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)

Sepsis is a major catabolic insult resulting in modifications in carbohydrate and fat energy metabolism, and leading to increased muscle breakdown and nitrogen loss. Insulin resistance, which develops in sepsis, decreases glucose utilization, but plasma insulin levels are sufficiently elevated to prevent lipolysis, resulting in a further energy deficit. The availability of fuels in sepsis is therefore limited, and the body resorts to muscle breakdown, gluconeogenesis, and amino acid oxidation for energy supply. Previous work has not defined, however, the exact alterations in amino acid metabolism. Therefore, the following studies were undertaken. Blood samples were drawn from fifteen patients in whom the diagnosis of sepsis was clinically established; the samples were analyzed for amino acid, beta-hydroxyphenylethanolamines, glucose, insulin and glucagon concentrations. The plasma amino acid pattern observed was characterized by an increase in total amino acid content, due mainly to high levels of the aromatic amino acids (phenylalanine and tyrosine) and the sulfur-containing amino acids (taurine, cystine and methionine). Alanine, aspartic acid, glutamic acid and proline were also elevated, but to a lesser degree. The branched chain amino acids (valine, leucine and isoleucine) were within normal limits, as were glycine, serine, threonine, lysine, histidine and tryptophan. Those patients who did not survive sepsis had higher levels of aromatic and sulfur-containing amino acids as compared to those patients surviving sepsis. On the other hand, those patients surviving sepsis had higher levels of alanine and the branched chain amino acids. In a second group of five patients with overwhelming sepsis accompanied by a state of metabolic encephalopathy, a parenteral nutrition solution consisting of 23% dextrose, and an amino acid formulation enriched with branched chain amino acids was administered. In these five patients, normalization of the plasma amino acid pattern and reversal of encephalopathy was observed. The following sequence of events may be postulated: The septic patient develops insulin resistance in the peripheral tissues, primarily muscle, while the adipose tissue is much less affected. The insulin resistance and the inability to utilize fat leads to increased muscle proteolysis. Muscle breakdown results in release into the blood of enormous amounts of various amino acids; the muscle itself is able to oxidize the branched chain amino acids, supplying the muscles' own energy requirements and alanine for gluconeogenesis. The extensive muscle proteolysis coupled with relative hepatic insufficiency occurring early in sepsis results in the appearance in the plasma of high levels of most of the amino acids present in muscle, particularly the aromatic and the sulfur-containing amino acids. The outcome of patients with sepsis might be positively affected by combined therapy with glucose, insulin and branched chain amino acids.
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PMID:Amino acid derangements in patients with sepsis: treatment with branched chain amino acid rich infusions. 9 98

1. The distribution of the hydrolyses of phosphatidylcholine by phospholipase A2 and phospholipase A1, and the hydrolysis of lysophosphatidylcholine by lysophospholipase, in subcellular and subsynaptosomal fractions of cerebral cortices of guinea-pig brain, was determined. 2. Noradrenaline stimulated hydrolysis by phospholipase A2 in whole synaptosomes, synaptic membranes and fractions containing synaptic vesicles. 3. Stimulation of hydrolysis by phospholipase A2 in synaptic membranes by noradrenaline was enhanced by CaCl2, and by a mixture of ATP and MgCl2. The optimum concentration of CaCl2, in the presence of ATP and MgCl2, for stimulation by 10 muM-noradrenaline was in the range 1-10muM. The optimum concentration for ATP-2MgCl2 in the presence of 1 muM-CaCl2 was in the range 0.1-1mM. 4. Hydrolysis by phospholipase A2 of synaptic membranes was also stimulated by acetylcholine, carbamoylcholine, 5-hydroxytryptamine, dopamine (3,4-dihydroxyphenethylamine), histamine, psi-aminobutyric acid, glutamic acid and aspartic acid. With appropriate concentrations of cofactors, sigmoidal dose-response curves were obtained, half-maximum stimulations being obtained with concentrations of stimulant in the range 0.1-1muM. 5. Taurine also stimulated hydrolysis of phosphatidylcholine by phospholipase A2. There were only slight stimulations with methylamine, ethylenediamine or spermidine. No stimulation was obtained with glucagon.
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PMID:The stimulation by transmitter substances and putative transmitter substances of the net activity of phospholipase A2 of synaptic membranes of cortex of guinea-pig brain. 19 82

In an isolated rat liver perfusion system the effects of normothermal ischemia on hepatic functions were investigated. After 30 minutes of anoxy bile production and BSP elimination capacity of the liver are significantly reduced. The quantity of secreted "ascites" from the surface of the liver several times high after anoxic damage, while oxygen consumption, portal venous pressure and ammonia elimination do not differ significantly from the controls. Pretreatment with insulin plus glucose, isoproterenol, hypoxanthine, chlorpromazine and glucagon (5 micrograms/100 g i.v., or 0.2 mg/100 g s.c.) does not reduce noticeably the normothermal anoxic lesion of the liver Glucagon (50 micrograms/100 g i.v.), allopurinol, dibenzyline, ATP-MgCl2 and aspartic acid enhance significantly the ischemia-tolerance of liver in vitro.
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PMID:Ischemic damage of the liver. Part I: In vitro investigation of the prevention of the ischemic lesion of the liver. 49 24

A new model for the study of ischemic liver lesion on rats has been worked out. Pretreatment with allopurinol, dibenzyline, methylprednisolone, glucagon, ATP-MgCl2 and aspartic acid reduced the overall mortality of ischemic liver injury. Administered after the anoxic hepatic lesion only glucagon and aspartic acid had beneficial effect on the survival rate. Under the influence of 30 minutes of normothermal ischemia the DNA synthetizing ability of the liver decreased. Aspartic acid, glucagon and ATP-MgCl2 significantly enhanced the regeneration of the ischemically damaged liver. These procedures might be suitable for donor pretreatment in liver transplantation, as well as for the treatment of other pathological states, causing a normothermal ischemia of the liver.
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PMID:Ischemic damage of the liver. Part II: In vivo investigation of the prevention of the ischemic lesion of the liver. 49 25

Glucagon was isolated from a side fraction generated during the preparation of insulin and the new pancreatic peptide, avian pancreatic polypeptide from chicken pancreas. The immunological and biological properties are similar to those of beef-pork glucagon. The amino acid composition of chicken glucagon indicates that it contains 1 more serine residue than the porcine hormone and 1 less aspartic acid (asparagine) residue. Thus, chicken glucagon appears to be identical with turkey glucagon.
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PMID:Chicken glucagon. Isolation and amino acid sequence studies. 119 90

Glucagon-like peptide 1 (GLP-1)(7-36) amide, a member of the family of glucagon and related peptides, synthesized by intestinal L cells, has a well-defined distribution in rat brain. In addition, specific GLP-1(7-36) amide receptors have also been localized in some regions of the brain, which suggests that this novel gut-brain peptide has a role in brain function. Accordingly, we investigated the effects of this peptide on the release of amino acid neurotransmitters in the basal ganglia of conscious rats after its perfusion through a concentric "push-pull" cannula system with an artificial cerebrospinal fluid. To obtain stable basal levels of amino acids, the basal ganglia were perfused with an artificial cerebrospinal fluid for 2 h at a flow rate of 20 microliters/min and then with GLP-1(7-36) amide for 10 min, followed by 40 min poststimulation perfusion. GLP-1(7-36) amide produced an immediate increase (p less than 0.01) of the extracellular levels of glutamine and glutamic acid in the basal ganglia. By contrast, this peptide has no effect on the levels of aspartic acid, glycine, and serine. Because glutamine is a metabolic precursor of glutamic acid and is synthesized almost exclusively in astrocytes, these findings suggest a stimulatory effect of GLP-1(7-36) amide on astrocytes and/or neurons of the rat basal ganglia.
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PMID:Selective release of glutamine and glutamic acid produced by perfusion of GLP-1 (7-36) amide in the basal ganglia of the conscious rat. 135 98

Previous studies have demonstrated that glucagon-superfamily peptides stimulate insulin release from the pancreatic islets in a glucose dependent manner. In this study we have carried out a structure-activity study of their insulinotropic activity using a rat pancreas perfusion with 5.5 mM glucose concentration. The following peptides were examined: glucagon-like peptide-1(7-36)amide (tGLP-1), glucagon, gastric inhibitory peptide (GIP), peptide having an amino-terminal histidine and carboxy-terminal isoleucine amide (PHI), vasoactive intestinal polypeptide (VIP), growth hormone releasing factor(1-29)amide (GRF), GRF(1-27)amide and synthetic hybrid-peptides of PHI-GRF, PHI(1-11)-GRF(12-27) and PHI(1-20)-GRF(21-27). Their potencies were evaluated as: tGLP-1 = GIP > glucagon > PHI = VIP > PHI(1-20)-GRF(21-27) > PHI(1-11)-GRF(12-27) >> GRF(1-29) = GRF(1-27). It is clear that 0.1 nM tGLP-1 stimulated insulin release, whereas 1 microM GRF(1-29) did not. These results indicate that 1) in addition to N-terminal amino acid (histidine or tyrosine), position 4 (glycine), position 9 (aspartic acid) and position 11 (serine) in the amino acid sequence are important for their insulinotropic activity, 2) not only the N-terminal portion but also the C-terminal portion of these peptides contribute to their insulinotropic activity.
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PMID:Comparison of the insulinotropic activity of glucagon-superfamily peptides in rat pancreas perfusion. 146 9

Recent studies on the glucagon antagonist des-His1-[Glu9]glucagon amide have resulted in pure inhibitors of the hormone, suggesting that the inhibitory properties may be centered around position 9. The present study was designed to investigate the chemical characteristics of substitutions in position 9 of glucagon that determine binding affinity and biological activity. Twenty replacement analogs of position 9 of glucagon were synthesized and assessed for their ability to bind to the glucagon receptor in rat hepatocyte membranes and to activate adenylate cyclase. Any substitution of aspartic acid 9 was accompanied by a severely diminished capacity to transmit the biological signal, while retaining receptor binding affinity. These results are an indication of an uncoupling of receptor binding and biological activity at this locus and define a central role of aspartic acid 9 in glucagon activity. Single replacement or deletion of either His1 or Asp9 in glucagon caused a 20- to 50-fold decrease in cyclase activity, whereas these same changes made in tandem caused virtually complete loss of activity, with decreases of 10(4)-to 10(6)-fold. These observations have led us to speculate that, at the molecular level, the region of glucagon required for transduction of the biological response may be distinct from the binding region and is mediated by a coupled interaction between His1 and Asp9 of the hormone and a complementary functional site of the glucagon receptor.
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PMID:Position 9 replacement analogs of glucagon uncouple biological activity and receptor binding. 184 33

The effects of intravenous infusion of 17 amino acids, each at a dose of 3 mmol/kg over 30 min, on the secretion of insulin, glucagon, and growth hormone (GH) were studied in 6 castrated male sheep. Insulin-like growth factor I (IGF-I) secretion was also studied using eight of the amino acids. Plasma alpha-amino nitrogen reached a peak at 30 min followed by a gradual decrease thereafter. The greatest increase was obtained using aspartic acid and the smallest with methionine, responses to the remaining amino acids lying between these two. Leucine was the most effective amino acid in stimulating insulin secretion but did not produce any increase in glucagon and GH secretion. Alanine, glycine, and serine induced a greater enhancement of both glucagon and insulin secretion than other amino acids. No amino acid was able to specifically stimulate glucagon secretion without also increasing insulin or GH secretion. With regard to insulin and glucagon secretion, amino acids could be divided into groups according to their R groups. Neutral straight-chain amino acids stimulated both insulin and glucagon secretion, with a greater secretory response to shorter C-chain amino acids. Branched-chain amino acids tended to enhance insulin and suppress glucagon secretion. Acidic amino acids caused an increase in GH secretion. Aspartic acid caused the strongest stimulation of GH secretion, exceeding that induced by arginine. No changes in plasma IGF-I were brought about by any of the amino acids tested.
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PMID:Effects of intravenous infusion of 17 amino acids on the secretion of GH, glucagon, and insulin in sheep. 198 90

1. Six non-anaesthetized pigs (mean body-weight 57.0 kg) were used to study the intestinal absorption of amino acids (AA) from either an enzymic hydrolysate of milk (PEP) containing a large percentage of small peptides (about 50% with less than five AA residues) and very few free AA (8%), or from a mixture of free AA with an identical pattern (AAL) infused intraduodenally in one of two amounts (55 or 110 g). Concomitant insulin and glucagon production rates were estimated. 2. Each pig was previously fitted, under anaesthesia, with an electromagnetic flow probe around the portal vein, with permanent catheters in the portal vein, the carotid artery and the duodenum. Each infusion was performed after an 18 h fasting period and each pig received each infusion. The observation period lasted for 5 h. 3. The absorption of AA was greater, more rapid and more homogeneous after PEP infusion than after AAL infusion, independent of the amount infused. 4. For the majority of AA considered individually, the absorption coefficient was higher after infusion of PEP than after that of AAL. The exceptions were methionine with a higher absorption coefficient after AAL infusion, and isoleucine, aspartic acid + asparagine and glutamic acid + glutamine with identical coefficients for both infusions. 5. Some AA, such as asparagine, ornithine, citrulline and taurine, while absent in the infusates, appeared in the portal vein in appreciable amounts after the infusion of both solutions. While a small proportion of taurine may arise from recycling of taurine-containing bile salts, it seems that the gut wall is able to synthesize all four AA. 6. Insulin production did not differ according to the nature or amount of solutions infused. Glucagon production was greater after PEP infusion.
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PMID:Amino acid absorption and production of pancreatic hormones in non-anaesthetized pigs after duodenal infusions of a milk enzymic hydrolysate or of free amino acids. 304 43


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