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)

Amino acid transport was studied in freshly isolated adult rat hepatocytes using non-metabolizable alpha-amino-1-[14C] isobutyric acid and 1-aminocyclopentane-1-[14C] carboxylic acid. In the presence of sodium, hepatocytes concentrated alpha-aminoisobutyric acid; this concentrative component of the transport had properties similar to transport system A. The sodium-independent transport of aminocyclopentane carboxylic acid had properties similar to transport system L (facilitated diffusion). Glucagon stimulated the influx of alpha-aminoisobutyric acid into hepatocytes. The glucagon effect (a) occurred rapidly, but its full expression required two hours of exposure of the cells to hormone; (b) involved new protein (and possibly RNA) synthesis; and (c) occurred at low concentrations of glucagon (50% effect with 0.4 nm). Glucagon stimulated only system A. Cyclic AMP also stimulated the transport of alpha-aminoisobutyric acid. Freshly isolated hepatocytes appear conveniently suited to the investigation of various aspects of the regulation of liver amino acid transport in normal and pathophysiological states.
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PMID:Amino acid transport in isolated hepatocytes: effect of glucagon. 20 95

Adenylate cyclase activity was detected in plasma membranes, Golgi apparatus, and endoplasmic reticulum from rat liver. Adenylate cyclase activities of purified membranes were determined biochemically by two methods. In one, the synthesis of radioactive cyclic AMP from ATalpha32P was monitored. In the other, the synthesis of cyclic AMP was quantitiated using a protein which specifically binds cyclic AMP. The enzyme activity was responsive to activation by both glucagon and sodium fluoride although differences in degree of activation were noted comparing plasma membrane, Golgi apparatus, and endoplasmic reticulum. Cytochemical studies, using both whole tissue and purified cell fractions and conducted in parallel, confirmed the biochemical results. Deposition of lead phosphate, enhanced by glucagon and NaF with samples incubated with appropriate substrates, was not restricted to plasma membranes of hepatocytes but was present in intracellular membranes as well. Adenylate cyclase of rat hepatocytes appears more widely distributed among internal membranes than previously recognized.
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PMID:Distribution of adenylate cyclase among membrane fractions of rat liver. 21 Oct 57

The smooth muscle cell plays an important role in the process of atherogenesis. In these experiments the effect of glucagon and dibutyryl cyclic AMP on sterol synthesis in cultured rat arterial smooth muscle cells was studied. Glucagon in concentrations of 1 X 10(-9) mol/l inhibited the incorporation of sodium (2(-14)C)acetate into non-saponifiable lipids and digitonin precipitable sterols but lower concentrations of glucagon had no effect. In cells which were exposed to serum, dibutyryl cyclic AMP also resulted in a decrease in the incorporation of labelled acetate into sterols but when the cells were grown in serum free medium, dibutyryl cyclic AMP had no inhibitory effect on sterol synthesis. These results provide further evidence that sterol metabolism in arterial smooth cells may be influenced by hormones but suggest that glucagon is relatively less important than insulin in this respect.
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PMID:Relative insensitivity to glucagon of sterol synthesis in cultured rat aortic smooth muscle cells. Effect of dibutyryl cyclic AMP. 21 33

In idiopathic or generalized epilepsy, serum glucose and cholesterol concentrations tend to be low, especially just before the seizure. Glucose tolerance curves are abnormal and variable. The electrolyte balance is disturbed, and epileptics tend to go readily into alkalosis. Serum [Na+] is usually unaffected, but [K+] is normal to low between attacks and increases during and after the seizure. Serum [Cl-] is usually high just before the seizure. Epileptics are generally mildly hypocalcemic, especially in the period before the seizure. Serum urea and nonprotein nitrogen values are low between paroxysms but increase after the seizure. Serum protein concentration is usually normal. Stress, which releases epinephrine and corticotropin, results in high serum citrate concentration, which probably contributes to decreased serum [Ca2+] just before a seizure. In the healthy individual, any increase in serum citrate is accompanied by increasing [Ca2+]. In the rabbit, convulsions can be induced with corticotropin, a result of increased serum citrate concentration coupled with a decrease in [Ca2+]. The net result is severe hypo-ionic-calcemia. A similar phenomenon has been reported in a few humans. Administration of insulin causes serum citrate concentrations to decrease. Apparently, the dynamic system that controls glucose and lipid metabolism, and thus electrolyte balance, through the hormones epinephrine, corticotropin, insulin, glucagon, calcitonin, and parathormone, is abnormal in the epileptic.
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PMID:Clinical biochemistry of epilepsy. I. Nature of the disease and a review of the chemical findings in epilepsy. 22 Nov 36

Angiotensin II, catecholamines, and vasopressin are thought to stimulate hepatic glycogenolysis and gluconeogenesis via a cyclic AMP-independent mechanism that requires calcium ion. The present study explores the possibility that angiotensin II and vasopressin control the activity of regulatory enzymes in carbohydrate metabolism through Ca2+-dependent changes in their state of phosphorylation. Intact hepatocytes labeled with [32P]PO43- were stimulated with angiotensin II, glucagon, or vasopressin and 30 to 33 phosphorylated proteins resolved from the cytoplasmic fraction of the cell by electrophoresis in sodium dodecyl sulfate polyacrylamide slab gels. Treatment of the cells with angiotensin II or vasopressin increased the phosphorylation of 10 to 12 of these cytosolic proteins without causing measurable changes in cyclic AMP-dependent protein kinase activity. Glucagon stimulated the phosphorylation of the same set of 11 to 12 proteins through a marked increase in cyclic AMP-dependent protein kinase activity. The molecular weights of three of the protein bands whose phosphorylation was increased by these hormones correspond to the subunit molecular weights of phosphorylase (Mr = 93,000), glycogen synthase (Mr = 85,000), and pyruvate kinase (Mr = 61,000). Two of these phosphoprotein bands were positively identified as phosphorylase and pyruvate kinase by affinity chromatography and immunoprecipitation, respectively. Incubation of hepatocytes in a Ca2+-free medium completely abolished the effects of angiotensin II and vasopressin on protein phosphorylation but did not alter those of glucagon. Treatment of hepatocytes with angiotensin II, glucagon, or vasopressin stimulated phosphorylase activity by 250 to 260%, inhibited glycogen synthase activity by 50%, and inhibited pyruvate kinase activity by 30 to 35% (peptides) to 70% (glucagon). The effects of angiotensin II and vasopressin on the activity of all three enzymes were completely abolished if the cells were incubated in a Ca2+-free medium while those of glucagon were not altered. The results imply that angiotensin II, catecholamines, and vasopressin control hepatic carbohydrate metabolism through a Ca2+-requiring, cyclic AMP-independent pathway that leads to the phosphorylation of important regulatory enzymes.
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PMID:The role of calcium ion as a mediator of the effects of angiotensin II, catecholamines, and vasopressin on the phosphorylation and activity of enzymes in isolated hepatocytes. 22 57

Non-nucleated red blood cells from rats contain adenyl cyclase, the activity of which is predominantly localized in the reticulocytes. Basal enzyme activities in membrane preparations from reticulocyte-rich blood (pretreatment of rats with acetyl-phenylhydrazide: about 60% reticuloytes) are about 5 times higher than in preparations from reticulocyte-poor blood (untreated animals: 2-3% reticulocytes). The enzyme activities are stimulated 10-fold by sodium fluoride (10(-2)M) and 6 to 8-fold by isoprenaline (10(-4)M). Adenyl cyclase activities in membrane preparations from reticulocyte-rich and reticulocyte-poor blood can be ascribed to identical enzymes since identical apparent Km (ATP; 3 times 10(-4)M, Ka (isoprenaline; 3 times 10(-6)M) and Ki (propranolol vs. isoprenaline; 3 times 10(-7)M) values were obtained in both preparations. Besides NaF, only phenylethanolamine derivatives with beta-adrenergic receptor stimulant properties were effective as stimulators of adenyl cyclase activity. The affinities (apparent Ka values) of the investigated compounds decreased in the order isoprenaline--hexoprenaline--fenoterol--salbutamol--adrenaline--terbutalin--noradrenaline--phenylephrine. For maximal intrinsic activity, the catechol structure was essential; the relative intrinsic activities of resorcinol derivatives did not exceed 0.6. The isoprenaline-stimulated adenyl cyclase activities in erythrocyte membrane preparations were competitively inhibited by beta-adrenergic blocking drugs, the affinities (apparent Ki values) decreasing in the order prindolol--penbutolol--propranolol--practolol. The dextrorotatory enantiomers of penbutolol and propranolol were 1/100 to 1/200 as active as the resp. levorotatory enantiomers. From experiments with alpha-adrenergic agonists (e.g. phenylephrine) and antagonists (e.g. phentolamine), it is concluded that alpha-adrenergic receptors do not interfere with the beta-adrenergically-mediated cAMP formation in these particular membranes. A variety of hormones and drugs known to stimulate denyl cyclase activities in various tissues, e. g. ACTH, glucagon, STH, erythropoietin, prostaglandin E1 etc. did not affect adenyl cyclase activity in reticulocyte-rich erythrocyte membrane preparations. In contrast to adenyl cyclase activity, phosphodiesterase activities in erythrocyte membrane and cytoplasmic fractions were only twice as high in reticulocyte-rich as in reticulocyte-poor preparations. From the experiments described, it is obvious that the adenyl cyclase of the rat reticulocyte is subject to monovalent-hormonal, i.e. beta-sympathomimetic stimulation. Moreover, the premature red blood cell provides a useful model for quantitative studies of the interaction of drugs with the beta-adrenergic receptor.
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PMID:The beta-adrenergic receptor-adenyl-cyclase system of rat reticulocytes: effects of adrenergic stimulants and inhibitors. 24 Jan 35

Two groups of five obese female subjects, having undergone a ten day therapeutic fast, were fed with either glucose 50 g/day or with L-alanine 50 g/day for three days. Plasma glucagon concentrations and urinary electrolyte excretion were compared in the two groups. Although 4.00pm plasma glucagon concentrations during refeeding were significantly greater in the alanine refeed group (P less than 0.05) the reduction in urinary sodium excretion in each of the two groups was identical. These observations do not support the hypothesis that glucose induced suppression of plasma glucagon concentrations is a mechanism whereby carbohydrate refeeding produces post-fast urinary sodium retention.
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PMID:The influence of glucagon on sodium retention after fasting. 27 1

Lithium exerts an inhibitory effect on glucose and amino acid-induced insulin release. The inhibitory effect of Li+ persists even in subsequent Li+-free conditions, indicating an only slowly reversible effect. Lithium fails to inhibit glucagon-induced insulin release. The exact mechanism of the lithium effect is as yet undetermined, but interference with calcium flux and/or microtubular function is an attractive hypothesis. The inhibitory effect of lithium on insulin release cannot be reversed by alteration in ionic (Ca++, Mg++, K+) concentrations in the incubation media. Studies involving the effect of low sodium on insulin release in which lithium had been used as an osmotic replacement for sodium must be carefully reassessed because of these findings.
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PMID:Effect of lithium on pancreatic islet insulin release. 36 19

The role which glucagon could play in the mechanism of fasting natriuresis and renal sodium retention associated with carbohydrate refeeding was studied in thirty-seven non-diabetic obese subjects. In nine obese subjects undergoing a 7 day fast without any additional treatment (control group), the renal sodium excretion exceeded intake through the whole experimental period, with maximal natriuresis on day 2 of the fast. Blood glucose and plasma insulin (IRI) levels fell rapidly from the first day of fast on, while pancreatic glucagon (IRG) titres rose from day 1 to day 4, declining slightly thereafter. When additional subjects received intravenous glucose on day 4 (n = 6), there was a rise in blood glucose concentration and in IRI associated with a rapid drop in IRG restricted to the period of glucose infusion. The resulting antinatriuresis occurred essentially during the following 36 h, while IRG and IRI levels had returned to fasting levels. A comparable glucose load on day 4 associated with 0.1 mg glucagon (n = 5) still led to the glucose-induced antinatriuresis while 1 mg glucagon added to a similar glucose infusion completely abolished its antinatriuretic effect (n = 6). Glucagon infused alone on day 4 of fast aggravated fasting natriuresis (n = 5) but was devoid of this effect when administered 24 h after the glucose load (n = 6). These data indicate that fasting hyperglucagonaemia or its reduction upon glucose refeeding, cannot be considered as directly involved in renal mechanism(s) responsible for fasting natriuresis of antinatriuretic effects of carbohydrate. It is suggested that the role of glucagon is indirect, possibly through its influence on ketogenesis which in turn may alter renal sodium handling.
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PMID:Influence of glucagon on natriuresis and glucose-induced sodium retention in the fasting obese subject. 40 42

The 7- to 10-fold increase in the rat liver serine:pyruvate aminotransferase activity after glucagon administration was shown to occur mainly in the mitochondrial matrix of parenchymal cells. The enzyme was purified from glucagon-treated rat liver mitochondria to apparent homogeneity as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A specific rabbit antibody was prepared against the purified enzyme. Upon Ouchterlony double diffusion analysis, the mitochondrial extracts of glucagon-treated rat liver produced a single and fused precipitin line between the purified enzyme against the antibody. The supernatant fraction of glucagon-treated rat liver and the mitochondrial extracts of normal liver were also shown to make a single and fused precipitin line with the purified enzyme, when applied in large quantities. The quantitative immunotitration demonstrated that the glucagon-induced increase in the activity of liver serine:pyruvate aminotransferase were accompanied by the parallel increase in the amount of the enzyme antigen. Isotopic leucine incorporation studies showed that the relative rate of synthesis of the enzyme was increased approximately 10-fold by glucagon administration under the conditions employed. The rate of the degradation of the aminotransferase in the normal rat liver was a relatively slow process with a half-life of approximately 30 h. Thus the accumulation of serine:pyruvate aminotransferase in rat liver mitochondria by glucagon treatment can be ascribed mainly to the rise in the rate of enzyme synthesis.
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PMID:Immunochemical studies on induction of rat liver mitochondrial serine: pyruvate aminotransferase by glucagon. 41 59


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