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)

Somatostatin (SRIF) has been tested for its actions on the central nervous system to affect glucoregulation. In doses ineffective when given systemically , SRIF and SRIF analogs given intracisternally (ic) reduce hyperglycemia and hyperglucagonemia after ic bombesin administration. The SRIF analog, des-AA1, 2, 4, 5, 12, 13-[D-Trp8]SRIF, decreases plasma insulin and elevates plasma glucose and glucagon when given systemically. However, when given ic, this peptide prevents the rise in glucose and glucagon after ic bombesin administration and is 10 times more potent than SRIF in reducing bombesin-induced hyperglycemia. Other analogs of SRIF and various unrelated peptides were found to be ineffective in reducing bombesin-induced hyperglycemia. des-AA1, 2, 4, 5, 12, 13-[D-Trp]SRIF prevented the hyperglycemia induced by surgical stress or by ic administration of beta-endorphin or carbacol. des-AA1, 2, 4, 5, 12, 13-[D-Trp]SRIF given ic did not prevent hyperglycemia induced by systemic administration of epinephrine, arginine, or glucagon. These studies suggest that SRIF and its analogs may act within the brain to affect glucoregulation.
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PMID:Somatostatin: central nervous system actions on glucoregulation. 44 91

The effects of somatostatin and a long acting, glucagon selective somatostatin analog (des-Ala1Gly2[His4,5-D-TrP8]-somatostatin) used studied during arginine tolerance tests in normal anaesthetized rats. Arginine infusion in control animals resulted in a rapid increase in plasma insulin and glucagon, and an increase of 15 +/- 5 mg/dl in plasma glucose. Somatostatin infusion (1 mg/kg/h) resulted in suppression of basal insulin secretion and a decrease in arginine-induced insulin and glucagon release. Glucose levels increased rapidly during the combined arginine-somatostatin infusion reaching a peak of 72 +/- 10 mg/dl above basal levels. Similar results were obtained when somatostatin was injected SC (1 mg/kg) at times 0, 15, 30, and 45 minutes (arginine infused from 30-60 minutes). A single injection (1 mg/kg) of the long-acting somatostatin analogue resulted in significant inhibition of basal insulin and glucagon release; during arginine infusion glucagon levels rose only slightly, the insulin response was, however, nearly normal, and only a small arginine-induced increase in glucose levels was observed. Carbohydrate absorption was not influenced by either somatostatin or the analogue.
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PMID:Effect of a long acting glucagon selective somatostatin analogue on plasma glucose, insulin and glucagon levels in the anaesthetized rat during arginine infusion. 46 54

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

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

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

Intraventricular injection of arginine-8-vasopressin and its analogues vasotocin and lysine-8-vasopressin into rat brain evoked a special rotational behavior resembling somatostatin-induced barrel rotation [1]. Oxytocin and oxypressin were less active while vasopressin fragments had no effect. Vasopressin-induced barrel rotation was accompanied by pathological symptoms indicating a disturbance of muscle tone regulation and is considered to be a non-specific and toxic effect. This rotational behavior was not prevented by atropine, propranolol, phentolamine, methylsergide or haloperidol but was reduced by chlorpromazine, probably due to the latter's muscle relaxing activity.
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PMID:Barrel rotation induced by vasopressin and related peptides in rats. 56 83

Depancreatized dogs have plasma immunoreactive glucagon (IRG), which is of gastric origin and is immunologically indistinguishable from pancreatic glucagon. The effects of extrapancreatic IRG on the tracer-determined rate of glucose production were examined to establish whether this hormone contributes to the hyperglycemia observed in six conscious, depancreatized dogs after insulin withdrawal. The dogs were initially maintained normoglycemic with an intraportal insulin infusion. Insulin withdrawal resulted in a 53 and 70% decrease of serum immunoreactive insulin (IRI) at 60 and 210 min, respectively. At 60 min, plasma glucose rose and Ra increased by 50%. A somatostatin-induced decrease in IRG prevented a further increase in Ra and glucose; after somatostatin withdrawal, IRG, Ra, and plasma glucose increased. Arginine given 1 or 3 h after insulin withdrawal increased IRG by 100 pg/ml, and mean Ra rose by 8.9 mg/kg-min. Thus, in depancreatized dogs with low but detectable serum IRI, IRG suppression is associated with inhibition of Ra and further rise in plasma glucose is prevented. Stimulation of IRG release increases Ra and results in marked hyperglycemia. It is concluded that extrapancreatic glucagon has a diabetogenic effect during acute insulin defiency.
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PMID:Extrapancreatic glucagon in control of glucose turnover in depancreatized dogs. 62 97

The glucose response to arginine infusion in normal rats was studied during insulin and glucagon deficiency (somatostatin infusion, 1 mg/kg/hr) or selective glucagon deficiency ([D-Cys14]-somatostain infusion, 1 mg/kg/hr). In control studies, plasma glucose levels rose 14 mg/dl in response to arginine and returned to basal levels at the termination of the infusion. Insulin levels increased 136 +/- 12 muU/ml and glucagon increased 76 +/- 12 pg/ml during the infusion. Infusion of somatostatin resulted in supression of both arginine-induced insulin and arginine-induced glucagon release, and marked hyperglycemia ensued. The administration of [D-Cys14]-somatostatin during arginine infusion produced no associated hyperglycemia. It resulted in suppression of glucagon secretion and a modest rise in insulin release. These results demonstrate that the hyperglycemic effects of somatostatin in arginine-treated animals do not arise in animals treated with glucagon-specific somatostatin analogs.
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PMID:Effect of somatostatin and a glucagon-specific analog on glucose homeostasis during arginine infusion. 68 72

In a group of pancreatectomized subjects, immunoreactive glucagon (IRG) concentrations were normal after an overnight fast, increased after oral glucose, were not suppressed by somatostatin (SRIF) or insulin, and in two of four subjects they rose with an arginine infusion. Even though the SRIF infusion failed to lower IRG, there was a fall in plasma glucose concentration in both subjects. In two subjects, endogenous hyperglycemia occurred during insulin withdrawal without a rise in IRG, and, in one subject, mild diabetic ketoacidosis developed with only a minimal rise in IRG. These results support the presence of an extrapancreatic source of IRG in man. Secretion from these extrapancreatic alpha cells appears to be regulated differently than secretion from pancreatic alpha cells.
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PMID:Immunoreactive glucagon responses to oral glucose, insulin infusion and deprivation, and somatostatin in pancreatectomized man. 70 Feb 56

The effect of haloperidol, a dopaminergic antagonist, on insulin and glucagon secretion was investigated using the isolated, perfused canine pancreas. Haloperidol at 4 X 10(-7) to 10(-5) mol/l caused a dose-dependent inhibition of glucagon release both at low (25 mg/100 ml) and high glucose concentrations (150 mg/100 ml). At the low glucose concentration insulin release was already maximally suppressed. At the high glucose concentration haloperidol (4 X 10(-7) to 10(-5) mol/1) also caused a dose-dependent inhibition of insulin release. Haloperidol (10(-5) mol/1) inhibited dramatically pancreatic A and B cell responses to isoproterenol (2 ng/ml), acetylcholine (1 mumol/1) and arginine (5 mmol/1). The inhibitory effect of haloperidol on both glucagon and insulin release could be eliminated by increasing perfusate calcium concentration from 1.3 to 8.8 mmol/1. These findings suggested that haloperidol blocks glucagon and insulin release in a somatostatin-like manner by affecting a fundamental step of the stimulus-secretion coupling, probably by interfering with calcium handling of the pancreatic A and B cells.
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PMID:Haloperidol, a dopaminergic antagonist: somatostatin-like inhibition of glucagon and insulin release from the isolated, perfused canine pancreas. 71 Jul 56

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