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)

In red cell lysates, three soluble proteases hydrolyze insulin at pH 8.5. One of these enzymes was purified to homogeneity by conventional chromatographic techniques. It appears to be a metalloprotease since it is inhibited by EDTA, o-phenanthroline, and 8-hydroxyquinoline, the metal-depleted enzyme can be reactivated by micromolar levels of Zn2+, Co2+, or Mn2+, and it is not inhibited by reagents specific for carboxyl, serine or thiol proteases. This enzyme has an apparent molecular weight of 300,000 +/- 25,000, and electrophoresis in sodium dodecyl sulfate indicates a single band with an Mr = 115,000 +/- 10,000. End group analysis and automated Edman degradation of the products of proteolysis showed that it is an endoprotease which cleaves on the NH2-terminal side of large hydrophobic amino acids. Although various small polypeptides with Mr = 2300-3500 are hydrolyzed (e.g. insulin chains, glucagon, and calcitonin), a variety of larger proteins are not degraded (e.g. casein and globin). The latter proteins, however, are converted to substrates for the metalloprotease by digestion with the ATP-stimulated endoprotease from erythrocytes. Thus, the metalloprotease may play a role in the ATP-dependent pathway for degrading proteins with abnormal structures and could account in part for the o-phenanthroline sensitivity of this process. A similar enzyme is found in humans, rabbits, and rats and is cytosolic in all tissues which have been examined including erythrocytes, reticulocytes, liver, kidney, brain, and skeletal muscle.
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PMID:A high molecular weight metalloendoprotease from the cytosol of mammalian cells. 640 23

Duodenopancreatectomy induces a severe glucagon deficiency and elevated plasma concentrations of alanine, aspartate, glycine, proline, serine, arginine, citrulline, ornithine, phenylalanine and tyrosine. Restoring high physiological plasma glucagon in six such patients by infusing 0.3 mg/24 h of exogenous glucagon reduced significantly (P less than 0.01 or 0.001) the mentioned amino acids (except phenylalanine) and further asparagine, glutamine, methionine and threonine. In six normal subjects the same infusion reduced significantly (P less than 0.05 to 0.001) plasma alanine, asparagine, glutamate, glutamine, glycine, proline, serine, threonine, arginine, ornithine, lysine and tyrosine. However, the effect was significantly (P less than 0.01 or 0.001) less marked for alanine, glutamine, glycine, methionine, serine, threonine and arginine. This particular glucagon sensitivity of duodenopancreatectomized patients suggests that glucagon deficiency is the cause of their hyperaminacidaemia. By contrast, lipoprotein concentrations were virtually unaffected by either glucagon deficiency or its replacement. In the light of the marked hypoaminacidaemia in glucagonoma patients these results attribute to glucagon a major role as a regulator of protein metabolism.
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PMID:Amino acids and lipoproteins in plasma of duodenopancreatectomized patients: effects of glucagon in physiological amounts. 640 37

The authors have studied the behavior of Aminoacids (AA), GH, Prolactin (PRL), Insulin (IRI) and blood sugar (BS) after fast intravenous injection of 1 mg of Glucagon (G), in eight normal volunteers. The rise in BS levels soon after G. administration at time 10', 20', 30', 45', 60' prompted to consider the initial phase of the experimental to be under G predominance, although IRI did respond to the infusion with a sharp rise, at time 10', 20', 30', 45'. Glycine, serine, threonine, alanine, lysine, phenylalanine and arginine displayed a significant reduction already at time 10' or 20', when G metabolic effects were dominant, a selective G influence on these AA can be supposed. At time 45' and 60' tyrosine, histidine, methionine, valine, leucine, isoleucine, proline, decreased significantly and glycine, serine, threonine, lysine, alanine, phenylalanine, evidenced further reduction. GH and PRL were not affected by the administration of G.
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PMID:[Behavior of blood amino acids after acute administration of glucagon in humans]. 645 90

When whole plasma obtained from rats given carbon tetrachloride was applied to a column of Bio Gel P-30, P-150 or P-300, a large molecular form of immunoreactive glucagon (IRG), so called "big plasma glucagon" (BPG), was eluted in the void volume. Glucagon degrading activity, measured under the same conditions as for radioimmunoassay of IRG, was eluted in parallel with IRG. Since standard assay mixture containing aprotinin was used for the measurement of IRG, this degradation of glucagon might be due to an enzyme(s) other than serine proteinases. p-Hydroxymercuribenzoate depressed glucagon degradation and IRG in the BPG fractions to 20% and 30% of the control values, respectively. Other inhibitors of thiol proteinases, such as N-ethylmaleimide and leupeptin, also decreased the values for both glucagon degradation and IRG to a similar extent. However, phenylmethylsulfonyl fluoride and pepstatin had little or no effect on these values. On filtration of plasma from carbon tetrachloride-treated rats on a column of Bio Gel A-1.5m, IRG peaks between 600k and 1,200k daltons were obtained and glucagon degrading activity was again eluted with IRG. When p-chloromercuriphenyl sulfonate and N-ethylmaleimide were added to the elution buffer and assay mixtures, the glucagon degrading activity was almost completely inhibited and the values for IRG between 600k and 1,200k daltons were decreased to less than 10% of those of the control. These results indicate that more than 90% of the IRG in the fractions of BPG obtained from carbon tetrachloride-treated rats could be accounted for entirely by the degradation of immunoreactive 125I-glucagon by plasma proteinases, probably thiol proteinases. Thus we conclude that some proteinases are still active in the radioimmunoassay system of glucagon which is widely used at present, and lead apparently higher glucagon values owing to degradation of 125I-glucagon.
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PMID:Glucagon degradation in fraction of big plasma glucagon in rats treated with carbon tetrachloride. 667 59

Processing and uptake of the precursor of serine: pyruvate aminotransferase [EC 2.6.1.51] by mitochondria were studied in vitro and in vivo. Serine: pyruvate aminotransferase was synthesized mainly on free ribosomes as judged by immunoprecipitation of puromycin-labeled nascent peptides prepared from free and bound ribosomes. The precursor of rat liver serine:pyruvate aminotransferase (pSPT) synthesized in vitro was post-translationally processed to an apparently mature form by isolated rat liver mitochondria. Available evidence indicated that the processed product was localized in the matrix of mitochondria. Mature serine:pyruvate aminotransferase did not inhibit the in vitro processing, suggesting that the extra peptide was necessary for the mitochondrial uptake of the precursor. In the livers of rats fed a vitamin B6-deficient high-protein diet, the induction by glucagon of serine:pyruvate aminotransferase occurred and most of the induced enzyme existed in mitochondria as the apo-form, suggesting that pSPT was taken up by mitochondria and processed in the apo-form under the conditions employed. In the in vitro system, on the other hand, the processing of pSPT proceeded both in the absence and presence of pyridoxal 5'-phosphate. Should the precursor also bind the prosthetic molecule, therefore, it would be transported into mitochondria in both the apo- and holo-forms. When isolated rat hepatocytes were labeled with [35S]methionine, labeled pSPT appeared in the cytosolic fraction and was transported rapidly into mitochondria in association with the processing. This uptake and processing were inhibited by a fluorescent laser dye, rhodamine 123, and the precursor accumulated in the cytosol in the presence of the dye.
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PMID:Uptake and processing of serine: pyruvate aminotransferase precursor by rat liver mitochondria in vitro and in vivo. 672 36

The effects of a 4-day isocaloric isoprotenic dietary replacement of carbohydrate by fats were studied in six healthy subjects, the experimental diet being preceded and followed by a 3-day period of balanced diet. During the ketogenic regimen, the concentrations of fat derived substrates (free fatty acids, glycerol and 3-hydroxybutyrate) rose significantly and glucose levels decreased by 16.5 +/- 3.2% (mean +/- SEM). The hormonal pattern switched towards a catabolic mode with a fall in insulin levels (-44.0 +/- 6.3%) and a rise in glucagon concentration (+39.0 +/- 10.4%). A significant fall in triiodothyronine and rise in reverse triiodothyronine were observed, while thyroxine levels remained unchanged. The average levels of the most important gluconeogenic amino acids (alanine, glutamine, glycine, serine and threonine) were reduced by 8-34% while those of the branched chain amino acids increased by more than 50%. Since these changes reproduce those observed after a few days of total fasting, we suggest that it is the carbohydrate restriction itself which is responsible for the metabolic and hormonal adaptations of brief fasting.
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PMID:Hormonal and metabolic changes induced by an isocaloric isoproteinic ketogenic diet in healthy subjects. 676 Nov 85

The amino acids glycine, L-serine, L-asparagine and L-glutamine at 5 mmol/l each markedly increased glucagon release from perifused fetal lamb pancreas tissue, whereas the branched-chain amino acids L-leucine and L-valine had no effect. In contrast, only L-leucine and L-valine had any effect on insulin release. With perifused pancreas tissue from newborn lambs (5-9 days of age) glycine, L-serine, L-asparagine, L-arginine and L-lysine caused a similar marked increase in glucagon secretion with glycine having the greatest effect. These stimulatory effects were attenuated little by addition of glucose (20 mmol/l). L-Leucine had little effect on glucagon release, but was the only amino acid tested which caused marked insulin release in the absence of glucagon. Continuous intravenous infusion of glutamine (3 mmol/h per kg estimated fetal weight) or glutamine and asparagine each at this rate for 2 h into chronically cannulated fetal sheep in utero significantly increased plasma glucagon (P less than 0.05) and insulin (P less than 0.01) concentrations, although the effect on glucagon was not great. The results show how a range of amino acids can influence glucagon and insulin release from the pancreas of fetal and newborn lambs suggesting that physiological changes in plasma amino acid concentrations may contribute to regulation of glucagon and insulin release in utero in this species.
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PMID:Glucagon and insulin release in the lamb before and after birth: effects of amino acids in vitro and in vivo. 676 31

Experiments were designed to estimate the effect of in vivo hormonal treatment of rats on serine metabolism in isolated hepatocytes by incubating hepatocytes in the presence or absence of 3-mercaptopicolinic acid (a potent inhibitor of phosphoenolpyruvate carboxykinase), the relative flow of [14C]serine carbon to [14C]glucose via the serine dehydratase (SDH)-initiated vs. serine amino-transferase (SAT-initiated pathways could be estimated. Streptozotocin-induced diabetes caused a tripling of the absolute rate of [14C]serine conversion to [14C]glucose, along with a shift in the relative importance of the SAT-mediated pathway. Hydrocortisone treatment had no significant effect on either the rate or route of serine metabolism. The SAT-mediated pathway was the major route of serine conversion to glucose after 4 days of chronic glucagon injections, although the absolute rate of conversion was enhanced by only 50%. This was the only treatment examined in which SDH was not the major route for serine gluconeogenesis. The enzyme activity responses of SDH and SAT to hormonal manipulation previously reported do not necessarily reflect the observed changes in pathway flux reported in the present study.
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PMID:Effects of in vivo hormonal treatment on serine metabolism in isolated rat hepatocytes. 680 68

The present study was designed to examine the effects of excess T3 on total body glucose production and forearm exchange of glucose, amino acids, and other metabolites. Five healthy male volunteers were studied after an overnight fast, before and 7 days after the administration of 150 micrograms/day T3. Glucose production (milligrams per kg/min) was measured using a primed continuous infusion of [3-3H]glucose and gluconeogenic index (micromoles per kg/min) was measured by following the conversion of infused [14C]alanine to [14C]glucose. Blood flow across the forearm was measured using capacitance plethysmography and forearm release of substrates was determined by the Fick principle. After T3 administration, there was a 3.7-fold rise in T3 from 150 +/- 15 to 530 +/- 12 ng/dl (P less than 0.001), with no change in insulin (12 +/- 1 microU/ml pre-T3 vs. 13 +/- 2 microU/ml post-T3) and glucagon (79 +/- 5 pre-T3 vs. 84 +/- 7 pg/ml post-T3). T3 administration resulted in an increase in plasma glucose (from 83 +/- 5 to 98 +/- 5 mg/dl; P less than 0.05), net glucose uptake by the forearm (from 250 +/- 90 to 712 +/- 60 nmol/100 ml forearm tissue X min; P less than 0.005) and glucose production (1.7 +/- 0.09 to 2.2 +/- 0.08 mg/kg X min; P less than 0.005), without a change in glucose clearance (2.1 +/- 0.02 vs. 2.0 +/- 0.02 ml/kg X min); the rate of conversion of [14C]alanine to [14C]glucose increased by 30% (0.56 +/- 0.03 to 0.74 +/- 0.03 mumol/ kg X min P less than 0.005). These values were associated with a 25% increase in blood lactate to 712 +/- 69 mumol/liter (P less than 0.05) and a 131% increase in lactate release across the forearm to 434 +/- 90 (P less than 0.005). Forearm release of alanine (96 +/- 29 nmol/100 ml forearm tissue X min) and glutamine (151 +/- 41 nmol/100 ml forearm tissue X min) increased by 90% (P less than 0.005 and P = 0.04, respectively), with no change in their concentrations. Forearm release of branched chain amino acids did not change, while those of their ketoacids, alpha-ketoisocaproate (KIC) and alpha-ketoisovalerate (KIV), doubled (to 64 +/- 9 mumol/liter for KIC and 39 +/- 6 mumol/liter for KIV; P less than 0.05). These were associated with a 45% increase in the branched chain amino acid levels and a 46% rise in both KIC and KIV levels to 41 +/- 9 and 28 +/- 7 mumol/liter, respectively (P less than 0.05). There was a concurrent significant (P less than 0.05) change in the arterial levels of phenylalanine (-32%), tyrosine (-29%), threonine (-20%), glycine (-20%), and serine (-15%), without any change in their efflux across the forearm. The data indicate that a pharmacologically induced rise in T3, to levels comparable to those seen in hyperthyroidism, results in enhanced glucose production, with an increase in glucose uptake by the forearm. The former can be partially accounted for by an increase in hepatic gluconeogenesis, glycogenolysis, or possibly increased renal glucose production...
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PMID:The effect of thyroid hormones on gluconeogenesis and forearm metabolism in man. 682 48

The first goal of this study was to investigate whether totally pancreatectomized patients are glucagon deficient and if so, to what degree. Immunoreactive glucagon (IRG) concentrations in peripheral plasma of nine pancreatectomized patients were not significantly different from those of 10 normal controls as measured by two antisera (30-K and RCS-5) both detecting the COOH-terminal portion of the molecule and one (RCS-5) postulated to be specific for pancreatic glucagon. Plasma from six of nine pancreatectomized patients were fractionated over Sephadex G-50 and IRG was measured with both antisera in the column eluates. Using 30-K, 80.8 +/- 9% of the IRG eluted within the void volume. This material was rechromatographed on Sephadex G-200 and found to have an apparent mol wt of approximately 200,000. Only 18.3 +/- 9% eluted in the IRG3500 region. IRG3500 was significantly reduced in pancreatectomized patients as compared to normal controls (49 +/- 9 vs. 18 +/- 9 pg/ml, P less than 0.05). Using RCS-5, all IRG (corresponding to 20 +/- 6 pg/ml of plasma) eluted in the IRG3500 region. The second goal of this study was to investigate the effects of chronic glucagon deficiency on plasma amino acids. In the nine pancreatectomized patients studied, postabsorptive plasma concentrations of serine, alanine, arginine, glycine, threonine, citrulline, alpha-aminobutyrate, and tryosine were significantly elevated compared to values obtained from 20 normal controls. Physiological glucagon increments produced in two pancreatectomized patients by infusion of glucagon (6.25 and 8.0 microgram/h, respectively) resulted in normalization of the hyperaminoacidemia within 22 h. We conclude (a) that pancreatectomized patients are partially glucagon deficient because of diminished basal as well as diminished stimulated glucagon secretion; (b) that fasting concentrations of certain glucogenic amino acids are elevated in pancreatectomized patients probably as result of reduce; hepatic gluconeogenesis; and (c) that the RCS-5 antiserum is not "pancreatic glucagon" specific.
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PMID:Glucagon deficiency and hyperaminoacidemia after total pancreatectomy. 698 12


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