UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The delta6 desaturation of unsaturated acyl-CoA is the first reaction involved in the normal biosynthesis of all polyunsaturated fatty acids families in animal microsomes. Due to this key position it can regulate the biosynthesis of the fatty acids of the series. The reaction is modified by competition with substrates and products, ATP, and acyl-CoA acceptors. Dietary glucose and fructose inhibit the enzyme whereas protein diets and essential fatty acid deficient diets enhance the reaction independently of hormonal effects. The enzyme is sensitive to hormones concentration. Insulin enhance the reaction but the effect is eliminated by protein synthesis inhibition. Hyperglucemic hormones as glucagon, and epinephrine depress the activity of the delta6 desaturase by reactions triggers by an increase of cAMP concentration. The lateral relation of linoleic or alpha-linolenic microsomal elongation is insensitive to insulin, glucagon, epinephrine and protein. All these effects have been proved by either in vivo experiments or cell culture using linoleic or alpha-linolenic acids as substrates.
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PMID:Regulatory function of delta6 desaturate -- key enzyme of polyunsaturated fatty acid synthesis. 20 Jan 15

1. The administration of glucagon or N6O2'-dibutyryl cyclic AMP to fed rats by intraperitoneal injection was associated with a 2-fold increase in the amounts of endogenous Pi and ATP, and an increase in the rate and extent of transport of exogenous Pi (measured in either the presence or the absence of Ca2+) in mitochondria subsequently isolated from the liver. No change was observed in either the maximum rate of transport of exogenous Pi or in the rate of 32Pi exchange. 2. The changes induced by glucagon and dibutyryl cyclic AMP were markedly decreased by the co-administration of cycloheximide. 3. The administration of insulin to rats resulted in an increase of about 1.3-fold in the concentration of endogenous mitochondrial Pi 4. The amounts of endogenous Pi in mitochondrial isolated from the livers of starved rats were 3 times those in mitochondria isolated from fed animals. 5. It is concluded that the liver mitochondrial phosphatetransport system may be an important site of hormone action. 6. In the course of these experiments, it was shown that Ca2+ markedly stimulates mitochondrial phosphate transports.
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PMID:Effects of hormones and N6O2'-dibutyryl-adenosine 3' :5'-cyclic monophosphate, administered in vivo, on phosphate transport and metabolism in isolated rat liver mitochondria. 21 Jul 63

In perfused livers of rats fasted for 24 h, glucagon (5 x 10(-10) M) significantly elevated tissue and perfusate levels of cyclic AMP and caused a twofold increase in glucose formation from lactate. Chlorpropamide (0.8 x 10(-3) M) consistently blocked these effects. Measurements of metabolic intermediates suggest that chlorpropamide may inhibit gluconeogenesis by antagonizing the action of glucagon on the phosphoenolpyruvate cycle. In the experiments described, chlorpropamide did not lower hepatic ATP concentration or energy charge, and exerted its effects at perfusate concentrations comparable to serum concentrations reported in patients on maintenance doses of the drug.
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PMID:Hepatic effects of chlorpropamide: inhibition of glucagon-stimulated gluconeogenesis in perfused livers of fasted rats. 22 Dec 98

The effect of glucagon on the phosphorylation and the enzymic activity of phosphofructokinase in rat liver in vivo was investigated. Glucagon stimulated the phosphorylation of liver phosphofructokinase approximately 3- to 5-fold and increased cAMP levels 5-fold and blood glucose levels 2-fold over the values obtained for control animals. The specific radioactivity of ATP isolated from liver was the same in both control and hormone-treated animals. During the purification of the 32P-labeled enzyme from both animals, no difference was observed in the total or specific enzyme activities of the enzymes from the various fractions. Thus, phosphofructokinase appears to be phosphorylated in vivo by a cyclic AMP-dependent protein kinase. Although phosphorylation does not affect the maximum catalytic activity of the enzyme, it does render the enzyme significantly more sensitive to ATP inhibition. Thus, at a given concentration of ATP, the phosphorylated phosphofructokinase exhibits considerably lower activity than the unphosphorylated enzyme. The possible relationship between our observations and glucagon-mediated control of glycolysis is discussed.
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PMID:Hormone-stimulated phosphorylation of liver phosphofructokinase in vivo. 22 73

In rat liver plasma membranes preactivated with guanosine 5'-[beta,gamma-imido[triphosphate (GuoPP[NH]P), GDP promoted coupling of occupied glucagon receptor to adenylyl cyclase [adenylate cyclase; ATP, pyrophosphate-lyase (cyclizing), EC 4.6.1.1] with an apparent association constant Ka of 0.1-0.15 microM. The apparent Ka for the same effect of GTP was 0.2 microM. The effect of GDP was shown not to be due to GTP formed by putative transphosphorylation reaction(s) when ATP was present in the assay as substrate. In membranes not preactivated with GuoPP[NH]P, GDP both competitively inhibited GuoPP[NH]P stimulation of adenylyl cyclase (Ki 0.10 microM) and supported stimulation of cyclizing activity (apparent Ka 0.10 microM) by glucagon. These effects of GDP occurred in the absence of added GTP and in the absence of sufficient formation of GTP by putative transphosphorylation reaction(s) to account for them. It is concluded that two levels of regulation of liver adenylyl cyclase (cyclizing) activity must exit. One level is termed "receptor regulation"; it depends on occupancy of a receptor-related R site by nucleotide and is specific for either GDP or GTP. The second level of regulation is termed "GTPase regulation"; it is inhibited by GDP, depends on both GTP and GTPase, and accounts for activation of cyclizing activity by nonhydrolyzable analogs of GTP. The data suggest that both levels of regulation coexist and may synergize, one mediating responses to stimuli external to the cell (receptor regulation) and the other mediating stimuli of intracellular origin (GTPase regulation).
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PMID:Coupling of the glucagon receptor to adenylyl cyclase by GDP: evidence for two levels of regulation of adenylyl cyclase. 22 58

The kinetic characteristics of substrate utilization by hepatic adenylate cyclase were investigated under a variety of incubation conditions, including veriations in pH, [substrate], [Mg2+], and in the absence or presence of glucagon. Activities were compared with ATP and 5'-adenylylimidodiphosphate (App(NH)p) as substrates. The Km for both substrates was about 50 muM; Vmax given with App(NH)p was about 40% lower than obtained with ATP as substrate. In the presence of a saturating concentration of substrate (1 mM), basal activity was increased 4-fold by increasing [Mg2+] from 5 to 50 mM. The stimulatory effect of Mg2+ was not due to an allosteric action since basal activity was only marginally enhanced (40%) when the substrate concentration was reduced to 10 muM. As suggested by deHaen ((1974 J. Biol. Chem. 249, 2756), it is likely that Mg2+ increases enzyme activity by decreasing the concentration of an inhibitory, unchelated form of substrate that competes with the productive magnesium-substrate complex at the active site. Activity-pH profiles differed with ATP and App(NH)p as substrates; a shift in pH optimum was observed which correlated with the different pKa of the terminal phosphate groups of ATP and App(nh)p, and which reflect the concentration of protonated substrate (ATPH-3 minus) present in the incubation medium. Accordingly, protonated substrate is the predominant inhibitory species of unchelated substrate and probably has a considerably higher affinity for the active site than does the magnesium-substrate complex. Glucagon-stimulated activity was less susceptible to inhibition by protonated substrate than is the basal state as evidenced by lower stimulatory effect when the [Mg2+] was increased from 5 to 20 mM. However, increasing the [Mg2+] from 20 to 50 mM resulted in marked inhibition of glucagon-stimulated activity, particularly in the presence of 10 muM substrate. Conversely, at a fixed [Mg2+], concentrations of substrate at least 20-fold higher than the Km were required to achieve maximal hormone-stimulated activity. These findings suggest that the unchelated, fully ionized form of substrate serves as an activating ligand, as has been observed with guanine nucleotides at considerably lower concentrations. Thus, Mg2+ affects adenylate cyclase activity by forming the productive substrate complex and by titrating the inhibitory protonated and activating free forms of substrate. As a result of these effects of unchelated substrate, it proved difficult to evaluate the kinetic parameters involved in substrate binding and utilization and the effects of hormone thereon when substrate was added as the only source of activating ligand. However, linear Michaelis kinetic data were obtained by adding the activating ligand 5'-guanylylimidodiphosphate with glucagon and by making appropriate adjustments of pH and [Mg2+]. Vmax was increased 4-fold without changes in Km by the actions of 5'-guanylylimidodiphosphate and glucagon.
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PMID:The hepatic adenylate cyclase system. II. Substrate binding and utilization and the effects of magnesium ion and pH. 23 15

1. The distribution of the hydrolyses of phosphatidylcholine by phospholipase A2 and phospholipase A1, and the hydrolysis of lysophosphatidylcholine by lysophospholipase, in subcellular and subsynaptosomal fractions of cerebral cortices of guinea-pig brain, was determined. 2. Noradrenaline stimulated hydrolysis by phospholipase A2 in whole synaptosomes, synaptic membranes and fractions containing synaptic vesicles. 3. Stimulation of hydrolysis by phospholipase A2 in synaptic membranes by noradrenaline was enhanced by CaCl2, and by a mixture of ATP and MgCl2. The optimum concentration of CaCl2, in the presence of ATP and MgCl2, for stimulation by 10 muM-noradrenaline was in the range 1-10muM. The optimum concentration for ATP-2MgCl2 in the presence of 1 muM-CaCl2 was in the range 0.1-1mM. 4. Hydrolysis by phospholipase A2 of synaptic membranes was also stimulated by acetylcholine, carbamoylcholine, 5-hydroxytryptamine, dopamine (3,4-dihydroxyphenethylamine), histamine, psi-aminobutyric acid, glutamic acid and aspartic acid. With appropriate concentrations of cofactors, sigmoidal dose-response curves were obtained, half-maximum stimulations being obtained with concentrations of stimulant in the range 0.1-1muM. 5. Taurine also stimulated hydrolysis of phosphatidylcholine by phospholipase A2. There were only slight stimulations with methylamine, ethylenediamine or spermidine. No stimulation was obtained with glucagon.
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PMID:The stimulation by transmitter substances and putative transmitter substances of the net activity of phospholipase A2 of synaptic membranes of cortex of guinea-pig brain. 19 82

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

Acute glucagon treatment of intact rats has been found to cause a stimulation of hepatic mitochondrial respiration as measured by monitoring oxygen uptake polarographically. Rates of State 3 respiration with several NAD-linked substrates and succinate were increased significantly after hormonal treatment and isolation of mitochondria. This stimulation cannot be ascribed to a partial uncoupling effect since State 4 respiration as measured by monitoring oxygen uptake polarographically. Rates of State 3 respiration with either slightly increased or unchanged. Furthermore, rates of uncoupled respiration with these substrates were also stimulated after hormonal treatment. On the other hand, respiratory rates (State 3, 4, and uncoupled) with ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine as substrate were unaffected by glucagon treatment. The hormonally stimulated rates of respiration produced a corresponding increase in the rate of generation of high energy state as indicated in measurements of Ca2+ uptake by isolated mitochondria. Rates of Ca2+ uptake were monitored by two methods: measurement of initial rates of proton ejection following CaCl2 additions and measurement of disappearance of Ca2+ from the suspension medium using murexide as indicator in a dual wavelength spectrophotometer. A significant stimulation in the initial rate of succinate-dependent Ca2+ uptake was noted after glucagon treatment of animals and isolation of hepatic mitochondria. No effect of the hormonal treatment was seen on the extent of Ca2+ uptake or the stoichiometry of H+ ejected per Ca2+ taken up. That the hormonal effect on Ca2+ transport is at the level of the substrate-induced generation of high energy state is indicated by the observation that no effect of glucagon treatment is seen on ATP-dependent Ca2+ uptake. Glucagon-induced changes in the activities of substrate-metabolizing enzymes are considered unlikely for the following reasons: (a) previously published data showed a lack of a hormonal effect on pyruvate-metabolizing enzymes and (b) data in this study showing no effect of glucagon treatment on the activity of NAD-malate dehydrogenase as measured in mitochondrial lysates. All of these observations are consistent with either an activation of mitochondrial substrate transport and/or a stimulation of mitochondrial electron transport by glucagon treatment. Regardless of the exact mechanism involved, the effect of the hormonal treatment is to produce an increase in ATP synthetic and ion-pumping capability during a period of increased energy demand, i.e. increased gluconeogenesis.
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PMID:Glucagon stimulation of mitochondrial respiration. 24 Aug 44

Experiments were performed on a particulate fraction from human parathyroid glands. A high activity of adenylate cyclase was detected which was linear with time and protein concentration. The enzyme had an optimum pH in the range of 7-8 and a Km for ATP of 0.44 X 10(-3) M. Ca++ had a profound inhibitory effect; a concentration of 0.5 mM Ca++ reduced enzyme activity by 60%. Maximal enzyme activity was obtained with 5 mM Mg++; higher concentrations of this cation also inhibited enzyme activity. The effect of Mn++ was similar to that of Mg++. Enzyme activity was stimulated by NaF, catecholamines, glucagon, and calcitonin. The effect of catecholamines seems to be mediated through beta-adrenergic receptors.
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PMID:Adenylate cyclase of human parathyroid gland. 26 99

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