UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seven patients with clinical alcoholic hypoglycemia showed suppressed pretreatment plasma insulin levels and raised concentrations of somatotropin, hydrocortisone and pancreatic glucagon. A prolonged intravenous glucose infusion failed to elicit adequate insulin output and marked hyperglycemia supervened.
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PMID:Hormonal responses in ethanol-induced hypoglycemia. 23 77

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

Serotonin (5HT) (5 mg/kg-25 mg/kg; i.p.) induced a dose-related increase of plasma glucagon (IRG) (using 30K antibody) 3 to 60 min after administration to overnight fasted rats. Blood glucose (BS) also increased as early as 10 min post-injection whereas plasma insulin (IRI) increased in a non dose-related (30 min to onset) manner. Adreno-demedullation prevented the rise of BS and IRI, but not IRG. Pretreatment with reserpine (5 mg/kg; i.p.; 24 hr earlier) did not prevent the actions of 5HT. Pretreatment with the alpha-adrenergic antagonist phentolamine (3 mg/kg-6 mg/kg; i.p.) reduced but did not prevent the subsequent rise of IRG, whereas beta-adrenergic blockade with propranolol (5 mg/kg-10 mg/kg; i.p.) was without effect. Phentolamine and the lower dose of propranolol (5 mg/kg) reduced the 5HT-induced hyperglycemia; whereas the higher dose (10 mg/kg) prevented the hyperglycemia. Phentolamine potentiated and propranolol prevented (5 mg/kg) or reversed (10 mg/kg) the 5HT-induced IRI rise. Pretreatment with the 5HT-antagonist, methysergide, prevented all the effects of 5HT. Precursor loading with 5HTP (5 mg/kg-50 mg/kg; i.p.) also resulted in a dose-related increase of IRG and a slight increase of IRI. Blockade of the conversion of 5HTP to 5HT with Ro-4-4602 (an L-aromatic acid decarboxylase inhibitor) blocked the subsequent rise of IRG. These results suggest that the 5HT-induced changes in BS and IRI may be secondary to a release of epinephrine and/or norepinephrine, but that the effects of 5HT on the release of IRG cannot be explained solely by this mechanism.
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PMID:The acute pharmacologic effects of serotonin on the release of insulin and glucagon in the intact rat. 31 Jun 65

1. Six weeks after the injection of streptozotocin at 125 mg/kg i.p. in the AV line nondiabetic Chinese hamsters, the animals showed hyperglycemia, increased kidney, pancreas and stomach weights and stomach glucagon contents and depletion of insulin and glucagon in the pancreas. 2. Plasma beta-D-galactosidase and N-acetyl-beta-D-glucosaminidase were elevated; whereas alpha-D-glucosidase was decreased and alpha-D-galactosidase remained unchanged in the plasma. 3. In the kidney, streptozotocin-diabetes led to depression of alpha-D-mannosidase, beta-D-fucosidase and N-acetyl-beta-D-glucosaminidase activities in both 12,000 g supernatant and precipitate fractions, decreases in alpha-D-glucosidase in the supernatant only and no change in alpha-L-fucosidase, alpha-D-galactosidase, beta-D-galactosidase and beta-D-glucuronidase. 4. In the liver, significant increases in N-acetyl-beta-D-glucosaminidase, alpha-D-galactosidase, beta-D-galactosidase, beta-D-fucosidase, beta-D-glucosidase and alpha-D-mannosidase were found in either the supernatant or the precipitate fraction of the diabetic animals. The data indicate diabetes-dependent tissue-specific changes in glycohydrolases in the Chinese hamster.
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PMID:Alterations in glycohydrolase activities in streptozotocin-diabetic Chinese hamsters (Cricetulus griseus). 31 16

A new, spontaneously diabetic syndrome has been recognized in nonobese outbred Wistar rats of both sexes. The age at detection of first glycosuria has varied from 48 to 120 days, with a mean of 67 days. Eighteen rats have been studied, 14 untreated and four during and after cessation of insulin treatment. The affected animals have demonstrated a spectrum of severity, with hyperglycemia (252-732 mg./dl.), hypoinsulinemia (0-1 ng./ml.), and hyperketonemia. The severely ketotic rats, with total blood ketone body levels between 6 and 13 mM, showed rapid loss in weight and dehydration over one to six days. The moderately ketotic (1-5 mM) declined gradually in weight over 15 days, with marked polyuria and glycosuria. The stable rats, with ketonemia less than 1 mM, sustained their weights, polyuria, and glycosuria for longer than 40 days. A relative or absolute increase in plasma immunoreactive glucagon and elevated levels of free fatty acids and branched-chain amino acids were observed in relation to the severity of the syndrome. Intraperitoneal arginine or tolbutamide elicited no insulin response, but the glucagon response to arginine was exaggerated. Pancreatic insulin content was normal or moderately decreased. Light-microscopic examination of pancreases of ketotic animals at the end stage of the disease showed islets to be very small and rare, consisting virtually of non-beta cells. In stable and earlier ketotic rats, the islets were small, with reduction in beta-cell number and a striking inflammatory cell infiltration. Surviving beta cells showed variable degranulation. This model of spontaneous diabetes in nonobese rats displays insulin deficiency, glucagon excess, and ketosis, with a dramatic inflammatory lesion during active beta-cell destruction.
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PMID:The spontaneously diabetic Wistar rat. Metabolic and morphologic studies. 32 72

We studied the pancreatic and enteric hormone profile of a 46-year-old woman who had hyperglycemia and a pancreatic tumor. Before operation, there was no evidence of overproduction of glucagon or insulin. The tumor's ultrastructure had a distinctive endocrine morphology, resembling D cells. Prompted by the recent demonstration of somatostatin in D cells of pancreatic islets, we analyzed the tumor and found a large quantity of immunoreactive somatostatin (301 ng per milligram of tissue). Insulin, glucagon, gastrin, vasoactive intestinal polypeptide and human pancreatic polypeptide were present in only trace quantities. The tumor cells were cultured in monolayers, which remained viable up to 51 days and released somatostatin into the culture medium. In seven insulinomas and two glucagonomas, we found the somatostatin content either much lower (less than 0.6 ng per milligram of tissue) or undetectable. After complete resection of the tumor, our patient became euglycemic and has remained so for the past 20 months.
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PMID:"Somatostatinoma": a somatostatin-containing tumor of the endocrine pancreas. 32 60

Insulin and glucagon secretions were studied during oral glucose tolerance testing and arginine infusion in 13 patients with cystic fibrosis. Two groups of patients were identified; Group I (N=6) whose OGTT was entirely normal and Group II (N=7) who had some abnormality in glucose during OGTT. In each group basal glucagon concentrations were normal and supressed appropriately (p less than 0.05) after glucose; insulin responses were attenuated and the peak responses delayed. During arginine stimulation, insulin secretion was impaired in each group. However, glucagon secretion was diminished only in Group II. Thus, insulinopenia was found in both groups and hyperglucagonemia was not found as a contributory factor to the hyperglycemia in Group II.
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PMID:Pancreatic alpha and beta cell functions in cystic fibrosis. 32 39

Somatostatin, a peptide inhibitor of growth hormone release originally isolated from the hypothalamus, is also present in D cells of pancreatic islets. Its ability to inhibit the secretion of insulin and glucagon suggests that it may be a local regulator of pancreatic A- and B-cell function. Studies using synthetic somatostatin have provided evidence that glucagon is a physiologically important hormone that exacerbates the consequences of insulin deficiency in human diabetes mellitus. The ability of somatostatin to diminish both fasting and post-prandial hyperglycemia and to forestall the development of ketoacidosis after withdrawal of insulin in insulin-dependent diabetics suggests a potential therapeutic use of this agent in diabetes. Presently, however, its short half-life and diverse actions preclude such use and have prompted the search for more specific and longer-acting analogs.
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PMID:Somatostatin. Its possible role in carbohydrate homeostasis and the treatment of diabetes mellitus. 32 23

To investigate the role of glucagon and insulin receptor binding in the glucagon hypersensitivity and insulin resistance which characterize the glucose intolerance of uremia, liver plasma membranes were prepared from control rats (blood urea nitrogen [BUN] 15+/-1 mg/100 ml, creatinine 0.7+/-0.2 mg/100 ml), and from 70% nephrectomized rats (BUN 30+/-2 mg/100 ml, creatinine 2.2+/-0.2 mg/100 ml), and from 90% nephrectomized rats (BUN 46+/-3 mg/100 ml, creatinine 4.20+/-0.7 mg/100 ml), 4 wk after surgery. As compared to controls, the 90% nephrectomized rats had significantly higher levels of plasma glucose (95+/-4 vs. 125+/-11 mg/100 ml), plasma insulin (28+/-9 vs. 52+/-11 muU/ml), and plasma glucagon (28+/-5 vs. 215+/-18 pg/ml). Similar, but less marked, elevations were observed in the 70% nephrectomized animals. In liver plasma membranes from nephrectomized rats, specific binding of (125)I-glucagon was increased by 80-120%. Furthermore, glucagon (2 muM)-stimulated adenylate cyclase activity in nephrectomized rats was twofold higher than in controls. In contrast, fluoridestimulated adenylate cyclase activity was similar in both groups of rats. In marked contrast to glucagon binding, specific binding of (125)I-insulin to liver membranes from nephrectomized rats was reduced by 40-50% as compared to controls. Data analysis suggested that the changes in both glucagon and insulin binding are a consequence of alterations in binding capacity rather than changes in affinity. Liver plasma membranes from nephrectomized rats degraded (125)I-glucagon and (125)I-insulin to the same extent as control rats. THESE RESULTS DEMONSTRATE THAT: (a) the 70 and 90% nephrectomized rats simulate the hyperglycemia, hyperinsulinemia, and hyperglucagonemia observed in clinical uremia; (b) in these animals specific binding of glucagon to liver membranes is increased and is accompanied by higher glucagon-stimulated adenylate cyclase activity; and (c) specific binding of insulin is markedly decreased. These findings thus provide evidence of oppositely directed, simultaneous changes in glucagon and insulin receptor binding in partially nephrectomized rats. Such changes may account for the hypersensitivity to glucagon and may contribute to resistance to insulin observed in the glucose intolerance of uremia.
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PMID:Glucagon and insulin binding to liver membranes in a partially nephrectomized uremic rat model. 700 82

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