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)

Verapamil and diltiazem, calcium channel blockers, inhibited significantly the glucagon-induced glucose output and 45Ca efflux from perfused rat liver at concentrations higher than 50 microM when the perfusate contained calcium. Although the blockers partially interfered with glucagon-induced elevation of cyclic AMP in the tissue, they also inhibited the effects of cyclic AMP. The blockers did not show the inhibitory effects in the absence of perfusate calcium. However, the inhibition of calcium influx into hepatocytes by omission of extracellular calcium or addition of EGTA did not interfere with these effects of glucagon and cyclic AMP. In the presence of extracellular calcium, the blockers did not inhibit cyanide-induced glucose output, indicating that the activity of glycogen phosphorylase and later processes leading to glucose output were not affected by the blockers. These data suggest that, in the presence of calcium, the blockers inhibit the effect of glucagon also at a step (or steps) subsequent to cyclic AMP production and before the activation of phosphorylase b, probably by inhibiting glucagon-induced mobilization of calcium from intracellular calcium pools rather than inhibiting calcium influx into hepatocytes.
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PMID:Inhibition by calcium channel blockers of the glycogenolytic effect of glucagon in perfused rat liver. 628 Apr 34

1. Cytochrome spectra of the liver and heart mitochondria incubated under various conditions are presented to compare the effects of antimycin, colletotrichin and 2-heptyl-4-hydroxyquinoline N-oxide (HQNO) additions. 2. Under aerobic conditions, in State 4, in the presence of uncoupler or in the presence of cyanide, all three inhibitors caused oxidation of cytochromes c and c1, but different changes in the spectra of the b cytochromes. Antimycin caused oxidation of a peak at 558 nm and reduction of peaks at 562 nm and 566 nm, whereas colletotrichin caused reduction of peaks at 558 nm and 566 nm and oxidation at 562 nm. HQNO had an effect on the spectra intermediate between those of the two other inhibitors. 3. Under aerobic conditions in the presence of 5 mM-succinate and 5 mM-fumarate, antimycin caused reduction of a peak at 566 nm and oxidation of a peak at 558 nm, whereas colletotrichin had the reverse effect and HQNO caused reduction of a peak at 562 nm. 4. Colletotrichin inhibition of the ADP-stimulated oxidation of glutamate + malate was enhanced by succinate addition and declined again with rotenone addition. Similar but smaller effects were seen with inhibition by antimycin and HQNO. 5. Cytochrome spectra are shown of the effects of ADP and uncoupler addition to stimulate respiration progressively. 6. The results are interpreted in terms of a modified 'Q cycle' [Mitchell (1976) J. Theor. Biol. 62, 327-367] in which the three inhibitors are postulated to displace ubiquinone and ubisemiquinone specifically bound to cytochromes b on both sides of the membrane. 7. It is suggested that cytochromes b558 and b566 are the same b cytochrome located on the outer surface of the membrane, but binding ubisemiquinone or colletotrichin and ubiquinone or antimycin respectively. Cytochrome b562 is postulated to be on the inner surface of the mitochondrial membrane and to bind either ubiquinone or ubisemiquinone, HQNO would bind to the reduced form of the cytochrome and colletotrichin to the oxidized form. 8. Sites for the locus of action of glucagon and the protonmotive force on electron flow are suggested.
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PMID:The pathway of electron flow through ubiquinol:cytochrome c oxidoreductase in the respiratory chain. Evidence from inhibition studies for a modified 'Q cycle'. 628 19

The Ca2+ content of hepatocytes from juvenile male rats (80-110 g) or adult female rats (135-155 g) displayed a biphasic dose-response curve to epinephrine. Low concentrations (less than or equal to 10(-7) M) caused efflux of Ca2+ from the cells, while higher concentrations (10(-6) M and 10(-5) M) induced net Ca2+ uptake which correlated with a large beta 2-adrenergic-mediated increase in cAMP (Morgan, N. G., Blackmore, P. F., and Exton, J. H. (1983) J. Biol. Chem. 258, 5103-5109). Calcium accumulation could be induced in cells from older male rats (180-230 g) by combining a Ca2+-mobilizing hormone with either exogenous cAMP or glucagon (10(-8) M). Readdition of Ca2+ in the presence of glucagon to cells treated with ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid also resulted in enhanced Ca2+ accumulation compared with controls. Addition of vasopressin plus glucagon to the medium perfusing male rat livers also led to cell Ca2+ accumulation, as evidenced by uptake of Ca2+ from the perfusate. Incubation of hepatocytes with antimycin A, oligomycin, and carbonyl cyanide m-chlorophenylhydrazone prevented net Ca2+ accumulation suggesting that mitochondria play a role in the uptake response. This was confirmed by isolation of mitochondria from cells incubated under conditions which promote Ca2+ accumulation. Within 5 min of incubation, the Ca2+ content of these mitochondria was increased 2-fold relative to controls, an effect which was inhibited by oligomycin. These studies demonstrate that a rise in hepatic cAMP can reverse hormonally induced Ca2+ mobilization and point to a major role for the mitochondria in this effect.
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PMID:Modulation of the alpha 1-adrenergic control of hepatocyte calcium redistribution by increases in cyclic AMP. 630 Jan 15

Addition of glucagon to isolated hepatocytes increased glycogenolysis and phosphorylase a in a proportional manner. KCN caused slightly more glycogenolysis at considerably lower levels of phosphorylase a; the discrepancy was most pronounced after pretreatment of the hepatocytes with EGTA. When incubated with tagatose, the hepatocytes accumulated tagatose 1-phosphate, a presumed inhibitor of phosphorylase a. In these conditions the glucagon-induced glycogenolysis was blocked, but the glycogen loss caused by KCN or anoxia was not affected. Cyanide and anoxia may allow phosphorylase b and a to become equally active, or they may trigger a non-phosphorolytic glycogenolysis.
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PMID:On the mechanism of hepatic glycogenolysis induced by anoxia or cyanide. 662 15

Data from numerous laboratories show that mitochondria isolated from livers treated acutely with glucagon have higher rates of state 3 respiration than control mitochondria. The purpose of the present study was to learn whether this phenomenon is an isolation artifact resulting from a stabilization of the mitochondrial membrane or whether it represents a real increase in the maximal respiratory capacity of liver cells due to glucagon treatment. Electron transport was measured through different spans of the electron transport chain by using ferricyanide as an alternate electron acceptor to O2. With isolated intact liver mitochondria, pretreatment with glucagon was found to cause an increase in electron flow, through both Complex I and Complex III, suggesting that the effect of glucagon was not specific for a single site in the electron transport chain. Using intact isolated hepatocytes, different results are obtained. Respiration was measured in isolated hepatocytes after quantitation of the hepatocyte mitochondrial content by assay of citrate synthase. Hepatocyte respiration could therefore be reported per mg of mitochondrial protein. By providing durohydroquinone to the cells, it was possible to measure electron flow from coenzyme Q to O2 in the absence of the physiological regulation of substrate supply. Likewise, the addition of carbonyl cyanide p-trifluoromethoxyphenylhydrazone released the in situ mitochondria from control by the cytosolic ATP/ADP ratio and it was possible to measure maximal electron flow rates through Complex III. In the presence of carbonyl cyanide p-trifluoromethoxyphenylhydrazone, electron flow was higher in mitochondria in the cell than in isolated mitochondria. Glucagon caused no increase in mitochondrial respiration in situ either in the presence of the physiological substrates or in the presence of durohydroquinone. The data obtained do not support a role for the electron transport chain as a target of glucagon action in hepatocytes.
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PMID:The effect of glucagon on hepatic respiratory capacity. 670 94

The metabolic action of glucagon in the different spaces that can be reached via the hepatic artery in the bivascularly perfused rat liver of fed rats was investigated. When perfusion was performed in the anterograde mode, glucagon (10 mM) was infused either into the portal vein (type 1 experiment) or into the hepatic artery (type 2); in the retrograde mode, the hormone was infused either into the hepatic vein (type 3) or into the hepatic artery (type 4). The aqueous cell spaces were measured by means of the multiple-indicator dilution technique. Glucose release, oxygen uptake and glycolysis (lactate plus pyruvate production) were measured as metabolic parameters. The following results were obtained. (1) The aqueous cell space accessible via the hepatic artery in the type 2 experiment was 0.63 ml/g; in the type 4 experiment this space was 0.18 ml/g (only periportal cells); glucagon up to 10 nM did not affect these cellular spaces nor did it affect the vascular spaces. (2) The effects of glucagon on glucose release, oxygen uptake and glycolysis were practically the same in all types of experiment (1 to 4), i.e., the action of glucagon was not a function of the accessible cell spaces. (3) When the respiratory chain of the liver cells accessible via the hepatic artery in the type 4 experiment was inhibited by cyanide, glucagon still increased oxygen uptake; oxygen uptake stimulation by glucagon was completely blocked only when cyanide was given to all liver cells. (4) Calcium depletion did not affect the action of glucagon on glucose release and oxygen uptake in the type 4 experiment. It was concluded that, in addition to the receptor-elicited response, the action of glucagon can also be propagated by cell-to-cell communication.
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PMID:The action of glucagon infused via the hepatic artery in anterograde and retrograde perfusion of the rat liver is not a function of the accessible cellular spaces. 776 54

The release of glucokinase from digitonin-permeabilized hepatocytes shows different characteristics with respect to ionic strength and [MgCl2] from the release of other cytoplasmic enzymes. Release of glucokinase is most rapid at low ionic strength (300 mM sucrose, 3 mM Hepes) and is inhibited by increasing concentration of KCl [concn. giving half-maximal inhibition (I50) 25 mM] or Mg2+ (I50 0.5 mM). Release of phosphoglucoisomerase, phosphoglucomutase and glucose-6-phosphate dehydrogenase is independent of ionic strength, but shows a small inhibition by MgCl2 (20%, versus > 80% for glucokinase). Lactate dehydrogenase release increases with increasing ionic strength [concn. giving half-maximal activation (A50) 10 mM KCl] or [MgCl2]. The rate and extent of glucokinase release during permeabilization in 300 mM sucrose, 5 mM MgCl2 or in medium with ionic composition resembling cytoplasm (150 mM K+, 50 mM Cl-, 1 mM Mg2+) depends on the substrate concentrations with which the hepatocytes have been preincubated. In hepatocytes pre-cultured with 5 mM glucose the release of glucokinase was much slower than that of other cytoplasmic enzymes measured. However, preincubation with glucose (10-30 mM) or fructose (50 microM-1 mM) markedly increased glucokinase release. This suggests that, in cells maintained in 5 mM glucose, glucokinase is present predominantly in a bound state and this binding is dependent on the presence of Mg2+. The enzyme can be released or translocated from its bound state by an increase in [glucose] (A50 15 mM) or by fructose (A50 50 microM). The effects of glucose and fructose were rapid (t1/2 5 min) and reversible, and were potentiated by insulin and counteracted by glucagon. They were inhibited by cyanide, but not by cytochalasin D, phalloidin or colchicine. Mannose had a glucose-like effect (A50 approximately 15 mM), whereas galactose, 3-O-methyl-D-glucose and 2-deoxyglucose were ineffective. When hepatocytes were incubated with [2-3H, U-14C]glucose, the incorporation of 3H/14C label into glycogen correlated with the extent of glucokinase release. Since 2-3H is lost during conversion of glucose 6-phosphate into fructose 6-phosphate, substrate-induced translocation of glucokinase from a Mg(2+)-dependent binding site to an alternative site might favour the partitioning of glucose 6-phosphate towards glycogen, as opposed to phosphoglucoisomerase.
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PMID:Intracellular binding of glucokinase in hepatocytes and translocation by glucose, fructose and insulin. 828 78

Chrysemys picta bellii is well known for its ability to survive extended anoxic periods and has been widely used as a model system to study anoxic metabolism. Described here is a method for the isolation of anoxia-tolerant hepatocytes from this species. Freshly isolated hepatocytes were determined to be viable based on trypan blue exclusion, gluconeogenic capacity from [14C]lactate, responsiveness to epinephrine and glucagon, and maintenance of cellular adenylate concentrations. Under anoxic conditions for 10 h there was no significant increase in cell staining and no decrease in cellular ATP concentration. Furthermore, the addition of cyanide at the 5-h mark did not result in any significant differences in these parameters; however, iodoacetate added at this time caused trypan blue staining to increase and ATP concentrations to fall. The rate of glucose production from the cells was threefold greater under anoxic than normoxic conditions, underscoring the important role of the liver in supplying substrate during anoxia. From the rate of O2 consumption and rate of lactate production under anaerobic conditions, ATP turnover rates were calculated to be 68.4 +/- 7.2 and 6.5 +/- 0.43 mumol ATP.g-1.h-1, respectively; this corresponds to a 90% decrease in metabolic rate during anoxia. Within a cellular system such as this the more complex regulatory mechanisms involved in a large coordinated reduction in metabolism can be probed.
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PMID:Anoxia-tolerant hepatocytes: model system for study of reversible metabolic suppression. 834 99

The roles of a trimeric GTP-binding regulatory protein, protein kinase A and mitochondria in the regulation of store-activated (thapsigargin-stimulated) Ca2+ inflow in freshly-isolated rat hepatocytes were investigated. Rates of Ca2+ inflow were estimated by measuring the increase in the fluorescence of intracellular fura-2 following the addition of extracellular Ca2+ (Ca2+o) to cells incubated in the absence of added Ca2+o. Guanosine 5'-[gamma-thio]-triphosphate (GTP[S]) and AlF4(-) inhibited the thapsigargin-stimulated Ca2+o-induced increase in cytoplasmic free Ca2+ concentration ([Ca2+]c) and this inhibition was prevented by the Rp diastereoisomer of adenosine 3',5'-(cyclic)phosphoro[thioate]. cAMP, forskolin and glucagon (half-maximal effect at 10 nM) mimicked inhibition of the thapsigargin-stimulated Ca2+o-induced increase in [Ca2+]c by GTP[S], but had little effect on thapsigargin-induced release of Ca2+ from intracellular stores. Azide and carbonyl cyanide p-trifluoromethoxyphenylhydrazone inhibited the thapsigargin-stimulated Ca2+o-induced increase in [Ca2+]c in the presence of increased cAMP (induced by glucagon). In contrast, Ruthenium Red markedly enhanced the thapsigargin-stimulated Ca2+o-induced increase in [Ca2+]c in both the presence and absence of increased cAMP (induced by forskolin and dibutyryl cAMP). It is concluded that, in hepatocytes, protein kinase A regulates the disposition of Ca2+, which enters the cytoplasmic space through store-activated Ca2+ channels, by directing some of this Ca2+ to the mitochondria. The idea that caution should be exercised in using observed values of Ca2+o-induced increase in [Ca2+]c as estimates of rates of agonist-stimulated Ca2+ inflow is briefly discussed.
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PMID:Protein kinase A regulates the disposition of Ca2+ which enters the cytoplasmic space through store-activated Ca2+ channels in rat hepatocytes by diverting inflowing Ca2+ to mitochondria. 949 83

1. Insulin-induced hypoglycemia (IIH) promoted decreased responsiveness of hepatic glycogen catabolism to phenylephrine and isoproterenol, but not to glucagon and cyanide. 2. In addition, glycogen phosphorylase activity and glycogen levels were not affected by IIH. 3. It was concluded that hypoglycemia promoted changes in hepatic responsiveness to adrenergic agonists. 4. However, the ability of the liver to mobilize glycogen was not influenced by hypoglycemia.
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PMID:Responsiveness of glycogen catabolism to adrenergic agonists during insulin-induced hypoglycemia in rat livers. 952 81


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