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 inhibition of hepatocyte 6-phosphofructo-1-kinase by glucagon was suppressed by insulin when the enzyme was measured in crude extracts. However, no effect of either hormone was observed after the removal of allosteric effectors from the enzyme, suggesting that the alterations in activity may be due to changes in the level of fructose 2,6-bisphosphate, a potent allosteric activator of the enzyme. Insulin opposed the action of both glucagon and exogenous cyclic AMP to lower fructose 2,6-bisphosphate levels. The concentration of glucagon and of cyclic AMP that gave a half-maximal decrease in fructose 2,6-bisphosphate levels was increased in the presence of 10 nM insulin from 0.03 to 0.09 nM and from 12 to 36 microM, respectively. Insulin also counteracted the effect of maximal concentrations of epinephrine on fructose 2,6-bisphosphate levels. In the presence of 0.02 nM glucagon or 10 microM epinephrine, 10 nM insulin enhanced 6-phosphofructo-2-kinase and decreased fructose 2,6-bisphosphatase activity in (NH4)2SO4-treated hepatocyte extracts. The bifunctional enzyme 6-phosphofructo-2-kinase/fructose 2,6-bisphosphatase was shown to be a substrate for the cAMP-dependent protein kinase but not for phosphorylase kinase. It was concluded that insulin opposed the action of glucagon and epinephrine by affecting the phosphorylation state of 6-phosphofructo-2-kinase/fructose 2,6-bisphosphatase. Fructose 2,6-bisphosphate levels were decreased in liver cells from diabetic rats. Addition of 30 mM glucose elevated fructose 2,6-bisphosphate levels in cells from fed and 24-h-starved rats but not in cells from diabetic rats. This was probably due to decreases in both 6-phosphofructo-2-kinase and glucokinase activity in the diabetic state. These results show that insulin has both short and long term effects on fructose 2,6-bisphosphate metabolism in liver.
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PMID:The action of insulin on hepatic fructose 2,6-bisphosphate metabolism. 629 99

A hypersensitivity of glycogen phosphorylase activation by epinephrine and glucagon has been demonstrated in isolated perfused working and non-working hearts from diabetic rats. Accumulation of tissue cAMP and activation of cAMP-dependent protein kinase in response to epinephrine and glucagon were no greater and usually less in hearts of diabetic than of normal rats. Insulin deficiency was not associated with greater changes in epinephrine-induced activation of glycogen phosphorylase kinase than that observed in normal hearts. Perfusion of hearts with subphysiological concentrations of calcium (0.83 mM) partially reversed the diabetes-related hypersensitivity of phosphorylase activation by epinephrine. The phosphorylase activation hypersensitivity to epinephrine was completely reversed by adrenalectomizing diabetic rats 5 days before heart perfusion, an effect potentially caused by steroid-induced changes in cardiac calcium metabolism. These data are consistent with the hypothesis that phosphorylase activation by phosphorylase kinase is allosterically increased in the diabetic due to a diabetes-related increase in free intracellular calcium concentrations.
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PMID:Phosphorylase activation hypersensitivity in hearts of diabetic rats. 632 Jun 71

Isolated rat hepatocytes were incubated in a medium containing 0.1 mM [32P]phosphate (0.1 mCi/ml) before exposure to epinephrine, glucagon or vasopressin. 32P-labeled glycogen synthase was purified from extracts of control or hormone-treated cells by the use of specific antibodies raised to rabbit skeletal muscle glycogen synthase. Analysis of the immunoprecipitates by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that a single 32P-labeled polypeptide, apparent Mr 88000, was removed specifically by the antibodies and corresponded to glycogen synthase. Similar electrophoretic analysis of CNBr fragments prepared from the immunoprecipitate revealed that 32P was distributed between two fragments, of apparent Mr 14000 (CB-1) and 28000 (CB-2). Epinephrine, vasopressin or glucagon increased the 32P content of the glycogen synthase subunit. CB-2 phosphorylation was increased by all three hormones while CB-1 was most affected by epinephrine and vasopressin. These effects correlated with a decrease in glycogen synthase activity. From studies using rat liver glycogen synthase, purified by conventional methods and phosphorylated in vitro by individual protein kinases, it was found that electrophoretically similar CNBr fragments could be obtained. However, neither cyclic-AMP-dependent protein kinase nor three different Ca2+-dependent enzymes (phosphorylase kinase, calmodulin-dependent protein kinase, and protein kinase C) were effective in phosphorylating CB-2. The protein kinases most effective towards CB-2 were the Ca2+ and cyclic-nucleotide-independent enzymes casein kinase II (PC0.7) and FA/GSK-3. The results demonstrate that rat liver glycogen synthase undergoes multiple phosphorylation in whole cells and that stimulation of cells by glycogenolytic hormones can modify the phosphorylation of at least two distinct sites in the enzyme. The specificity of the hormones, however, cannot be explained simply by the direct action of any known protein kinase dependent on cyclic nucleotide or Ca2+. Therefore, either control of other protein kinases, such as FA/GSK-3, is involved or phosphatase activity is regulated, or both.
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PMID:Control of glycogen synthase phosphorylation in isolated rat hepatocytes by epinephrine, vasopressin and glucagon. 643 31

Perfusion of normal rat livers under anoxic conditions or the addition of KCN to aerobic perfusions activated phosphorylase and stimulated glycogen breakdown and glucose output. Livers from rats with a deficiency of liver phosphorylase kinase (gsd/gsd) showed a much smaller activation of phosphorylase with anoxia or KCN and produced glucose at about half the rate of normal livers. The increase in phosphorylase a in gsd/gsd livers was insufficient to account for the increase in glucose output. The addition of KCN to normal hepatocytes, activated phosphorylase and stimulated glucose output almost as effectively as glucagon. Hepatocytes from gsd/gsd rats showed only a very small increase in phosphorylase a on the addition of KCN, and glucose output did not increase. We conclude that in the perfused liver, anoxia and KCN stimulate glycogen breakdown and glucose output, at least in part, by a mechanism that does not involve conversion of phosphorylase b to phosphorylase a. In isolated hepatocytes KCN stimulates glucose output only by increasing the content of phosphorylase a.
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PMID:The action of anoxia and cyanide on glycogen breakdown in the liver of the gsd/gsd rat. 649 46

The hormonal regulation of L-type pyruvate kinase in hepatocytes from phosphorylase b kinase-deficient (gsd/gsd) rats was investigated. Adrenaline (10 microM) and glucagon (10 nM) each led to an inactivation and phosphorylation of pyruvate kinase. Dose-response curves for adrenaline-mediated inactivation of pyruvate kinase, phosphorylation of pyruvate kinase and the stimulation of gluconeogenesis from 1.8 mM-lactate were similar for hepatocytes from control and gsd/gsd rats. Time-course studies indicated that adrenaline-mediated inactivation and phosphorylation of pyruvate kinase proceeded more slowly in phosphorylase kinase-deficient hepatocytes than in control hepatocytes. The age-dependent change in the adrenergic control of pyruvate kinase was similar between control and phosphorylase kinase-deficient hepatocytes. Adrenaline, glucagon and noradrenaline activated the cyclic AMP-dependent protein kinase and inhibited pyruvate kinase in phosphorylase kinase-deficient hepatocytes. Vasopressin (0.2-2 nM), angiotensin (10nM) and A23187 (10 microM) had no effect on the activity ratio of the cyclic AMP-dependent protein kinase or pyruvate kinase in these cells. It is concluded that phosphorylase kinase plays no significant role in the hormonal control of pyruvate kinase and that phosphorylation and inactivation of this enzyme results predominantly from the action of the cyclic AMP-dependent protein kinase.
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PMID:Hormonal regulation of L-type pyruvate kinase in hepatocytes from phosphorylase kinase-deficient (gsd/gsd) rats. 652 78

Investigated were 24 cases of glycogenosis caused by a reduction in liver phosphorylase activity. The intravenous glucagon tolerance test could not discriminate between phosphorylase kinase deficiency [glycogen storage disease (GSD) IX] and phosphorylase deficiency (GSD VI). These two subgroups were distinguished by hemolysate enzyme assays: (1) GSD IX was characterized by a residual phosphorylase kinase activity, a low activation curve for endogenous phosphorylase b and increased amylo-1,6-glucosidase activity. (2) GSD VI was characterized by a normal or increased phosphorylase kinase activity, a slight activation of endogenous phosphorylase b and a normal amylo-1,6-glucosidase activity.
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PMID:Liver glycogenosis caused by a defective phosphorylase system: hemolysate analysis. 678 54

Vasopressin, phenylephrine, and A23187 cause an accumulation of fructose 2,6-bisphosphate in hepatocytes from fed rats, but not in Ca2+-depleted hepatocytes from fed rats or in phosphorylase kinase-deficient hepatocytes from (gsd/gsd) rats. The effect of vasopressin and phenylephrine is not found in hepatocytes from overnight-starved rats. Thus, the accumulation of fructose 2,6-bisphosphate by these agents may depend on the stimulation of glycogenolysis and on the resulting accumulation of hexose 6-phosphate. In support of this hypothesis, conditions are described for the enzymatic synthesis of fructose 2,6-bisphosphate from fructose 6-phosphate and Mg-ATP in liver extracts. Half-maximal activity (0.8 nmol/min.g) is obtained with about 60 microM fructose 6-phosphate, and the activity can be separated fom phosphofructokinase by ammonium sulfate fractionation. Treatment of rats or isolated hepatocytes with glucagon results in a 4-5-fold decrease in the maximal activity of this enzyme.
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PMID:Fructose 2,6-bisphosphate. Hormonal regulation and mechanism of its formation in liver. 679 May 47

Rats from an inbred strain (NZR/Mh) were found to have high concentrations of glycogen in their livers, even after 24 h of starvation. Despite this, blood glucose concentrations were well maintained on starvation for up to 72 h. The primary defect is a deficiency of liver phosphorylase kinase, causing a lack of active glycogen phosphorylase, although total phosphorylase is normal. The intravenous injection of glucagon caused a rapid activation of cyclic AMP-dependent protein kinase in the liver, but no increase in either phosphorylase kinase or phosphorylase a activity. Although total glycogen synthase activity in the livers of affected rats was higher than normal, glycogen synthase in the active form was very low, presumably as a result of the high liver glycogen content. The condition is transmitted as autosomal recessive and, apart from hepatomegaly, the affected rats appear healthy.
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PMID:Glycogen-storage disease in rats, a genetically determined deficiency of liver phosphorylase kinase. 693 96

The fasting glucagon test of 40 patients with hepatic glycogen storage disease (type I, 13 patients; type Ib, 5 patients; type III, 12 patients; type IX (phosphorylase kinase deficiency), 10 patients) has been reviewed. In all patients with types Ib and III the blood glucose level rose less than 1 mmol/1 but in types 1 and IX there was wide variation in response. Blood lactate levels were greater than 2.4 mmol/1 in all patients with type I and Ib 120 minutes after the administration of glucagon but were lower than 2.4 mmol/1 in types III and IX. The value of this test for screening was analysed using several criteria. From the data a simplified scheme for the investigation of patients with suspected hepatic glycogen storage disease is proposed.
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PMID:Value of the glucagon test in screening for hepatic glycogen storage disease. 695 31

Protein kinase activity in incubated liver slices from 35 degrees C heat-acclimated (HA) hamsters was 70% higher than in similar slices from 23 degrees C control (C) hamsters. Adding glucagon to the incubation medium increased protein kinase activity by 65% in slices from C animals, but by only 30% in slices from HA animals. Binding of [3H]cAMP to proteins of a low-speed supernatant fraction of incubated and homogenized slices was 30% lower for HA than for C hamsters. For each acclimation group this binding was reduced 30% by incubation of the slices with glucagon. The activities of phosphorylase kinase, phosphorylase phosphatase, and phosphorylase alpha in slices incubated with or without glucagon did not differ between groups. Addition of glucagon increased phosphorylase kinase by 30% and phosphorylase alpha by 40% but caused no change in phosphorylase phosphatase activity. These results suggest that heat acclimation of the hamster increases the amount of a species of liver protein kinase that is different from the one that mediates the effect of glucagon on glycogenolysis.
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PMID:Protein kinase activity in liver of heat-acclimated hamsters. 712 94


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