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)

The blood levels of amino acids, ammonia and pancreatic hormones following the intragastric and intravenous administration of a branched-chain amino acid (BCAA)-enriched solution were comparatively investigated in control subjects and patients with liver cirrhosis. There was no essential difference in the time course of serum amino acid and blood ammonia levels between the intragastric and intravenous infusions. Elevation of serum insulin concentrations in cirrhotic patients was significant only immediately after the administration through the enteral route. However, plasma glucagon levels increased similarly when the BCAA-enriched solution was administered through either route. The results indicate that both enteral and intravenous infusions will have similar therapeutic effects on the impaired protein metabolism in cirrhotic patients with protein-calorie malnutrition.
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PMID:Comparative study of amino acid, ammonia and pancreatic hormone levels in the blood of cirrhotic patients following intragastric and intravenous administration of a branched-chain amino acid-enriched solution. 641 80

Ten undernourished patients receiving total parenteral nutrition and undergoing major intestinal surgery were restarted on intravenous feeds identical to their pre-operative regimens within 24 h of their operation. Five, chosen at random, received post-operatively 1-2 units insulin/kg body weight/24 h with their feed, while the other five received the feed only. Pre-operatively, and 2 h after commencing their post-operative feeds, rates of whole-body protein synthesis and breakdown were measured over a 9-h period following intravenous injection of a single tracer dose of 15N-glycine by the ammonia and urea end-product methods. During these 9-h study periods measurements were also made of blood glucose, plasma insulin and glucagon, urinary ammonia, nitrogen, creatinine and 3-methylhistidine. Blood glucose and plasma insulin and glucagon concentrations rose post-operatively whether or not insulin was given, but the increment in insulin concentration was significantly greater when insulin was given. Apparent nitrogen balance was positive pre-operatively and became less so post-operatively whether insulin was given or not. Similarly, post-operative increments in urinary excretion of ammonia, creatinine and 3-methylhistidine were not altered by addition of insulin. Protein turnover, as estimated by the ammonia end-product method, tended to rise post-operatively, but there was no significant difference between the increases observed with or without insulin. The urea end-product method suggested that there was no change in whole-body protein turnover after surgery, whether or not insulin was given. This study does not support the clinical use of insulin as a means of modifying protein metabolic losses after major surgery.
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PMID:The effect of surgical trauma and insulin on whole-body protein turnover in parenterally-fed undernourished patients. 642 Mar 74

In order to investigate the controverted effect of ammonia on insulin and glucagon secretion 3 groups of 55 rats were perfused either by Na+ acetate (controls), either by NH4+ acetate: in the first group plasma insulin (IRI) and glucagon (IRG) levels were compared before and after perfusion; the second group was supplemented by glucose perfusion (1 g/100 g/hour); in the last group an arginine perfusion (1 g/kg/min) was started 15 min after the beginning of NH4+ or Na acetate and IRI and IRG levels were determined in the portal blood. Hyperammonemia, which reached about 500 microgram/dl, reduced significantly the IRI portal level and the IRI secretion induced by glucose or arginine, whereas basal or stimulated IRG levels are not modified. The ratio IRI:IRG is diminished in each group perfused with NH4+ acetate. Our results show that ammonia inhibits insulin without modifications in the glucagon secretion; hyperglucagonemia and hyperinsulinism reported in hepatic encephalopathy with chronic hyperammonemia may not be attributed to an effect of ammonia.
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PMID:[Effects of experimental hyperammonemia on the secretion of insulin and glucagon in the rat]. 644 64

Investigations were made on the effects of catecholamine (Cat) infusions with and without ammonia (NH3) on plasma and brain amino acids (AA) and brain neurotransmitters in dogs. Groups of four dogs were infused for 5 h with epinephrine (E), epinephrine + norepinephrine (E + NE), epinephrine + norepinephrine with NH3 during h 4 and 5 (E + NE + NH3), epinephrine + norepinephrine + tryptophan with NH3 during h 4 and 5 (T + E + NE + NH3), or saline (C). Cat decreased (P less than 0.05) plasma Gly, Thr, Lys, Pro, Val, Ser, Arg, Leu, Trp, Phe, Asn, Tyr, Met, Ile, Cit, and Asp. The decreases at h 3 for all were to a mean of 45% of 0 h and were associated with no changes in plasma insulin or glucagon. Cat increased plasma Tau and Orn. Of the most abundant brain AA (82% of total), E + NE + NH3 had no effect (GABA, Asp, Gly, Ala, p-ethanolamine) or increased (Glu, Gln, Tau) brain levels. These AA were unchanged by Cat alone. Of the remaining brain AA, most were decreased by Cat (7 of 16, P less than 0.05) and E + NE + NH3 increased brain Trp but had no effect on brain serotonin, 5-hydroxyindoleacetic acid, or NE. Cat changed plasma AA in a way similar to changes produced by NH3 infusion and seen with hepatic insufficiency due to portacaval shunts and nitrosamine-induced pathology. Cat reduced brain AA levels, and this was partially restored by NH3.
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PMID:Effects of catecholamines and ammonia on plasma and brain amino acids in dogs. 646 11

Patients with major injury or illness develop protein wasting, hypermetabolism, and hyperglycemia with increased glucose flux. To assess the role of elevated counterregulatory hormones in this response, we simultaneously infused cortisol (6 mg/m2 per h), glucagon (4 ng/kg per min), epinephrine (0.6 microgram/m2 per min), and norepinephrine (0.8 micrograms/m2 per min) for 72 h into five obese subjects receiving only intravenous glucose (150 g/d). Four obese subjects received cortisol alone under identical conditions. Combined infusion maintained plasma hormone elevations typical of severe stress for 3 d. This caused a sustained increase in plasma glucose (60-80%), glucose production (100%), and total glucose flux (40%), despite persistent hyperinsulinemia. In contrast, resting metabolic rate changed little (9% rise, P = NS). Urinary nitrogen excretion promptly doubled and remained increased by approximately 4 g/d, reflecting increased excretion of urea and ammonia. Virtually all plasma amino acids declined. The increment in nitrogen excretion was similar in three additional combined infusion studies performed in 3-d fasted subjects not receiving glucose. Cortisol alone produced a smaller glycemic response (20-25%), an initially smaller insulin response, and a delayed rise in nitrogen excretion. By day 3, however, daily nitrogen excretion was equal to the combined group as was the elevation in plasma insulin. Most plasma amino acids rose rather than fell. In both infusion protocols nitrogen wasting was accompanied by only modest increments in 3-methylhistidine excretion (approximately 20-30%) and no significant change in leucine flux. We conclude: (a) Prolonged elevations of multiple stress hormones cause persistent hyperglycemia, increased glucose turnover, and increased nitrogen loss; (b) The sustained nitrogen loss is no greater than that produced by cortisol alone; (c) Glucagon, epinephrine, and norepinephrine transiently augment cortisol-induced nitrogen loss and persistently accentuate hyperglycemia; (d) Counterregulatory hormones contribute to, but are probably not the sole mediators of the massive nitrogen loss, muscle proteolysis, and hypermetabolism seen in some clinical settings of severe stress.
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PMID:Role of counterregulatory hormones in the catabolic response to stress. 651 25

Plasma amino acid patterns were determined before and after hemofiltration (HF) and hemodialysis (HD) in 6 patients with portal systemic encephalopathy (PSE) and compared with the plasma AA patterns of 16 patients with chronic renal failure (CRF) treated either by HF or HD. The branched-chain amino acids (BCAA) increased paradoxically in PSE patients during HF but not with HD. There were no differences in BCAA's with HF as compared to HD in the CRF patients. The amount of amino acids lost was the same with both treatment modalities and in both patient groups. Much of the amino acids lost were released from the intracellular space. The BCAA release was significantly higher in PSE patients during HF. No correlation was found between plasma insulin, glucagon, and cortisol levels and BCAA release. An inverse correlation was found between the amount of BCAA's released from the intracellular space and the plasma ammonia levels. It is suggested that a selective cellular transport mechanism for BCAA exists which is inhibited by high plasma ammonia levels in PSE.
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PMID:Increased plasma ammonia may inhibit cellular release of branched-chain amino acids in systemic portal encephalopathy. 658 71

A 26-year-old girl with muscle phosphorylase deficiency had exercise intolerance and experienced an occasional "second wind" phenomenon. Muscle glycogen concentration was about three times the normal level, whereas each glycolytic intermediate below the phosphorylase step was equivalent to only 10% of a normal level. Semi-ischemic forearm exercise tests disclosed no elevation of the venous lactate or pyruvate level, but they showed remarkable increases of serum creatine kinase and ammonia. Glucagon administration markedly augmented exercise tolerance. Forearm exercise after glucagon injection significantly increased venous lactate. Thus, the beneficial effect of glucagon is attributable to blood glucose utilization by muscle.
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PMID:Metabolic basis of improved exercise tolerance: muscle phosphorylase deficiency after glucagon administration. 659 2

Insulin and glucagon have variable effects in altering arteriovenous differences for amino acids and glucose in liver and muscle. It has not been determined whether these hormones may similarly affect intestine. Acute effects of intraarterial insulin and glucagon were evaluated in in situ, luminally cleansed ileal segments in anesthetized, fasted dogs. Insulin significantly increased th ileal uptake of valine, isoleucine, leucine, tyrosine, threonine, and serine from arterial blood: uptake of these amino acids was approximately doubled 45 min after the end of the insulin infusion. Insulin had no effect on glucose uptake or release. Glucagon decreased ileal glutamate release into mesenteric venous blood 45 min after the end of infusion but the uptake or release of other amino acids and ammonia was not changed. Glucagon did increase mesenteric blood flow acutely and caused a net release of glucose into mesenteric venous blood. The results indicate that insulin and glucagon directly after metabolism of the ileum in vivo.
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PMID:Effects of insulin and glucagon on the uptake of amino acids from arterial blood by canine ileum. 700 41

Ammonium salts were infused in intact, pancreatectomized, and adrenalectomized dogs to produce coma-inducing amounts of plasma ammonia. Changes in intact dogs included hyperglycemia, hyperglucagonemia, hyperinsulinemia, and decreases in plasma concentrations of glutamine, alanine, threonine, glycine, lysine, valine, proline, serine, arginine, leucine, isoleucine, and methionine. Urinary excretion of catecholamines increased more than 20-fold, whereas plasma hydrocortisone concentrations were essentially unchanged. In pancreatectomized dogs, ammonia infusions caused hyperglycemia, a mild hyperglucagonemia, and no changes in plasma amino acid concentrations, other than a decrease in alanine and an increase in taurine. In adrenalectomized dogs, ammonia infusion resulted in normoglycemia, hyperglucagonemia (comparable with that seen in intact dogs), hyperinsulinemia (2 to 3 times that seen in intact dogs), and decreased plasma concentrations of alanine, isoleucine, leucine, and valine. Finally, propranolol administration did not affect ammonia-induced glucagon and insulin release. The endocrine portion of the pancreas appears to mediate the major effects of ammonia on plasma amino acid values. The effect of ammonia in stimulating glucagon release may occur by an alpha-adrenergic pathway or by direct stimulation of pancreatic islet cells.
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PMID:Effects of ammonia infusion on plasma glucagon, insulin, and amino acids in intact, pancreatectomized, and adrenalectomized dogs. 702 May

The contribution of hyperammonemia to plasma amino acid imbalance in patients with liver disease was assessed in 10 subjects with chronic hepatitis and in 17 advanced cirrhotics. Insulin, glucagon, and plasma amino acids were determined both in the basal state and 45 min after oral ammonium chloride, at doses used in the ammonia-tolerance test. In cirrhotics, ammonia increased to 3 times basal values, in association with a rise in insulin and, more marked, in glucagon. Aromatic amino acids and free tryptophan further increased, while a significant fall in branched-chain amino acids and glutamate was observed. The increase in ammonia levels strongly correlated with the increase in glucagon (r = 0.707). Two patients, with large esophageal varices, showed signs of disturbed consciousness, in association with a marked rise in ammonia and in the ration of free tryptophan to the sum of neutral amino acids. In patients with chronic hepatitis, whose ammonia levels rose slightly, minor variations in pancreatic glucoregulatory hormones and plasma amino acids were observed, as also happened in 10 healthy subjects following ammonium chloride ingestion. Our data fit with the hypothesis that the plasma amino acid imbalance of cirrhotics may be partly due to ammonia-induced changes in pancreatic hormones.
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PMID:Ammonia-induced changes in pancreatic hormones and plasma amino acids in patients with liver cirrhosis. 704 53

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