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

Rat liver mitochondria were incubated at 30 degrees C with 4 mM ATP in a medium similar in electrolyte composition to that of hepatic cytosol. Under these conditions, a net increase in mitochondrial adenine nucleotides was observed that was dependent on the concentration of free Ca2+ [( Ca2+]) in the incubation medium. At 0.2 microM [Ca2+] or less, there was no demonstrable uptake of adenine nucleotides; at 0.4 microM [Ca2+], or greater, net uptake occurred. The calcium-dependent accumulation of nucleotides by mitochondria required Mg2+ in the incubation medium and was insensitive to carboxyatractyloside. The uptake of adenine nucleotides was enhanced by the addition of antimycin A or antimycin A together with oligomycin. Accumulation of nucleotides appeared to be associated with a small increase in mean mitochondrial volume, but the membrane potential was not affected. No uptake or loss of NAD-NADH by mitochondria was detected. Ruthenium red failed to inhibit the calcium-dependent uptake of adenine nucleotides by the mitochondria, indicating that stimulation of this process by Ca2+ does not involve transport of the cation into mitochondria by the Ca2+ uniporter. Because glucagon acts to elevate cytosolic [Ca2+] from approximately 0.2 microM to 0.6 microM, the same range affecting nucleotide uptake, it is proposed that the increase in mitochondrial adenine nucleotides that follows treatment with glucagon is mediated by the rise in cytosolic [Ca2+] produced by the hormone. This hypothesis was supported by the observation that epinephrine and A23187, agents that raise cytosolic [Ca2+], increased the content of mitochondrial adenine nucleotides in isolated hepatocytes. Furthermore, cells, incubated under calcium-depleting conditions, had a diminished response to glucagon.
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PMID:Control of mitochondrial content of adenine nucleotides by submicromolar calcium concentrations and its relationship to hormonal effects. 309

The effects of glucagon infusion on substrate oxidation by liver mitochondria from the pigeon, Columba livia, were examined. While the response of mammalian liver mitochondria to glucagon involves elevated rates of oxidation of succinate, pyruvate, alpha-ketoglutarate, glutamate, and acyl carnitines, avian hepatic mitochondria demonstrate no change in state 3 rates for the oxidation of succinate, pyruvate, alpha-ketoglutarate, and glutamate upon glucagon infusion. There was a trend toward decreasing the state 3 rate of oxidation of long-chain acyl carnitines compared to other substrates with glucagon treatment. State 4 rates of oxidation of all substrates including acyl carnitines were unaffected by glucagon infusion. The permeability of pigeon liver mitochondria to NADH was not affected by glucagon infusion, indicating no change in the fragility of the mitochondria. The effect of glucagon in elevating oxidation of lipids in mammals and decreasing oxidation in birds correlates with its hyperlipemic action in birds and the hypolipemic action in mammals.
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PMID:The effects of glucagon on hepatic mitochondrial metabolism in the pigeon, Columba livia. 318 36

The first branch point in gluconeogenesis occurs at the conversion of pyruvate to oxaloacetate. To determine the amount of lactate carbon reaching glucose via the direct pyruvate carboxylase pathway versus the tricarboxylic acid cycle, adult rat hepatocytes in primary culture were incubated for 2 h with one of the following isotopic substrates: [1-14C]lactate, [U-14C]lactate, or [1,2-14C]acetate. Production of 14CO2 and [14C]glucose from each substrate was assessed. The amount of lactate carbon 2 and 3 incorporated into glucose or oxidized to CO2 was determined by subtracting values using [1-14C]lactate from those using [U-14C]lactate. After quantitation of CO2 formed from carbons 2 and 3 of lactate, the amount of these carbons incorporated into glucose via the tricarboxylic acid cycle can be determined by simple proportionality from the ratio of label incorporated into glucose or CO2 from [1,2-14C]acetate. The remaining carbons 2 and 3 of lactate incorporated into glucose are derived from the pyruvate carboxylase pathway directly. Ethanol which on oxidation provides NADH and acetate decreased lactate oxidation and enhanced the pyruvate carboxylase pathway. Glucagon increased carbon flux through both pathways but primarily through the pyruvate carboxylase pathway. In summary, a simple model is presented to examine carbon flux from lactate via the pyruvate carboxylase and tricarboxylic acid pathways during gluconeogenesis.
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PMID:Model to examine pathways of carbon flux from lactate to glucose at the first branch point in gluconeogenesis. 318 10

Hepatocytes isolated from the periportal or perivenous zones of livers of fed rats were used to study the long-term (14 h) and short-term (2 h) effects of glucagon on gluconeogenesis and ketogenesis. Long-term culture with glucagon (100 nM) resulted in a greater increase (P less than 0.01) in gluconeogenesis in periportal than in perivenous cells (93 +/- 16 versus 30 +/- 14 nmol/h per mg of protein; 72% versus 30% increase), but short-term incubation (2 h) with glucagon resulted in similar stimulation in the two cell populations. Rates of ketogenesis (acetoacetate and D-3-hydroxybutyrate production) were not significantly higher in periportal cells cultured without glucagon, compared with perivenous cells. However, after long-term culture with glucagon, the periportal cells had a significantly higher rate of ketogenesis (from either palmitate or octanoate as substrate), but a lower 3-hydroxybutyrate/acetoacetate production ratio, suggesting a more oxidized mitochondrial NADH/NAD+ redox state despite the higher rate of beta-oxidation. Periportal hepatocytes had a higher activity of carnitine palmitoyltransferase but a lower activity of citrate synthase than did perivenous cells. These findings suggest that: (i) glucagon elicits greater long-term stimulation of gluconeogenesis in periportal than in perivenous hepatocytes maintained in culture; (ii) after culture with glucagon, the rates of ketogenesis and the mitochondrial redox state differ in periportal and perivenous hepatocytes.
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PMID:Glucagon regulation of gluconeogenesis and ketogenesis in periportal and perivenous rat hepatocytes. Heterogeneity of hormone action and of the mitochondrial redox state. 322

1. Increasing concentrations of 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), a mild respiratory-chain inhibitor [Halestrap (1987) Biochim. Biophys. Acta 927, 280-290], caused progressive inhibition of glucose production from lactate + pyruvate by hepatocytes from starved rats incubated in the presence or absence of oleate and gluconeogenic hormones. 2. No significant changes in tissue ATP content were observed, but there were concomitant decreases in ketone-body output and cytochrome c reduction and increases in NADH fluorescence and the ratios of [lactate]/[pyruvate] and [beta-hydroxybutyrate]/[acetoacetate]. 3. The inhibition by DCMU of palmitoylcarnitine oxidation by isolated liver mitochondria was used to calculate a flux control coefficient of the respiratory chain towards gluconeogenesis. In the presence of 1 mM-oleate, the calculated values were 0.61, 0.39 and 0.25 in the absence of hormone and in the presence of glucagon or phenylephrine respectively, consistent with activation of the respiratory chain in situ as previously suggested [Quinlan & Halestrap (1986) Biochem. J. 236, 789-800]. 4. Cytoplasmic oxaloacetate concentrations were shown to decrease under these conditions, implying inhibition of pyruvate carboxylase. 5. Inhibition of gluconeogenesis from fructose and dihydroxyacetone was also observed with DCMU and was accompanied by an increased output of lactate + pyruvate, suggesting that activation of pyruvate kinase was occurring. With the latter substrate, measurements of tissue ADP and ATP contents showed that DCMU caused a small fall in [ATP]/[ADP] ratio. 6. Two inhibitors of fatty acid oxidation, pent-4-enoate and 2-tetradecylglycidate, were shown to abolish and to decrease respectively the effects of hormones, but not valinomycin, on gluconeogenesis from lactate + pyruvate, without changing tissue ATP content. 7. It is concluded that the hormonal increase in mitochondrial matrix volume stimulates fatty acid oxidation and respiratory-chain activity, allowing stimulation of pyruvate carboxylation and thus gluconeogenesis to occur without major changes in [ATP]/[ADP] or [NADH]/[NAD+] ratios. 8. The high flux control coefficient of the respiratory chain towards gluconeogenesis may account for the hypoglycaemic effect of mild respiratory-chain inhibitors.
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PMID:Evidence that the flux control coefficient of the respiratory chain is high during gluconeogenesis from lactate in hepatocytes from starved rats. Implications for the hormonal control of gluconeogenesis and action of hypoglycaemic agents. 342 47

Birth in most mammalian species represents an abrupt change from a high-carbohydrate and low-fat diet to a high-fat and low-carbohydrate diet. Gluconeogenesis is absent from the liver of the fetus of well fed mothers, but can be induced prematurely by prolonged fasting of the mother. Gluconeogenesis increases rapidly in the liver of newborn mammals in parallel with the appearance of phosphoenolpyruvate carboxykinase (PEPCK), the rate-limiting enzyme of this pathway. The rise in plasma glucagon and the fall in plasma insulin which occur immediately after birth are the main determinants of liver PEPCK induction. When liver PEPCK has reached its adult value, i.e. 24 h after birth, other factors are involved in the regulation of hepatic gluconeogensis. In order to maintain a high gluconeogenic rate, the newborn liver must be supplied with sufficient amount of gluconeogenic substrates and free fatty acids. An active hepatic fatty acid oxidation is necessary to support hepatic gluconeogenesis by providing essential cofactors such as acetyl CoA and NADH. The relevance of animal studies for the understanding of neonatal glucose homeostasis in man is discussed.
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PMID:Gluconeogenesis in late fetal and early neonatal life. 354 66

The addition of 10 mM fructose or 10 mM tagatose to a suspension of hepatocytes caused respiratory inhibition, whereas no change in oxygen uptake was observed following the addition of glucose. However, incubations in the presence of fructose showed a high, aerobic glycolytic activity. Tagatose is phosphorylated to tagatose 1-phosphate but is not further metabolized by cell free liver extract. Moreover, the addition of fructose to glucagon treated cells also caused the Crabtree-like effect. The concentration of adenine nucleotides and inorganic phosphate (Pi) in the mitochondrial and cytosolic compartments during incubation (time 30 min) was determined by the digitonin fractionation procedure. In the presence of 10 mM fructose or tagatose, the total adenine nucleotide pools decreased by 40%; however, glucose produced no change. The addition of ketoses diminished the asymmetric distribution of extramitochondrial (ATP/ADP)e ratio and intramitochondrial (ATP/ADP)i ratio. At the same time the total mitochondrial Pi fell from 17 mM to 6-7 mM. The mitochondrial membrane potential (-161 mV) in the presence of fructose showed no changes during the 30 min experimental period. An increase in the NADH/NAD+ ratio was observed. These results suggest that in hepatocytes the inhibition of respiration is not necessarily linked with the enhanced aerobic glycolysis, by competition for common substrates.
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PMID:Ketose induced respiratory inhibition in isolated hepatocytes. 365 42

Control properties of the gluconeogenic pathway in hepatocytes isolated from starved rats were studied in the presence of glucose. The following observations were made. (1) Glucose stimulated the rate of glucose production from 20 mM-glycerol, from a mixture of 20 mM-lactate and 2 mM-pyruvate, or from pyruvate alone; no stimulation was observed with 20 mM-alanine or 20 mM-dihydroxyacetone. Maximal stimulation was obtained between 2 and 5 mM-glucose, depending on the conditions. At concentrations above 6 mM, gluconeogenesis declined again, so that at 10 mM-glucose the glucose production rate became equal to that in its absence. (2) With glycerol, stimulation of gluconeogenesis by glucose was accompanied by oxidation of cytosolic NADH and reduction of mitochondrial NAD+ and was insensitive to the transaminase inhibitor amino-oxyacetate; this indicated that glucose accelerated the rate of transport of cytosolic reducing equivalents to the mitochondria via the glycerol 1-phosphate shuttle. (3) With lactate plus pyruvate (10:1) as substrates, stimulation of gluconeogenesis by glucose was almost additive to that obtained with glucagon. From an analysis of the effect of glucose on the curves relating gluconeogenic flux and the steady-state intracellular concentrations of gluconeogenic intermediates under various conditions, in the absence and presence of glucagon, it was concluded that addition of glucose stimulated both phosphoenolpyruvate carboxykinase and pyruvate carboxylase activity.
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PMID:Stimulation by glucose of gluconeogenesis in hepatocytes isolated from starved rats. 366 84

By using very low concentrations of cells to minimize alterations in substrate concentrations, we demonstrated that the lactate/pyruvate ratio of the incubation medium, which determines the cytosolic NADH/NAD+ ratio, affects gluconeogenic flux in suspensions of isolated hepatocytes from fasted rats. At a fixed extracellular pyruvate concentration of 1 mM and with the lactate/pyruvate ratio varied from 0.6 to 10 and to 50, glucose production rates increased from 2.5 to 5.5 and then decreased to 1.8 nmol/mg of cell protein/min. This finding paralleled the observation of Sugano et al. (Sugano, T., Shiota, M., Tanaka, T., Miyamae, Y., Shimada, M., and Oshino, N. (1980) J. Biochem. (Tokyo) 87, 153-166) who noted a similar biphasic response in the perfused liver system when lactate was held constant and pyruvate varied. The biphasic relationship can be explained by the influence of the NADH/NAD+ ratio on the near-equilibrium reactions catalyzed by glyceraldehyde-3-phosphate dehydrogenase and malate dehydrogenase in the hepatocyte cytosol. By shifting the equilibrium of the glyceraldehyde-3-phosphate dehydrogenase reaction, a rise in the NADH/NAD+ ratio decreases the concentration of 3-phosphoglycerate which, because of the linkage of 3-phosphoglycerate to phosphoenolpyruvate through two near-equilibrium reactions, reduces the concentration of phosphoenolpyruvate and therefore causes a decline in flux through pyruvate kinase. This decrease in pyruvate kinase flux results in an enhanced gluconeogenic flux. At higher NADH/NAD+ ratios, however, the oxalacetate concentration drops to such an extent that the consequent decreased flux through phosphoenolpyruvate carboxykinase exceeds the decline in flux through pyruvate kinase, producing a decrease in gluconeogenic flux. The lactate/pyruvate ratio was found to influence the actions of three hormones thought to stimulate gluconeogenesis by different mechanisms. Except for an inhibition by glucagon seen at the lowest lactate/pyruvate ratio tested, the stimulations by this hormone were relatively insensitive to lactate/pyruvate ratios, while angiotensin II produced greater stimulations of gluconeogenesis as the lactate/pyruvate ratio was increased. Dexamethasone, added in vitro, stimulated gluconeogenesis significantly only at very low and very high lactate/pyruvate ratios.
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PMID:The interaction between the cytosolic pyridine nucleotide redox potential and gluconeogenesis from lactate/pyruvate in isolated rat hepatocytes. Implications for investigations of hormone action. 404 7

A novel adenylate cyclase activity was found in crude homogenates of Neurospora crassa. The adenylate cyclase had substantial activity with ATP-Mg2+ as substrate differing significantly from the strictly ATP-Mn2+-dependent enzyme characterized previously. Additionally, the ATP-Mg2+-dependent activity was stimulated two- to fourfold by GTP or guanyl-5'-yl-imido-diphosphate (Gpp(NH)p). We propose that the ATP-Mg2+-dependent, guanine nucleotide-stimulated activity is due to a labile regulatory component (G component) of the adenylate cyclase which was present in carefully prepared extracts. The adenylate cyclase had a pH optimum of 5.8 and both the catalytic and G component were particulate. The Km for ATP-Mg2+ was 2.2 mM in the presence of 4.5 mM excess Mg2+. Low Mn2+ concentrations had no effect on adenylate cyclase activity whereas high concentrations of Mn2+ or Mg2+ stimulated the enzyme. Maximal Gpp(NH)p stimulation required preincubation of the enzyme in the presence of the guanine nucleotide and the K1/2 for Gpp(NH)p stimulation was 110 nM. Neither fluoride nor any of a variety of glycolytic intermediates or hormones, including glucagon, epinephrine, and dopamine, had an effect on ATP-Mg2+-dependent adenylate cyclase activity. However, the enzymatic activity was stimulated not only by GTP but also by 5'-AMP and was inhibited by NADH.
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PMID:Characterization of an ATP-Mg2+-dependent guanine nucleotide-stimulated adenylate cyclase from Neurospora crassa. 621 25


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