ largely dependent on glycogenolysis for glucose production to one heavily dependent on gluconeogenesis. The potent inhibitory effect of basal insulin on postabsorptive glucose output was also clearly apparent. (3) When insulin alone was infused, thereby creating a selective glucagon deficiency, glucose output (glycogenolysis) fell abruptly by about 30% and remained decreased. Gluconeogenesis also decreased (20%) after the selective removal of both insulin and glucagon, but it only remained suppressed for 1h. The low glucose output led to a modest fall in the blood glucose concentration. Thus glucagon plays an important role in maintaining basal glucose production. (4) When insulin was infused and the plasma glucose was kept at its control concentration by infusion of glucose in similar experiments to the above, the hepatic output of glucose fell by as much as 75%. This demonstrates the presence of a glucagon-independent metabolic reflex triggered by a low plasma glucose concentration, the purpose of which is to maintain glucose output at a rate capable of preventing castastrophic hypoglycaemia.
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PMID:Control of hepatic glucose output by glucagon and insulin in the intact dog. 37 68

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


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