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)

The glycogen synthase-mediated reaction is rate-limiting for glycogen synthesis in the liver. Glycogen synthase has been purified essentially to homogeneity and has been shown to be a dimer composed of identical subunits. It is regulated by a phosphorylation-dephosphorylation mechanism, catalyzed by kinases and a phosphatase. The subunits of synthase D, the most phosphorylated form, each contain approximately 17 phosphates. The subunits of synthase I, the least phosphorylated form, each contain 14 phosphates. Thus, during the transition between these two forms, a net of three phosphoryl groups is added or removed. In synthase D, six of the phosphates are alkali-labile. In synthase I, three of the phosphates are alkali-labile. Therefore, all of the phosphorylation sites important in the interconversion of these two forms are alkali-labile (attached to serine or threonine residues). In short-term experiments using isolated hepatocytes, [32P]phosphate was only incorporated into the alkali-labile sites and the phosphate in these sites was shown to turn over rapidly. Glucose addition, which is known to reduce the proportion of synthase in the D form when assayed kinetically, also reduced the [32P]phosphate content. Glucagon addition, which increases the proportion of synthase in the D form, increased it. These changes do not appear to be site-specific. Ingestion or administration of fructose, or galactose, as well as glucose, result in a shift in synthase equilibrium in favor of the less phosphorylated forms. Possible mechanisms by which synthase phosphatase activity may be increased after ingestion of glucose or fructose, and thus shift the equilibrium in favor of the less phosphorylated forms, are discussed. The mechanism by which galactose may stimulate the phosphatase reaction is completely unknown.
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PMID:Regulation of glycogen synthesis in the liver. 314 65

The specific transport mechanisms that mediate the hepatic uptake of L-[3H]alanine and of an unnatural homologue, alpha-[14C]methylaminoisobutyric acid (MeAIB), were analyzed in hepatocyte suspensions from Raja erinacea. Aminooxyacetate, an inhibitor of aminotransferase activity was used to prevent alanine metabolism. After 3 h of incubation with either 0.5 mM alanine or MeAIB, hepatic concentrations of these amino acids were significantly higher in the presence than absence of Na+ (8 vs. 1 and 1 vs. 0.1 mM, respectively). Kinetic studies indicated that both alanine and MeAIB transport occurred via sodium-dependent saturable mechanisms. [14C]MeAIB uptake was completely inhibited by excess L-alanine. Uptake of [3H]alanine was inhibited by a 40-fold excess of serine and cysteine (53-54%), by MeAIB and methylalanine (26-31%), and by leucine (14%), whereas D-alanine, beta-alanine, taurine, and glutamate had no effect. Insulin and glucagon were unable to stimulate [3H]alanine uptake. Glucose release from hepatocytes was unaffected by 10 mM alanine or 2 mM aminooxyacetate, indicating that alanine is not a major gluconeogenic precursor in this marine elasmobranch. These results suggest that uptake of L-alanine by skate hepatocytes occurs predominantly via a sodium-dependent system, with properties similar to those exhibited by the ASC neutral amino acid transport system previously characterized in Ehrlich ascites tumor cells and rat hepatocytes.
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PMID:Characteristics of L-alanine uptake in freshly isolated hepatocytes of elasmobranch Raja erinacea. 336 8

Gabonase, an enzyme which acts on fibrinogen and factor XIII in uniquely thrombin-like ways, was purified to electrophoretic homogeneity from the venom of Bitis gabonica. On sodium dodecyl sulfate-polyacrylamide electrophoresis, the reduced protein behaved as a single chain with Mr = 30,600. The enzyme contains 20.6% carbohydrate, no free sulfhydryl groups and hence, from amino acid analysis, five disulfide bonds. Its extinction coefficient (E1%1cm) at 280 nm is 9.6. Its pI is 5.3. Gabonase has an active serine residue, is inactivated by phenylmethanesulfonyl fluoride, and has an active histidine which reacts with the chloromethyl ketone of tosyl-L-lysine. Its NH2-terminal amino acid sequence (Val-Val-Gly-Gly-Ala-Glu-Cys-Lys-Ile-Asp-Gly-His-Arg-Cys-Leu-Ala-Leu-Leu -Tyr-) is homologous to the B chain of thrombin. The activity of the enzyme is stabilized by calcium ion. It exhibits strong N alpha-p-tosyl-L-arginine methyl esterase activity, hydrolyzes tripeptide nitroanilide derivatives weakly or not at all, and cleaves no peptide bonds in insulin, glucagon, or the S peptide of ribonuclease. Gabonase clots fibrinogen with a specific activity of 45 NIH thrombin-equivalent units/mg, releasing both fibrinopeptides A and B and showing substrate inhibition at fibrinogen concentrations of 3 mg/ml or greater. The enzyme also activates factor XIII. It is not inactivated by either heparin or hirudin.
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PMID:Thrombin-like enzyme from the venom of Bitis gabonica. Purification, properties, and coagulant actions. 352 80

To evaluate the impact of glucagon deficiency on the response to glucagon replacement, we infused physiological doses of glucagon (1.25 ng/kg X min) into 9 totally pancreatectomized (PX) diabetic patients (C-peptide, undetectable) 1) for 24 h during their usual diet and insulin regimen and/or 2) for 6 h in a fasted insulin-withdrawn state. During both glucagon infusions, plasma glucagon rose from 46 +/- 2 (+/- SE) pg/ml (0-10% 3500 mol wt glucagon) to 112 +/- 9 pg/ml. In the 24-h study (n = 4), glucagon significantly increased mean 24-h glucose levels (272 +/- 27 mg/dl; P less than 0.05) and glycosuria (29 +/- 5 g/day; P less than 0.01) compared to preinfusion (158 +/- 14 mg/dl and 4 +/- 4 g/day, respectively) and postinfusion (200 +/- 35 mg/dl and 3 +/- 2 g/day) control periods. Blood ketones did not change. The 24-h glucagon infusion significantly lowered the fasting levels of the glucogenic amino acids aspartate (43%; P less than 0.01), threonine (46%; P less than 0.05), serine (46%; P less than 0.02), glycine (47%; P less than 0.01), and methionine (34%; P less than 0.02). Fasting alanine levels decreased from 835 +/- 236 to 393 +/- 66 microM (P less than 0.05). The 6-h glucagon infusion caused a 101 +/- 14 mg/dl maximal plasma glucose increment in PX (n = 8) vs. 33 +/- 11 in 5 insulin-withdrawn type I diabetic patients serving as controls (P = 0.022). Furthermore, when glucagon was infused at a higher rate (3 ng/kg X min) in 12 additional type I diabetic patients, the mean maximal plasma glucose increment (54 +/- 15 mg/dl) was still less than half that in PX, despite a 3-fold higher infusion plasma glucagon level (326 +/- 37 pg/ml). The 6-h glucagon infusion caused a significant decrease in the concentrations of glucogenic amino acids in the glucagon-deficient patients, but not in the type I diabetic patients. We conclude that 1) glucagon replacement in the PX patient markedly alters blood glucose and glucogenic amino acids, but not ketone levels; and 2) the metabolic response to glucagon is considerably more pronounced in PX patients than in type I diabetic patients. These data suggest that glucagon responsiveness is enhanced in the chronic hormone-deficient state.
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PMID:Total pancreatectomy increases the metabolic response to glucagon in humans. 352 19

In F344 rats bearing transplantable 3-methylcholanthrene (CAS: 56-49-5)-induced sarcomas, plasma concentrations of immunoreactive insulin were decreased following the development of mild or severe anorexia. Plasma levels of immunoreactive glucagon and lactate were elevated in severely anorectic tumor-bearing (TB) rats, while plasma glucose concentrations remained normal. Both groups of TB rats exhibited decreased plasma levels of serine, glutamine, citrulline, and tryptophan and increased concentrations of alanine. Plasma levels of proline and phenylalanine were also elevated in the severely anorectic TB rats. In a second experiment, 7 daily treatments with insulin corrected the anorexia for 6 days and increased body weights of TB rats. Plasma concentrations of lactate and immunoreactive glucagon were decreased, and the abnormal plasma concentrations of glutamine, proline, analine, and phenylalanine were altered toward normal following the insulin treatments. Therefore, these data are consistent with insulin treatments benefiting the TB host by increasing feeding, increasing body weight, reducing tumor glycolysis and metabolism, reducing gluconeogenesis, and reducing host catabolism, while not stimulating tumor growth. Thus insulin therapy may have potential benefits in cancer treatment by shifting glucose metabolism toward the host and away from the tumor.
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PMID:Reversal of tumor-induced biochemical abnormalities by insulin treatment in rats. 352 58

An endopeptidase (LEP-II), which has a unique substrate specificity, was purified to homogeneity by conventional chromatographic techniques from Streptococcus cremoris H61. The enzyme was a metalloendopeptidase since it was inhibited by EDTA and 1,10-phenanthroline; the metal-depleted enzyme could be fully reactivated by micromolar levels of Zn2+ and was not inhibited by specific inhibitors for serine or thiol protease. The molecular mass of the enzyme was estimated to be 80 kDa by Sephacryl S-300 gel filtration and high-performance liquid chromatography with a TSK-G3000SW column. The enzyme consisted of two identical subunits and the N-terminal sequence of LEP-II was determined up to the 19th residue. Although the enzyme had a broad substrate specificity it specifically hydrolyzed the peptide bonds involving the amino groups of hydrophobic amino acid residues. Various small polypeptides, such as alpha s1-CN(f1-23), alpha s1-CN(f91-100), oxidized insulin B chain, glucagon and some biologically active peptides were hydrolyzed. However, a variety of larger polypeptides or proteins, such as alpha s1-CN(f1-54), alpha s1-CN(f61-123), alpha s1-CN(f136-196), alpha s1-casein, beta-casein, and kappa-casein were not hydrolyzed. LEP-II recognized the size of its substrates, which were limited below a molecular mass of about 3.5 kDa.
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PMID:Purification and characterization of a novel metalloendopeptidase from Streptococcus cremoris H61. A metalloendopeptidase that recognizes the size of its substrate. 354 30

The phosphorylation state of six cytoplasmic proteins is increased following treatment of isolated rat hepatocytes with hormones that elevate free intracellular Ca2+ levels (Garrison, J. C. and Wagner, J. D. (1982) J. Biol. Chem. 257, 13135-13143). Tryptic 32P-phosphopeptide maps of two of the substrates, pyruvate kinase and a 49,000-dalton protein, the major 32P-labeled protein in hepatocytes, were prepared following stimulation of cells with vasopressin, a Ca2+-linked hormone. Peptide maps of the 49,000-dalton protein phosphorylated in vitro with the recently identified multifunctional Ca2+/calmodulin-dependent protein kinase contained phosphopeptides identical to those observed in the intact cell, suggesting that this kinase is activated in response to Ca2+-mobilizing hormones. Similar in vitro phosphorylation experiments with pyruvate kinase suggested that the Ca2+/calmodulin-dependent protein kinase can phosphorylate not only the serine residues observed following vasopressin stimulation of the intact cell but also additional threonine residues. Both pyruvate kinase and the 49,000-dalton protein are also phosphorylated in the hepatocyte in response to glucagon and in vitro by the cAMP-dependent protein kinase. Both vasopressin and glucagon appear to stimulate the phosphorylation of identical serine residues in pyruvate kinase but only vasopressin enhances the phosphorylation of certain sites in the 49,000-dalton protein. Comparison of the tryptic phosphopeptide maps of these substrates phosphorylated in vitro with either the Ca2+/calmodulin-dependent protein kinase or the cAMP-dependent protein kinase suggests that the Ca2+-dependent kinase can phosphorylate unique sites in both substrates. It appears to share specificity at other sites with the cAMP-dependent protein kinase. Overall, the results suggest that the multifunctional Ca2+/calmodulin-dependent protein kinase plays an important role in the response of the hepatocyte to a Ca2+ signal.
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PMID:Evidence for the activation of the multifunctional Ca2+/calmodulin-dependent protein kinase in response to hormones that increase intracellular Ca2+. 361 Oct 57

Amino acid and glucose metabolism was studied in nine awake 18-hour fasted dogs with chronic portal, arterial, and hepatic venous catheters before and for three hours after oral ingestion of amino acids. The meal was composed of a crystalline mixture of free amino acid, containing neither carbohydrate nor lipid. Following the amino acid meal, plasma glucose concentration declined slowly and this occurred despite a rise in hepatic glucose release. Portal plasma insulin rose transiently (30 +/- 7 to 50 +/- 11 microU/mL, P less than 0.05) while the increase in portal glucagon was more striking and persisted throughout the study (162 +/- 40 to 412 +/- 166 pg/mL). Over the three hours following amino acid ingestion, the entire ingested load of glycine, serine, phenylalanine, proline, and threonine was recovered in portal blood as was 80% of the ingested branched chain amino acids (BCAA). The subsequent uptake of these glucogenic amino acids by the liver was equivalent to the amount ingested, while hepatic removal of BCAA could account for disposal of 44% of the BCAA absorbed; the remainder was released by the splanchnic bed. During this time, ongoing gut production of alanine was observed and the liver removed 1,740 +/- 170 mumol/kg of alanine, which was twofold greater than combined gut output of absorbed and synthesized alanine. In the postcibal state, the total net flux of alanine and five other glucogenic amino acids from peripheral to splanchnic tissues (1,480 mumol/kg 3 h) exceeded the net movement of branched chain amino acids from splanchnic to peripheral tissues (590 mumol/kg/3 h).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amino acid and glucose metabolism in the postabsorptive state and following amino acid ingestion in the dog. 373 11

Differential induction of serine: pyruvate amino-transferase (SPT) in rat liver parenchymal cells by administration of glucagon or di-(2-ethylhexyl)phthalate (DEHP) was studied using post-embedding immunocytochemical techniques and morphometric methods. Two groups of rats were fasted for 5 days and daily received peritoneal injection of glucagon (300 micrograms/100 g) or physiological saline. Another two groups of rats were fed on laboratory chow with or without 2% DEHP for 2 weeks. Livers were perfusion-fixed, cut into tissue sections (50-100 micron), and processed to cytochemistry for catalase, immunocytochemistry for SPT, and conventional procedures for electron microscopy. The morphometric analysis showed that glucagon injection has negligible effect on the volume and numerical density and mean diameter of peroxisomes, whereas volume density of mitochondria was decreased by 25%. By DEHP administration peroxisomes were about 3-fold increased in the volume and numerical density. Mitochondria was increased about 40% in the numerical density, but unchanged in the volume density. Light and electron microscopic immunocytochemistry demonstrated that glucagon injection exclusively enhanced mitochondrial SPT, whereas DEHP administration exclusively induced in peroxisomal SPT. Quantitative analysis showed that by the glucagon injection, the labeling density of mitochondria was increased about 4-fold, but that of peroxisomes was 1.6 times as much as control, while by DEHP administration, the labeling density of peroxisomes was enhanced about 3-fold but that of mitochondria was decreased by 13%. The results clearly indicate that glucagon induces mitochondrial SPT, whereas peroxisome proliferator, DEHP induces peroxisomal SPT.
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PMID:Quantitative immunocytochemical studies on differential induction of serine:pyruvate aminotransferase in mitochondria and peroxisomes of rat liver cells by administration of glucagon or di-(2-ethylhexyl)phthalate. 374 97

Cloned cDNAs for rat liver serine: pyruvate aminotransferase were obtained by screening of a cDNA expression bank of rat liver with an antibody against the enzyme. Nineteen clones were isolated from 33 000 transformants and most of them had common fragments of cDNA on analysis by digestion with some restriction enzymes. These clones were identified as those containing cDNA for serine:pyruvate aminotransferase by the following criteria. (a) At the nucleic acid level, a 500-base-pair fragment of cDNA prepared by digestion of cDNAs with EcoRI and PstI hybridized with the mRNA coding for serine:pyruvate aminotransferase as judged by hybrid-selected and hybrid-arrested translations. (b) Specific proteins were detected in nine bacterial clones, a 40-kDa protein in one clone and a 39-kDa protein in eight clones. Among them only the 40-kDa protein was found to be solubilized from the cell by sonication, and this protein was immunoprecipitated with an antibody against serine:pyruvate aminotransferase of rat liver. (c) High activity of serine:pyruvate aminotransferase was expressed both in whole cell suspension and sonicated extract prepared from the transformant producing the 40-kDa protein, and 99% of the activity was immunoreactive with the antibody. Two types of mRNA for serine:pyruvate aminotransferase were detected on the RNA blot analysis by using cloned cDNA fragment as a probe. The larger mRNA (approximately 1600 nucleotides) was glucagon-inducible while the smaller one (approximately 1500 nucleotides) was not affected by the hormone.
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PMID:Cloning and expression in Escherichia coli of cDNA for serine: pyruvate aminotransferase of rat liver. 389 25


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