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)

We have examined in fasted rats the effects of graded doses of intravenous fructose (50 to 500 mg/kg) in order to determine potential mechanisms by which different concentrations of fructose reaching the liver may modify the activity of glycogen synthase (and phosphorylase). With increasing fructose doses the % synthase I increased threefold to a maximum at a dose of 125 mg/kg and then decreased progressively after higher fructose doses were given. The % phosphorylase a decreased by 30% to a minimum at a dose of 125 mg/kg but increased with higher doses to 370% of the control values. Both the % synthase I and the % phosphorylase a were elevated above the control values at fructose doses of 175 to 225 mg/kg. The increase in % synthase I after low doses of fructose occurred with a significant increase in glucose-6-P but no significant change in hepatic fructose, glucose, UDPglucose, ATP/Mg++, Pi, cAMP, plasma insulin, or glucagon concentrations. The reciprocal decrease in % synthase I and increase in % phosphorylase a occurred despite increases in glucose and glucose-6-P, at fructose doses resulting in no change in ATP/Mg++, Pi or cAMP, and only a small increase (0.39 mmol/L) in the fructose-1-P concentration. We propose that activation of synthase phosphatase by a rise in the glucose-6-P concentration is responsible for the increase in % synthase I after low doses of fructose. The mechanism by which higher fructose doses overcome the expected activation of synthase phosphatase by glucose and glucose-6-P and a decreased ATP/Mg++ ratio is uncertain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of graded intravenous doses of fructose on glycogen synthase in the liver of fasted rats. 310 29

Glutamine stimulated glycogen synthesis and lactate production in hepatocytes from overnight-fasted normal and diabetic rats. The effect, which was half-maximal with about 3 mM-glutamine, depended on glucose concentration and was maximal below 10 mM-glucose. beta-2-Aminobicyclo[2.2.1.]heptane-2-carboxylic acid, an analogue of leucine, stimulated glutaminase flux, but inhibited the stimulation of glycogen synthesis by glutamine. Various purine analogues and inhibitors of purine synthesis were found to inhibit glycogen synthesis from glucose, but they did not abolish the stimulatory effect of glutamine on glycogen synthesis. The correlation between the rate of glycogen synthesis and synthase activity suggested that the stimulation of glycogen synthesis by glutamine depended solely on the activation of glycogen synthase. This activation of synthase was not due to a change in total synthase, nor was it caused by a faster inactivation of glycogen phosphorylase, as was the case after glucose. It could, however, result from a stimulation of synthase phosphatase, since, after the addition of 1 nM-glucagon or 10 nM-vasopressin, glutamine did not interfere with the inactivation of synthase, but did promote its subsequent re-activation. Glutamine was also found to inhibit ketone-body production and to stimulate lipogenesis.
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PMID:Stimulation of glycogen synthesis and lipogenesis by glutamine in isolated rat hepatocytes. 312 12

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 placental glycogen content per g wet weight decreases after the 16th day of gestation but remains nearly constant till the 21st day of gestation when expressed per placenta as whole organ. Injection of insulin to rat fetuses at the 21st day of gestation gives rise to hypoglycemia and an increase of the glycogen content in liver and in placenta. Intrauterine glucagon application makes fetuses hyperglycemic in consequence of a mobilization of the placental glycogen stores. Hepatic glucose production appears in later stages because of the low activity of glucose 6-phosphatase as demonstrated by the effect of glucagon on the hepatic glucose 6-phosphate concentration.
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PMID:Effect of prenatal insulin and glucagon injection on the glycogen content of rat placenta and fetal liver. 332 72

Our previous study (Tan, A. W. H., and Nuttall, F. Q. (1983) J. Biol. Chem. 258, 9624-9630) indicated that liver synthase D contained a large number of endogenous phosphates, 12 of which were stable and 6 labile to alkali treatment. We wished to investigate the nature of the phosphates on synthase which became isotopically labeled when inorganic [32P]phosphate was given either to intact rats or to isolated liver cells. An antibody against liver synthase D was used for the isolation of synthase. The antibody recognized both the phosphorylated and dephosphorylated form of the enzyme, native as well as partially cleaved species. A large enzyme form, with Mr of 90,000 as well as one with Mr of 73,000 was observed. A 61% decrease in [32P]phosphate was found in synthase when prelabeled liver cells were treated with glucose, whereas a 25% increase was seen in cells treated with glucagon. After [32P]synthase D was converted to synthase I by synthase phosphatase, 95% of the [32P]phosphate was lost. All of the bound [32P]phosphates were found to be labile to alkali. Thus, under the in vivo conditions used, the [32P]phosphates incorporated into synthase were characterized by their fast turnover rate, alkali lability and susceptibility to the action of synthase phosphatase, both in vivo and in vitro. These criteria serve to distinguish them from the slower turning-over, alkali-stable phosphates found previously in both synthases D and I.
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PMID:In vivo phosphorylation of liver glycogen synthase. Isolation of the 32P-labeled enzyme and studies on the nature of the bound [32P]phosphates. 392 37

Activity of the pyruvate dehydrogenase complex determines the rate of glucose oxidation in animals including man. The complex is regulated by reversible phosphorylation, phosphorylation resulting in inactivation. Activity is therefore dependent upon the activities of pyruvate dehydrogenase kinase and phosphatase. Activity of the complex is reduced in diabetes and starvation as a result of insulin deficiency. The mechanism involves activation of pyruvate dehydrogenase kinase by short-term effects of products of fatty acid oxidation and by longer term effects involving specific protein synthesis; in hepatocytes the signals may include lipid fuels and glucagon. Activity of the branched chain ketoacid dehydrogenase complex determines the rate of degradation of branched chain aminoacids which is adjusted according to dietary supply. The complex is regulated by reversible phosphorylation, phosphorylation being inactivating. In liver and kidney, but not in muscles a protein activator (free E1 component) may reactivate phosphorylated complex without dephosphorylation and facilitate hepatic oxidation of branched chain ketoacids. Metabolic adjustments induced by diet and diabetes include loss of activator protein, loss of total complex activity in liver but not muscles, and enhanced inactivation by phosphorylation in liver.
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PMID:alpha-Ketoacid dehydrogenase complexes and respiratory fuel utilisation in diabetes. 405 46

Intraperitoneal injections of either cyclic AMP or dibutyryl cyclic AMP are capable of producing a wave of autophagy in rat liver which resembles closely that stimulated by glucagon. These autophagic vacuoles are acid-phosphatase-positive and appear to arise via the envelopment of organelles by double-walled cisterna. At later times these autophagic vacuoles are usually surrounded by a single membrane. Injection of equimolar amounts of 5'-AMP failed to produce a wave of autophagy. These findings constitute preliminary evidence that glucagon-stimulated autophagy is mediated at least in part by cyclic AMP.
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PMID:Studies on cellular autophagocytosis. Cyclic AMP- and dibutyryl cyclic AMP-stimulated autophagy in rat liver. 412 1

1. The administration of glucagon, cAMP [adenosine 3',5'-(cyclic)-monophosphate], BcAMP [6-N-2'-O-dibutyryladenosine 3',5'-(cyclic)-monophosphate] or adrenaline to foetal rats during the last 2 days of gestation evoked the appearance of tyrosine aminotransferase and enhanced the accumulation of glucose 6-phosphatase in the liver. In foetuses 1-2 days younger only BcAMP was effective. After birth liver glucose 6-phosphatase no longer responds to glucagon or BcAMP. Tyrosine aminotransferase is still inducible by these agents in 2-day-old rats, but not in 50-day-old rats. After adrenalectomy of adults glucagon or BcAMP can enhance the induction of the enzyme by hydrocortisone. The results indicate that the ability to synthesize tyrosine aminotransferase and glucose 6-phosphatase when exposed to cAMP develops sooner than the ability to respond to glucagon with an increase in the concentration of cAMP; the responsiveness of enzymes to different hormones changes with age. A scheme illustrating the sequential development of competence in regulating the level of an enzyme is presented. 2. Actinomycin inhibited the effects of glucagon and BcAMP on liver tyrosine aminotransferase and glucose 6-phosphatase in foetal rats. Growth hormone, insulin and hydrocortisone did not enhance the formation of these enzymes. 3. The time-course of accumulation of glucose 6-phosphatase in the kidney is different from that in the liver. Hormones that increase the accumulation in foetal liver do not do so in the kidney of the same foetus or in the livers of postnatal rats.
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PMID:The hormonal regulation of enzymes in penatal and postnatal rat liver. Effects of adenosine 3',5'-(cyclic)-monophosphate. 418 80

Hormone-sensitive lipase partially purified from adipose tissue of laying hens was markedly activated by cyclic AMP-dependent protein kinase. Activation was approximately 4-fold (ranging up to as great as 10-fold) compared with the much lower degree of activation obtained with analogous preparations from rat and human adipose tissues (59 and 86%, respectively). The partially purified preparations contained adequate endogenous protein kinase activity to effect complete activation with addition of cyclic AMP, ATP, and Mg(2+). Activation was blocked by protein kinase inhibitor (from rabbit skeletal muscle) but could be restored fully by addition of excess exogenous protein kinase (from bovine skeletal muscle). The fully activated lipase was slowly deactivated by dialysis at 4 degrees C and then rapidly and almost fully reactivated by addition of cyclic AMP and ATP-Mg(2+). Reactivation was blocked by protein kinase inhibitor. This deactivation-reactivation cycle was rapid at 23 degrees C with dialysis against charcoal and could be demonstrated repeatedly using a single preparation. The reversible deactivation of protein kinase-activated enzyme is presumed to reflect the action of a lipase phosphatase. Lipase prepared from tissue previously exposed to glucagon yielded a much smaller degree of activation than lipase prepared from tissue not exposed to the lipolytic hormone, indicating that the physiological hormone-induced activation is probably similar to or identical with the protein kinase activation demonstrated in the cell-free preparations. Under the conditions of assay used, the partially purified lipase fraction contained diglyceride, monoglyceride, and lipoprotein lipase activities. However, treatment with cyclic AMP-dependent protein kinase had virtually no effect on these lipase activities.
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PMID:Reversible protein kinase activation of hormone-sensitive lipase from chicken adipose tissue. 437 88

1. Ruthenium Red-insensitive Ca2+ transport in the mouse ascites sarcoma 180/TG is enriched in a 'heavy' microsomal fraction (microsomes) sedimented at 35 000 g for 20 min. The subcellular distribution of this Ca2+ transport differed from that of Ruthenium Red-sensitive Ca2+ transport and (Na+ + K+)-dependent ATPase activity, but was similar to that of glucose 6-phosphatase. 2. The affinity of this transport system for 'free' Ca2+ is high (Km approx. 6 microM) and that for MgATP somewhat lower (Km approx. 100 microM). Ca2+ transport by the tumour microsomes, by contrast with that by liver microsomes, was greatly stimulated by low concentrations of P1. 3. Although incubation of intact ascites cells with glucagon led to an increase in intracellular cyclic AMP, no stable increase in the initial rate of Ca2+ transport in the subsequently isolated 'heavy' microsomes could be detected as in similar experiments carried out previously with rat liver cells. Reconstitution experiments suggest that a deficiency exists in the tumour microsomal membrane such that an action of glucagon that is normally present in rat liver microsomes is not evoked.
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PMID:Ruthenium red-insensitive calcium transport in ascites-sarcoma 180/TG cells. 617 24


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