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

All five urea cycle enzymes of rat liver increased in activity 48 h after subcutaneous administration of crystalline zinc glucagon to male rats and remained elevated after 7 days of continuous glucagon infusion. The maximum ratios of enzyme activities over those of controls were 2.0 for carbamyl phosphate synthetase, 1.3 for ornithine transcarbamylase, 2.7 for argininosuccinate synthetase, 3.2 for argininosuccinase, and 2.2 for arginase. Actinomycin D or puromycin prevented these responses to glucagon. The increase in arginase activity after zinc glucagon treatment was matched by an increase in immunoprecipitable enzyme. All five enzymes were induced by physiological plasma levels of glucagon. Tube feeding of casein hydrolysate for 2 days increased all five enzyme activities 1.5- to 2.2-fold and resulted in plasma glucagon levels similar to those required for induction by exogenous glucagon. Thus, glucagon is an inducer of the entire urea cycle in rat liver and plays a role in the induction of the cycle by protein feeding.
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PMID:Induction of urea cycle enzymes of rat liver by glucagon. 63 99

The effect on free plasma amino acids before and after infusion of 1 mg glucagon was studied at rest after an overnight fast in seven patients with compensated liver cirrhosis and in seven healthy controls. Total aminoacidaemia in cirrhotic patients is significantly higher than in controls. Elevated basal levels in cirrhotics are found particularly in tyrosine, citrulline, tryptophane, threonine, phenylalanine, and methionine whereas ornithine and serine levels are decreased. Save for the redox couple cystine-cysteine which increases, glucagon elicits an decrease in most amino acids that is proportionate to their initial level. Total aminoacidaemia decreases in controls and cirrhotics by 14.6 and 9.1 per cent respectively. Serum ammonia level rises significantly in both groups, urea increases only in controls, uricaemia remains virtually unchanged.
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PMID:The effect of glucagon on free plasma amino acids in cirrhotics and healthy controls. 63 37

Pancreatitis was induced in 11 miniature pigs by infusing a bile salt-trypsin solution into the pancreatic duct. Seven animals served as sham-operated controls. Serum ionized calcium, total calcium, albumin, total protein, inorganic phosphorus, urea nitrogen, magnesium, insulin, glucagon, and hematocrit were determined every six to 12 h over a period of one week in both test and control animals. We observed significant decreases in ionized and total calcium, modest decreases in albumin, and significant increases in the inorganic phosphorus, urea nitrogen, and hematocrit in the pancreatitic pigs. The latter two findings were consistent with early acute hypovolemia. Glucagon and insulin appeared to play no role in the hypocalcemia. Glucagon concentrations increased to the same degree in both test and control animals, probably as a result of the stress of being handled and operated on. The highest concentrations of inorganic phosphorus and the lowest concentrations of both ionized and total calcium were seen 18 h after the induction of pancreatitis in the test animals. These findings suggest that parathyrin (parathormone) was not being secreted in adequate amounts, or that the target organs were unresponsive to parathyrin.
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PMID:Biochemical changes in a porcine model of acute pancreatitis. 65 76

Blood substrate and hormone concentration were determined in 16 children with Reye syndrome prior to and following administration of hypertonic glucose. Baseline concentrations of lactate, pyruvate, alanine, glutamine, glutamate, proline, hydroxyproline, lysine, and aspartate were elevated (p less than 0.01), whereas citrulline and arginine were low. All substrate concentrations were below or within the normal range following 36 hours of therapy except those of lactate, pyruvate, and aspartate. Urea nitrogen excretion was reduced (p less than 0.05) on the second day of therapy. Plasma concentrations of insulin and growth hormone increased and glucagon decreased during the first day. Cortisol remained elevated throughout the study period. We conclude that the high circulating concentrations of substrates are the result of both increased mobilization and decreased clearance and that hypertonic glucose infusion suppresses substrate mobilization. A primary abnormality of the mitochondria could explain the metabolic perturbations that occurred. A possible relationship between the encephalopathy in this disorder and an insult to both brain and brain capillary mitochondria is discussed.
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PMID:Metabolic response to hypertonic glucose administration in Reye syndrome. 66 61

The role of glucagon in diabetes was studied in four patients with juvenile-type diabetes during continuous insulin infusion and a diet containing 150 g per day of carbohydrate. During insulin alone, plasma glucagon, measured at two-hour intervals, averaged 182 +/- 34 pg per milliliter, glucose 269 +/- 11 mg per deciliter, glucose excretion 52 +/- 8 g per 24 hours, ketone excretion 1.3 +/- 0.3 mmol per 24 hours, and urea nitrogen 12 +/- 2 g per 24 hours (mean +/- S.E.M.). Somatostatin (2 mg per day) lowered glucagon to 60 +/- 13 pg per milliliter, glucose to 111 +/- 17 mg per deciliter, glucose excretion to 1 +/- 0.7 g per 24 hours, ketone excretion to 0.5 +/- 0.2 mmol per 24 hours and urea nitrogen excretion to 8 +/- 2 g per 24 hours. Replacement of glucagon raised glucagon to 272 +/- 30 pg per milliliter, glucose to 202 +/- 20 mg per deciliter, glucose excretion to 14 +/- 7 g per 24 hours, ketone excretion to 0.8 mmol per 24 hours and urea nitrogen excretion to 11 +/- 2 g per 24 hours. In a subsequent study, similar improvement occurred on a diet of 30 g of carbohydrate daily, when absorption of dietary glucose was negligible. Hyperglucagonemia has an important role in diabetes; its correction reduces diabetic abnormalities to or toward normal.
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PMID:Hyperglucagonemia and its suppression. Importance in the metabolic control of diabetes. 68 75

Adenylosuccinase activity of rat liver is depressed by prolonged starvation, cortisol administration, high protein diets, and alloxan diabetes. The loss of activity is not due to the accumulation of a dissociable inhibitor or loss of a cofactor. Starvation produces no loss in activity for 1 day; thereafter the activities of the liver and spleen enzyme decay with a half-life of about 0.9 day. Starvation produces no change in the activity of the kidney, brain, and skeletal muscle enzyme. Refeeding restores the activity of the liver enzyme to the fed level, with only a slight overshoot. The recovery of adenylosuccinase activity is equally rapid after refeeding a balanced diet, or corn oil, or glucose, and is not inhibited by injection of glucagon, in contrast to malic enzyme activity. Recovery is inhibited by cycloheximide, indicating the involvement of protein synthesis. Althouth adenylosuccinase is depressed in liver of starving rat it is elevated in liver of starving chicken. Starvation depresses malic enzyme activity and elevates alanine aminotransferase activity in both species. When rats are starved, the rate of de novo synthesis of adenine mononucleotide decreases in spleen and liver but not in kidney, suggesting a regulatory role for adenylosuccinase in purine biosynthesis. The low activity of adenylosuccinase in liver of severely starved rats is inconsistent with the proposal (Moss, K. M., and McGivan, J.D. (1975) Biochem. J. 150, 275-283) that the purine nucleotide cycle plays a major role in ammonia production for urea synthesis, at least under these conditions.
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PMID:Effect of diet on adenylosuccinase activity in various organs of rat and chicken. 69 Jan 30

Previous findings that 2.5 mM quinolinic acid inhibits gluconeogenesis more strongly from alanine than from lactate have been confirmed. 15 mM quinolinic acid completely inhibited gluconeogenesis from lactate as well as from alanine whereas the formation of glucose from fructose and the production of urea from ammonia and lactose were not affected. The pattern of the gluconeogenic intermediates was the same in the presence of 15 mM quinolinic acid as with 2.5 mM of the inhibitor. It is concluded that high as well as low concentrations of quinolinic acid inhibit gluconeogenesis at the step between oxaloacetate and phosphoenolpyruvate. Furthermore, 5-methoxyindole-2-carboxylic acid, an inhibitor of mitochondrial pyruvate metabolism, also completely blocked gluconeogenesis from lactate whereas glycerol conversion to glucose was only weakly inhibited. All these results do not support the concept of an alternate pathway of gluconeogenesis from lactate proposed by others. 2.5 mM quinolinic acid also partially blocked the formation of urea from alanine. It is suggested that quinolinic acid may have a second site of action causing an inhibition of the glutamate-pyruvate transamination owing to lack of 2-oxoglutarate in the cytosol. In the presence of quinolinic acid, glucagon caused about the same increase in aspartate and malate tissue levels in the absence of added substrates as in the presence of added lactate or alanine. Therefore, no additional effect of glucagon on gluconeogenesis from lactate or alanine prior to the block by quinolinic acid could be demonstrated.
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PMID:Effects of quinolinic acid and glucagon on gluconeogenesis in the perfused rat liver. 69 6

To evaluate the effect of physiologic hyperglucagonemia on nitrogen and glucose metabolism and on urinary electrolyte excretion, pancreatic glucagon was administered as a continuous 3-day infusion to three adult-onset non-insulin-dependent diabetics and two insulin-treated juvenile diabetics while on a constant dietary intake. The glucagon infusion resulted in increases in plasma glucagon which were 4-6 fold greater than control values. Despite prolonged hyperglucagonemia, urinary glucose excretion was unchanged. Similarly, urinary urea nitrogen and total nitrogen excretion were not altered by glucagon administration. Urinary sodium tended to rise, albeit not significantly (p less than .01), on the first infusion day, but later declined to control values despite increasing plasma glucagon concentrations. Urinary chloride, potassium, calcium, phosphorus excretion remained unchanged. We conclude that continuous physiologic increments in plasma glucagon do not enhance glycosuria or increase protein catabolism and ureagenesis in diabetes when insulin is available. The augmented protein catabolism and glucogenesis that accompany diabetic ketoacidosis cannot be explained primarily on the basis of hyperglucagonemia.
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PMID:Influence of physiologic hyperglucagonemia on urinary glucose, nitrogen, and electrolyte excretion in diabetes. 83 43

The alpha-ketoanalogues of the branched-chain amino acids were administered to fasting subjects to determine whether or not they promoted nitrogen sparing. Two fasting studies were carried out in each subject. During the first week of one of the two fasts 4.7 g of a mixture of the alpha-ketoanalogues of valine, leucine, and isoleucine were infused daily. No infusions were administered during the other fast, which served as a control. Urinary urea and calculated total urinary nitrogen were significantly lower during both the week of infusions and the ensuing week of fasting after the infusions were discontinued. Immediately after ketoacid infusions, plasma branched-chain amino acids, including allosioleucine, rose, while alanine and several other amino acids (but not glutamine) fell. There were no differences between the two fasts with respect to ketone bodies, free fatty acids, glucose, insulin, or glucagon concentrations. We conclude that branched-chain ketoacids spare nitrogen early in fasting and that this effect persists after they are metabolized.
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PMID:Nitrogen sparing induced early in starvation by infusion of branched-chain ketoacids. 83 56

Viable pancreatic islets were isolated from the pancreas of humans using modifications of the collagenase digestion and Ficoll gradient techniques. Gel filtration of tissue extracts following islet incubation in the presence of 3H- tryptophan indicated that radioactivity becomes incorporated into at least two islet proteins. The larger of the two (LGI) has the approximate molecular size of proinsuiln and the smaller coelutes with glucagon as determined by column standardization. Radioimmunoassay of the gel filtration eluate for glucagon revealed that both molecules have glucagon immunoreactivity. Gel filtration in the presence of 8M urea did not alter the elution pattern of the LGI molecule. Polyacrylamide gel electrophoresis was performed on these glucagon immunoreactive molecules. The 3H radioactivity and the glucagon immunoreactivity of the smaller molecule were found to co-migrate electrophoretically with crystalline porcine glucagon and monodesamidoglucagon. With electrophoresis at high pH the electrophoretic mobility of the LGI molecule proved to be lower than that of glucagon. Partial tryptic degradation of the human LGI molecule yields 3H-tryptophan labeled products having charge and immunologic characteristics indistinguishable from porcine glucagon and monodesamidoglucagon. Although further investigation is indicatend may thus serve as a precursor or an intermediate in human glucagon biosynthesis.
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PMID:Glucagon biosynthesis in human pancreatic islets: preliminary evidence for a biosynthetic intermediate. 109 15


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