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 muscle isozyme of glycogen phosphorylase is potently activated by the allosteric ligand AMP, whereas the liver isozyme is not. In this study we have investigated the metabolic impact of expression of muscle phosphorylase in liver cells. To this end, we constructed a replication-defective, recombinant adenovirus containing the muscle glycogen phosphorylase cDNA (termed AdCMV-MGP) and used this system to infect hepatocytes in culture. AMP-activatable glycogen phosphorylase activity was increased 46-fold 6 days after infection of primary liver cells with AdCMV-MGP. Despite large increases in phosphorylase activity, glycogen levels were only slightly reduced in AdCMV-MGP-infected liver cells compared to uninfected cells or cells infected with wild-type adenovirus. The lack of correlation of phosphorylase activity and glycogen content suggests that the liver cell environment can inhibit the muscle phosphorylase isozyme. This inhibition can be overcome, however, by addition of carbonyl cyanide m-chlorophenylhydrazone (CCCP), which increases AMP levels by 30-fold and causes a much larger decrease in glycogen levels in AdCMV-MGP-infected cells than in uninfected or wild-type adenovirus-infected controls. CCCP treatment also caused a preferential decrease in glycogen content relative to glucagon treatment in AdCMV-MGP-infected hepatocytes (74% versus 11%, respectively), even though the two drugs caused equal increases in phosphorylase a activity. Introduction of muscle phosphorylase into hepatocytes therefore confers a capacity for glycogenolytic response to effectors that is not provided by the endogenous liver phosphorylase isozyme. The remarkable efficiency of adenovirus-mediated gene transfer into primary hepatocytes and the demonstration of altered regulation of glycogen metabolism as a consequence of expression of a non-cognate phosphorylase isozyme may have implications for gene therapy of glycogen storage diseases.
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PMID:Adenovirus-mediated transfer of the muscle glycogen phosphorylase gene into hepatocytes confers altered regulation of glycogen metabolism. 133 82

In teleosts, lungfish, amphibians, and a reptile, Amphibolurus nuchalis, hormonal stimulation of hepatic glycogenolysis is mediated by a rise in intracellular cyclic AMP concentration. In mammals, by contrast, the inositol trisphosphate/Ca2+/diacylglycerol signal transduction pathways are also involved. The present study describes the hormonal regulation of hepatic glycogenolysis in adult long-necked turtles, Chelodina longicollis, and hatchlings of the loggerhead turtle, Caretta caretta. Adrenaline and glucagon, but not neurohypophysial peptides, stimulated glycogenolysis, glycogen phosphorylase activity, and accumulation of cAMP in cultured liver pieces from either C. longicollis or C. caretta. The actions of adrenaline were blocked by a beta-adrenergic antagonist, propranolol, but were unaffected by an alpha-adrenergic antagonist, phentolamine. The effects of adrenaline were maintained in Ca(2+)-free medium containing EGTA, and were not mimicked by the Ca2+ ionophore, A23187. The beta-adrenergic ligand, [125I]iodocyanopindolol (ICP), specifically bound to membranes prepared from C. longicollis liver, with a calculated KD of 59 pM and a Bmax of 171 fmol/mg protein. The adrenergic ligands, propranolol, isoprenaline, adrenaline, phenylephrine, phenoxybenzamine, noradrenaline, and phentolamine displaced ICP with KD's of 50 nM, 5 microM, 22 microM, 140 microM, 180 microM, 250 microM, and 1 mM, respectively. The alpha-adrenergic ligands, prazosin and yohimbine, did not bind specifically to the membranes, although prazosin did bind to membranes prepared similarly from rat liver. Thus the glycogenolytic actions of adrenaline are mediated via beta-adrenergic receptors in liver from C. longicollis and C. caretta and alpha-adrenergic receptors may play no role in the control of hepatic metabolism in these chelonians.
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PMID:Hormones regulating hepatic glycogenolysis in two chelonians use cyclic AMP, and not Ca2+, as intracellular messenger. 138 60

1. Extracellular UTP and ATP show obvious similarities in their control of several metabolic functions of rat isolated hepatocytes. 2. They have a similar time-course and concentration-dependency for the activation of glycogen phosphorylase, the generation of inositol trisphosphate (IP3), the inhibition of glycogen synthase and the lowering of adenosine 3':5'-cyclic monophosphate (cyclic AMP) levels. 3. There is a similar synergism of the nucleotides with glucagon in activating phosphorylase. 4. They undergo a similar inhibition by phorbol myristic acid of their glycogenolytic effect. 5. The ATP and UTP effect on IP3 levels are not additive. 6. It is tentatively concluded that UTP and ATP use a common receptor.
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PMID:Extracellular ATP and UTP exert similar effects on rat isolated hepatocytes. 155 36

To determine whether specific hormonal responses were involved in the production of cryoprotectant (glucose) by liver of the freeze tolerant wood frog, Rana sylvatica, metabolically active hepatocytes were isolated in reasonable yields (mean 20.1 +/- 1.30% SEM, n = 29) by in situ liver perfusion with collagenase. Freshly isolated cells from autumn-collected frogs contained large amounts of glycogen (650 mumol glucosyl units/g packed cells) and produced glucose from this endogenous reserve at a rate of 10 mumol g-1 hr-1 at 0 degrees. Glucose output from cells was highly responsive to the addition of hormones; rates of glucose release increased 2.1-, 1.7-, and 1.7-fold with the addition of 10(-7) M bovine glucagon, 10(-7) M epinephrine, and 5 x 10(-6) M dibutyryl-cyclic AMP, respectively. Norepinephrine, 5-hydroxytryptamine, and bovine insulin were without effect at 0.1 microM/l. Hormone stimulation of glucose release was correlated with an increase in both the total activity and the percentage a of glycogen phosphorylase in hepatocytes. However, none of the hormones tested affected the kinetic properties of hepatocyte pyruvate kinase, suggesting the absence of covalent modification control of the enzyme. The data indicate that the freezing-stimulated production of large quantities of glucose as a cryoprotectant by R. sylvatica liver does not involve qualitative differences in the hormonal control of liver glycogenolysis, compared with other lower vertebrates. However, quantitative differences were seen, such as the much greater phosphorylase activity, 4.38 +/- 0.33 mumol min-1 g-1 packed cells, in freshly isolated R. sylvatica hepatocytes compared with 0.36 +/- 0.06 mumol min-1 g-1 in Rana pipiens hepatocytes.
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PMID:Hormonal effects on glycogen metabolism in isolated hepatocytes of a freeze-tolerant frog. 162 97

The contribution of hormone-stimulated glycogenolysis to hepatic glucose production was studied in hepatocytes from streptozotocin diabetic rats. To this end, the activation of glycogen phosphorylase by glucagon, vasopressin, and the alpha 1-adrenergic agonist phenylephrine was compared in hepatocytes from normal and diabetic rats and related to glycogen content, glucose production, and microsomal glucose-6-phosphatase activity. Streptozotocin-induced diabetes reduced the glycogen content and the amount of total (a + b) phosphorylase in hepatocytes proportionally to the severity of the disease. In cells from severely diabetic rats (group 1), the responsiveness of activation of phosphorylase to the hormones was reduced by about half, consistent with a 45% reduction in total phosphorylase. In addition, the sensitivity of phosphorylase activation to all hormones investigated was decreased by about 1 order of magnitude or more in cells of this group. In hepatocytes from rats with milder diabetes (group 2), maximal phosphorylase activation reached an intermediate value between that of the control group and of group 1. In response to all hormones investigated, group 2 diabetic rat hepatocytes produced less glucose than control rat liver cells, while in group 1 there was no increase in glucose production at all, presumably because glycogen concentration was too low. However, in group 2 diabetic rat hepatocytes, glucagon-stimulated glucose production, unlike phosphorylase activation, did not show decrease sensitivity, presumably because glucose-6-phosphatase activity is increased by diabetes. Our results thus indicate that hormone-stimulated liver glycogenolysis is unlikely to contribute to enhanced glucose production in insulin-deficient diabetes, despite increased glucose-6-phosphatase activity.
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PMID:Hormone-stimulated glucose production from glycogen in hepatocytes from streptozotocin diabetic rats. 165 43

1. In several tissues, 2-methylthio adenosine triphosphate (2MeSATP) is a very potent P2y-purine agonist. In rat hepatocytes, 2MeSATP half-maximally activated glycogen phosphorylase at 20 nM and was therefore about 25 times more effective than ATP (Ka 0.5-0.8 microM). This strong glycogenolytic potency of 2MeSATP suggests on its own the presence of P2Y-purinoceptors in liver. 2. Displacement of the radioligand ATP alpha[35S] from its receptor however occurred at much higher concentrations of 2MeSATP than was anticipated on the basis of its glycogenolytic potency. 3. The interaction of 2MeSATP with the receptor, characterized with ATP alpha[35S] as radioligand, cannot be considered as a pure competitive interaction. 4. 2MeSATP did not share the ability of ATP to counteract the effect of glucagon on the adenosine 3':5'-cyclic monophosphate levels. 5. 2MeSATP barely increased the levels of inositol trisphosphate (IP3). 6. The glycogenolytic effect of 2MeSATP was completely abolished by pretreatment of the hepatocytes with phorbol myristic acetate. 7. It is tentatively concluded that 2MeSATP and ATP are interacting with different P2 purinoceptors.
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PMID:Characterization of the biological effects of 2-methylthio-ATP on rat hepatocytes: clear-cut differences with ATP. 179 99

1. Plasma levels of insulin, glucagon, and glucagon-like peptide (Glp) were all reduced by starvation of salmon and cod. In the salmon the drop in Glp was larger than in insulin and glucagon. 2. After starvation the activity of hexokinase (EC 2.7.1.1) was increased in salmon liver, but decreased in cod liver. The salmon hepatic hexokinase activity was inversely correlated with the Glp/insulin ratio. 3. Activities of hepatic glycogen phosphorylase (EC 2.4.1.1) and phosphofructokinase (EC 2.7.1.11) were increased in starved as compared to fed salmon. In cod, starvation resulted in decreased or unchanged activity of phosphorylase. This discrepancy may be related to different degrees of environmental and handling stress. 4. Intraperitoneal injection of human insulin in salmon gave increased hepatic phosphorylase and hexokinase activities and reduced plasma levels of glucagon, Glp and endogenous fish insulin at sampling after 30 hr. 5. No differences in hepatic hexokinase activities or plasma hormone levels were observed between cod fed low and high carbohydrate diets. Apparently, regulation of glucose phosphorylation by dietary carbohydrate does not occur.
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PMID:Insulin and glucagon family peptides in relation to activities of hepatic hexokinase and other enzymes in fed and starved Atlantic salmon (Salmo salar) and cod (Gadus morhua). 181 75

The simultaneous addition of epinephrine and salmon glucagon to catfish (Ictalurus melas) and trout (Salmo gairdneri) hepatocytes did not induce greater increases in glycogen phosphorylase a activity and in glucose release than those caused by epinephrine alone. The effects of epinephrine are greater than those of glucagon. Propranolol added to the hormonal pool blocked the epinephrine effects. In trout cells, epinephrine and glucagon-like peptide (GLP) had similar effects and when they were added simultaneously the stimulation of metabolic indices was higher compared to that obtained with either epinephrine or GLP. However, the effects were not additive. In the presence of epinephrine plus GLP the inhibitory effect of propranolol was not evident, due to the effect induced by GLP, on which propranolol was not effective. This may indicate that epinephrine masks the GLP effect. Results could mean that epinephrine and glucagon-family peptides act in catfish and trout hepatocytes through different receptors on the same pathway leading to glycogen phosphorylase a activation.
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PMID:Interaction of salmon glucagon, glucagon-like peptide, and epinephrine in the stimulation of phosphorylase a activity in fish isolated hepatocytes. 187 82

Liver glycogen content decreased in golden hamsters experimentally infected with plerocercoids of Spirometra erinacei. The activity of glycogen synthase a decreased significantly in infected animals, whereas that of glycogen phosphorylase a was not significantly affected. These observations suggest that changes in glycogen content were not attributable to increased glycogenolysis, but rather resulted from suppressed glycogenesis. Plasma immunoreactive insulin (IRI) concentrations in infected animals were slightly lower than those in controls, but the differences were not statistically significant. Plasma glucagon concentrations were significantly higher in infected animals. These results suggest that the suppression of glycogen synthase activity in S. erinacei-infected hamsters was attributable to enhanced levels of glucagon and that enhanced secretion of glucagon was caused by parasite-induced hypoglycemia.
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PMID:Decrease of liver glycogen content in golden hamsters infected with plerocercoids of Spirometra erinacei. 190 43

The mechanisms through which Ca2+ mobilization in rat hepatocytes results in the loss of total activity of 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase [Zammit & Caldwell (1990) Biochem. J. 269, 373-379] were investigated. The loss of total activity was shown to be paralleled by an equal loss of immunoreactive HMG-CoA reductase protein after exposure of hepatocytes to optimal concentrations of vasopressin plus glucagon for 40 min. This loss of enzyme protein was due to an inhibition of enzyme synthesis; the rate of degradation was unaffected. Other Ca(2+)-mobilizing conditions (phenylephrine, glucagon, vasopressin added singly and A23187) also resulted in graded inhibition of synthesis of HMG-CoA reductase. These effects were accentuated by omission of Ca2+ from the cell incubation medium, suggesting that it is the depletion of an intracellular InsP3-sensitive pool of Ca2+ to which synthesis of HMG-CoA reductase is sensitive. In agreement with this we found that t-butylhydroxybenzoquinone, which inhibits the activity of the Ca(2+)-ATPase of the endoplasmic-reticular membrane, mimicked the action of Ca(2+)-mobilizing hormones. However, taurolithocholate, which transiently mobilizes Ca2+ from the same pool, was ineffective. All these effects on HMG-CoA reductase were accompanied by parallel inhibition of 35S incorporation from [35S]methionine into total protein, suggesting that inhibition of reductase synthesis formed part of a generalized response of the hepatocyte to Ca2+ mobilization. Inhibition of the rate of synthesis of HMG-CoA reductase was, however, more responsive to Ca2+ mobilization in the absence of added Ca2+ from the extracellular medium. The concentrations of vasopressin required to elicit the inhibition of synthesis of HMG-CoA reductase were of the same order as those that elicited activation of glycogen phosphorylase in hepatocytes.
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PMID:Rapid decrease in the expression of 3-hydroxy-3-methylglutaryl-CoA reductase protein owing to inhibition of its rate of synthesis after Ca2+ mobilization in rat hepatocytes. Inability of taurolithocholate to mimic the effect. 195 35


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