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)

Glucagon has been regarded as a hepatotrophic factor, although it is also known to stimulate energy-consuming reactions in the liver, such as gluconeogenesis and ureogenesis. To clarify the effect of glucagon on the hepatic energy metabolism, the changes in arterial ketone body ratio, which reflects the hepatic mitochondrial redox state [( NAD+]/[NADH]), as well as those in energy charge and mitochondrial oxidative phosphorylation of the liver after IV glucagon injection were studied in normal rabbits. Arterial ketone body ratio decreased significantly from 1.04 +/- 0.08 to 0.61 +/- 0.11 (mean +/- SEM; P less than 0.01) within 30 minutes after glucagon injection. Hepatic energy charge also decreased from 0.883 +/- 0.014 to 0.789 +/- 0.014 (P less than 0.01) at 30 minutes, whereas mitochondrial phosphorylation rate inversely increased from 38.4 +/- 9.5 to 87.3 +/- 9.7 (nanomoles adenosine triphosphate per milligram mitochondrial protein per minute; P less than 0.01) at 30 minutes. Arterial ketone body ratio and energy charge were subsequently restored to the initial values at 60 minutes and 2 hours, respectively. The present study suggests that glucagon causes an increase in energy expenditure in the liver that results in a transient decrease in hepatic energy charge accompanied by a decrease in arterial ketone body ratio.
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PMID:Effect of glucagon on hepatic energy charge and arterial ketone body ratio in normal rabbits. 200 1

Plasma membranes were purified from deciduoma of pseudopregnant rats and rat liver. Preparations contained 80% plasma membrane-derived material as based on electron microscope morphometry and analysis of enzyme markers. Several plasma membrane enzymes were tested for direct response to hormones. NADH-ferricyanide reductase of plasma membranes from both tissues was stimulated by glucagon and inhibited by insulin but was unresponsive to steroids. For steroids, responsiveness was limited to a reduction in NaF-stimulated adenylate cyclase activity by the steroid R5020. Thus, interaction of steroid hormones with plasma membranes, unlike that of glucagon and insulin, is not reflected in an altered activity of plasma membrane-bound dehydrogenases but may be exerted directly on adenylate cyclase.
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PMID:Hormone regulated enzyme activities of plasma membrane of decidual endometrium of the rat. 220 37

Birth represents a dramatic change of nutrition from a fetal diet rich in carbohydrates and poor in fat to a neonatal diet rich in fat and poor in carbohydrates. Gluconeogenesis and ketogenesis are absent or very low in the fetal liver when the mother is correctly fed, and these metabolic pathways emerge after birth to reach adult values after 24 h. Gluconeogenesis increases rapidly in the liver of the newborn in parallel with the appearance of phosphoenolpyruvate carboxykinase (PEPCK), the rate-limiting enzyme of this metabolic pathway. The rise in plasma glucagon, the fall in plasma insulin and the resulting increase in liver cAMP which occur immediately after birth are the factors which induce the activation of liver PEPCK gene transcription. The appearance of ketogenesis is also controlled by the changes of plasma insulin and glucagon that increase the capacity for liver fatty acid oxidation by decreasing lipogenesis and malonyl-CoA concentration, by reducing the sensitivity of carnitine palmitoyl-CoA I to the inhibitory influence of malonyl-CoA, and by activating hydroxymethylglutaryl-CoA synthase by desuccinylation. Once liver PEPCK has reached adult value, i.e. 12 h after birth, other factors are involved in the regulation of hepatic gluconeogenesis. Indeed, the supply of gluconeogenic substrates and of free fatty acid is of crucial importance to support a high rate of gluconeogenesis and to maintain normoglycemia in the newborn. In the liver, fatty acid oxidation provides essential co-factors (acetyl-CoA, NADH and ATP) to support gluconeogenesis, and in peripheral tissue fatty acid oxidation inhibits glucose oxidation and stimulates the production of gluconeogenic precursors (lactate, pyruvate and alanine). Similar mechanisms are operative in human newborn. A defective hepatic fatty acid oxidation is likely to explain the frequent hypoglycemia observed in small-for-date neonates. Administration of oral triglycerides is an efficient mean to prevent hypoglycemia in these newborns.
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PMID:Metabolic adaptations to change of nutrition at birth. 226 17

We determined the extent to which ligating both maternal uterine arteries affects fetal hepatic energy and redox states in the fetal rat. Bilateral maternal uterine artery ligation on d 18 of the rat's 21.5-d gestation significantly inhibits fetal growth; sham surgery limits growth to a lesser extent. Within 12 h of surgery and persisting to d 19, small-for-gestational age (SGA) fetuses had significantly diminished ATP/ADP and adenylate charge ratios, whereas sham fetuses had values intermediate between SGA and normal. Hepatic mitochondrial redox state demonstrated similar changes. Cytosolic redox state in SGA fetuses at 12 and 24 h after surgery was significantly elevated. SGA fetuses had significantly diminished plasma insulin and elevated glucagon concentrations. On d 19 and 20, hepatic ATP/ADP and cytosolic NAD+/NADH correlated directly for sham and normal but not SGA fetuses. Alterations in glucose, insulin, and glucagon availability and hypoxia were responsible for the changes in energy and redox states. They may also have disassociated hepatic cytosolic from mitochondrial redox states and altered the equilibrium between adenine and nicotinamide nucleotides. These altered cellular functions retarded fetal growth. Newborn SGA, sham, and normal rat pups had similar hepatic ATP/ADP, cytosolic, and mitochondrial redox states at 10 and 240 min after delivery suggesting that the hypoglycemia which developed in SGA pups was not attributable to alterations in these variables.
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PMID:Intrauterine growth retardation: altered hepatic energy and redox states in the fetal rat. 229 73

Isolated mouse liver mitochondria incubated with streptozotocin showed decreased rate and extent of Ca2+ uptake, and, dependent on the concentration of streptozotocin and the addition of alpha-ketoglutarate, glutamate, fluorocitrate or guanosine 5'-triphosphate, the retention of Ca2+ was either increased or decreased. Similar observations were made in liver mitochondria incubated with succinyl-CoA. In mitochondria isolated from the kidneys and islets of mice injected with streptozotocin, with and without additional injections of glucose and/or glucagon, the rate and extent of Ca2+ uptake were reduced and the release of accumulated Ca2+ was stimulated. Electron microscopy and X-ray microanalysis showed dislocation of Ca2+-containing precipitates from the mitochondria to the cytosol, and stereology disclosed increased mitochondrial volume in the B cells of streptozotocin-treated mice. State 3 and state 4 respiration with NAD-linked substrates was inhibited, but succinate oxidation was unaffected, in mitochondria isolated from the kidneys of mice treated with streptozotocin. In the kidneys of streptozotocin-injected mice, the concentration of succinyl-CoA was increased, that of citrate and guanosine 5'-triphosphate was decreased, that of glucose 6-phosphate, fructose 6-phosphate and fructose 1,6-diphosphate was unaffected, and the metabolite concentration ratios suggested increased mitochondrial [NAD+]/[NADH] ratio and decreased cytoplasmic [NAD+]/[NADH] ratio. It is suggested as a new hypothesis that the cytotoxicity and the diabetogenicity of streptozotocin are dependent on inhibited citric acid cycle enzyme activity (primarily that of succinyl-CoA synthetase and citrate synthetase) with altered metabolite concentrations, leading to impairment of the mitochondrial uptake of Ca2+ and the activation of the pyruvate, isocitrate and alpha-ketoglutarate dehydrogenases.
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PMID:Mitochondrial changes and associated alterations induced in mice by streptozotocin administered in vivo and in vitro. 288 8

This study examined the relationship between postnatal metabolic and hormonal changes and the accompanying rapid increase in mitochondrial adenine nucleotide content (ATP + ADP + AMP) in rabbit liver. The cytosolic NAD+/NADH concentration ratio, calculated from tissue pyruvate and lactate values, increased linearly 6.6-fold during the 1st postnatal h. The mitochondrial NAD+/NADH concentration ratio, calculated from tissue acetoacetate and beta-hydroxybutyrate values, increased 28-fold by 30 min postnatal. These changes in NAD+/NADH suggest that tissue oxygenation occurs rapidly and that oxygen supply rather than substrate supply is limiting for mitochondrial respiration in the immediate postnatal period. The normal increase in mitochondrial adenine nucleotide content that occurs within 2 h after birth was inhibited by hypoxia (5% O2). Glucagon stimulated the postnatal increase in mitochondrial adenine nucleotides but had no effect in combination with hypoxia. Both glucose and somatostatin injections inhibited the increase in mitochondrial adenine nucleotides and increased the insulin-to-glucagon ratio. Isoproterenol or dibutyryl cAMP stimulated, but propranolol did not inhibit, the normal increase in mitochondrial adenine nucleotide content. Phentolamine did not stimulate the postnatal accumulation of adenine nucleotides. In summary, the results show that the insulin-to-glucagon ratio is probably the most important hormone regulator of the rapid recompartmentation of adenine nucleotides into the mitochondrial matrix and that tissue oxygenation is strictly permissive for this hormone effect in the first 2 h after birth.
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PMID:Regulation of mitochondrial adenine nucleotide content in newborn rabbit liver. 289 2

The present study was undertaken to investigate the acute and long-term effects of streptozotocin (SZ) on pancreatic islet function and survival in vitro. Isolated mouse pancreatic islets, that had been cultured overnight, were exposed to SZ (0.55-4.4 mM) or critic acid buffer in the case of the control group. The islets were examined either immediately after SZ exposure or after one week in culture. There was a marked loss of islets treated with 2.2 and 4.4 mM SZ during the culture; however, the DNA content of the remaining islets was unaffected. The islet insulin content was reduced 7 days after treatment with 2.2 and 4.4 mM SZ. At 4.4 mM the glucagon and somatostatin content of the islet was also decreased but not to the same degree as the insulin content. SZ-induced inhibition of glucose-stimulated insulin release and (pro)insulin biosynthesis was more pronounced on day 7 as compared to day 0. A similar pattern of inhibitory action of SZ was observed on islet glucose oxidation rates. Islet ATP contents were depressed on day 7 in islets exposed 4.4 mM SZ, but were otherwise similar to the control group. Islet NAD + NADH contents were decreased by 50% after exposure to 2.2 mM SZ, compared to the control islets on day 0. This decrease in NAD + NADH contents was to a large extent restored during the one-week culture. The present study shows that islets failed to completely repair the acute damage caused by SZ, and that the impairment of the islet glucose-stimulated insulin release induced by SZ seemed to progress in culture.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional characteristics of cultured mouse pancreatic islets following exposure to different streptozotocin concentrations. 297 3

The effects of hormones on the cytochrome spectra of isolated hepatocytes were recorded under conditions of active gluconeogenesis from L-lactate. Glucagon, phenylephrine, vasopressin and valinomycin, at concentrations that caused stimulation of gluconeogenesis, increased the reduction of the components of the cytochrome bc1 complex, just as has been observed in liver mitochondria isolated from glucagon-treated rats [Halestrap (1982) Biochem. J. 204, 37-47]. The effects of glucagon and phenylephrine were additive. The time courses of the increased reduction of cytochrome c/c1 and NAD(P)H/NAD(P)+ caused by hormones, valinomycin, A23187 and ethanol were measured by dual-beam spectrophotometry and fluorescence respectively. Ethanol (14 mM) produced a substantial rise in NAD(P)H fluorescence, beta-hydroxybutyrate/acetoacetate and lactate/pyruvate ratios, no change in cytochrome c/c1 reduction, a 10% decrease in O2 consumption and a 60% decrease in gluconeogenesis. Glucagon, phenylephrine and vasopressin caused a substantial and transient rise in NAD(P)H fluorescence, but a sustained increase in cytochrome c/c1 reduction and the rates of O2 consumption and gluconeogenesis. The transience of the fluorescence response was greater in the absence of Ca2+, when the cytochrome c/c1 response also became transient. The fluorescence response was smaller and less transient, but the cytochrome c/c1 response was greater, in the presence of fatty acids. Both responses were greatly decreased by the presence of 1 mM-pent-4-enoate. Valinomycin (2.5 nM) caused a decrease in NAD(P)H fluorescence coincident with an increase in cytochrome c/c1 reduction and the rate of gluconeogenesis and O2 consumption. A23187 (7.5 mM) caused increases in both NAD(P)H fluorescence and cytochrome c/c1 reduction. The effects of hormones and valinomycin on the time courses of NAD(P)H fluorescence, cytochrome c/c1 reduction and light-scattering by hepatocytes were compared with those of 0.5 microM-Ca2+ or 1 nM-valinomycin on the same parameters of isolated liver mitochondria. It is concluded that hormones increase respiration by hepatocytes in a biphasic manner. An initial Ca2+-dependent activation of mitochondrial dehydrogenases rapidly increases the mitochondrial [NADH], which is followed by a volume-mediated stimulation of fatty acid oxidation and electron flow between NADH and cytochrome c. 10. Amytal (0.5 mM) was able to reverse the effects of hormones on the reduction of cytochromes c/c1 and the rates of gluconeogenesis and O2 consumption without significantly lowering tissue [ATP].(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The mechanism of the hormonal activation of respiration in isolated hepatocytes and its importance in the regulation of gluconeogenesis. 302 26

The rate of reduction of ferricyanide in the presence and absence of antimycin and ubiquinone-1 was measured using liver mitochondria from control and glucagon treated rats. Glucagon treatment was shown to increase electron flow from both NADH and succinate to ubiquinone, and from ubiquinone to cytochrome c. 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) was shown to inhibit the oxidation of glutamate + malate to a much greater extent than that of succinate or duroquinol. Spectral and kinetic studies confirmed that electron flow between NADH and ubiquinone was the primary site of action but that the interaction of the ubiquinone pool with complex 3 was also affected. The effects of various respiratory chain inhibitors on the rate of uncoupled oxidation of succinate and glutamate + malate by control and glucagon treated mitochondria were studied. The stimulation of respiration seen in the mitochondria from glucagon treated rats was maintained or increased as respiration was progressively inhibited with DCMU, 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone (DBMIB), 2-heptyl-4-hydroxyquinoline-n-oxide (HQNO) and colletotrichin, but greatly reduced when inhibition was produced with malonate or antimycin. These data were also shown to support the conclusion that glucagon treatment may cause some stimulation of electron flow through NADH dehydrogenase, succinate dehydrogenase and through the bc1 complex, probably at the point of interaction of the complexes with the ubiquinone pool. The effects of glucagon treatment on duroquinol oxidation and the inhibitor titrations could not be mimicked by increasing the matrix volume, nor totally reversed by aging of mitochondria. These are both processes that have been suggested as the means by which glucagon exerts its effects on the respiratory chain (Armston, A.E., Halestrap, A.P. and Scott, R.D., 1982, Biochim. Biophys. Acta 681, 429-439). It is concluded that an additional mechanism for regulating electron flow must exist and a change in lipid peroxidation of the inner mitochondrial membrane is suggested.
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PMID:Glucagon treatment of rats activates the respiratory chain of liver mitochondria at more than one site. 302 93

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 gluconeogenesis. 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:[Hormonal control of the development of hepatic gluconeogenesis in the neonate]. 305 68


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