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)

Mitochondria from glucagon-treated rats oxidize succinate, but not ascorbate plus tetramethylphenylenediamine, faster in the uncoupled state than do control mitochondria. The rate of O(2) uptake in the presence of both substrates is equal to the sum of the rates of the O(2) uptake in the presence of either substrate alone. It is concluded that the mitochondrial respiratory chain is limited at some point between cytochromes b and c and that this step is regulated by glucagon. Measurement of the cytochrome spectra under uncoupled conditions in the presence of succinate and rotenone demonstrates a crossover between cytochromes c and c(1) when control mitochondria are compared with those from glucagon-treated rats, cytochrome c being more oxidized and cytochrome c(1) more reduced in control mitochondria. Under conditions where pyruvate metabolism is studied the control mitochondria are generally more oxidized than those from glucagon-treated rats, the redox state of cytochrome b-566 correlating with the rate of pyruvate metabolism in sucrose medium. However, when the redox state of the mitochondria is taken into account, a crossover between cytochromes c and c(1) is again apparent. The spectra of the b cytochromes are complex, but cytochrome b-562 appears to become more reduced relative to cytochrome b-566 in mitochondria from glucagon-treated rats than in control mitochondria. This can be explained by the existence of a more alkaline matrix in glucagon-treated rats, the redox potential for cytochrome b being pH-sensitive. It is concluded that glucagon stimulates electron flow between cytochromes c(1) and c. The physiological significance of these findings is discussed.
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PMID:Stimulation of the respiratory chain of rat liver mitochondria between cytochrome c1 and cytochrome c by glucagon treatment of rats. 21 Jul 59

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

Hepatic submitochondrial particles, prepared at neutral pH from rats pretreated with glucagon, exhibited stimulated rates of State 3 and uncoupled respiration when succinate or NADH were the substrates, but not when ascorbate plus N,N,N',N'-tetramethyl-p-phenylenediamine were employed. Measurements of 8-anilino-1-naphthalenesulfonic acid fluorescence in the particles indicated that glucagon treatment resulted in a stimulation of energization supported by succinate respiration or ATP hydrolysis. Similarly, the energy-linked pyridine nucleotide transhydrogenase and reverse electron flow reactions driven by succinate oxidation or ATP were also stimulated. The results indicate that mitochondrial substrate transport is not the prime locus of glucagon action. It is suggested that the increased level of energization in particles prepared from glucagon-treated rats is a reflection of a stimulation of the respiratory chain, possibly between cytochromes b and c, and the ATP-forming reactions.
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PMID:Glucagon treatment stimulates the metabolism of hepatic submitochondrial particles. 64 75

Protease Re, a new cytoplasmic endoprotease in Escherichia coli, was purified to homogeneity by conventional procedures, using [3H]casein as the substrate. The enzyme consists of a single polypeptide of 82,000 molecular weight. It is maximally active between pH 7 and 8.5 and is independent of ATP. It has a pI of 6.8 and a Km of 10.8 microM for casein. Since diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride inhibited this enzyme, it appears to be a serine protease. Protease Re was sensitive to inhibition by L-1-tosylamido-2-phenylethylchloromethylketone but not to that by 1-chloro-3-tosylamido-7-aminoheptanone, thiol-blocking reagents, chelating agents, or various peptide aldehydes. Re also degraded [125I]globin, [125I]glucagon, and 125I-labeled denatured bovine serum albumin to acid-soluble products (generally oligopeptides of greater than 1,500 daltons), but it showed no activity against serum albumin, growth hormone, insulin, or a variety of fluorometric peptide substrates. It also hydrolyzed oxidatively inactivated glutamine synthetase (generated by ascorbate, oxygen, and iron) four- to fivefold more rapidly than the native protein. Protease Re appears to be identical to the proteolytic enzyme isolated by Roseman and Levine (J. Biol. Chem. 262:2101-2110, 1987) by its ability to degrade selectively oxidatively damaged glutamine synthetase in vivo. Its role in intracellular protein breakdown is uncertain.
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PMID:Purification and characterization of protease Re, a cytoplasmic endoprotease in Escherichia coli. 289 28

Anglerfish islet secretory granules have been examined for the presence of an enzyme which could perform C-terminal amidation of glucagon-like peptide II and possibly anglerfish peptide Y. Using [125I]D-Tyr-Val-Gly as substrate, a peptidyl-glycine alpha-amidating monooxygenase (PAM) was detected in islet secretory granule lysates. The enzyme is active between pH 6.0 and 8.5 and exhibits maximal activity near pH 7.0. The islet PAM requires Cu2+, ascorbate, and molecular oxygen for activity. Other divalent metal ions and redox cofactors were tested and found to be inactive in the assay. Even though added Cu2+ and ascorbate are required for detecting islet PAM activity, when these factors were incubated with substrate in the absence of secretory granule lysate, no activity was observed. It was also found that the addition of higher than optimal concentrations of either Cu2+ or ascorbate inhibited amidating activity. The results demonstrate that a PAM is present in secretory granules of anglerfish islet tissue. The characteristics of the islet PAM are similar to those of PAMs identified and characterized in other tissues which produce bioactive C-terminally amidated peptides.
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PMID:Peptidyl-glycine alpha-amidating monooxygenase is present in islet secretory granules of the anglerfish, Lophius americanus. 330 55

This report describes measurements of 50 variables in adult, female, reproductively inactive Vervet monkeys during prolonged nutrition realistic for westernized people. Dietary treatments consisted of an atherogenic Western diet (WD) and a prudent Western diet (PD). Ingredients were normal foods for man and no extra cholesterol was added. Fortification of both diets with vitamin C after cooking was necessary to prevent deficiency. Randomised groups of Vervet monkeys received either the PD or WD for 47 months, while a third group was fed WD for 20 months and then PD for 27 months (WD-PD). Before the dietary treatments nourishment was by a high carbohydrate diet (HCD) and baseline and reference values (RV) apply to this nutritional status. Plasma total cholesterol (mg/dl) was increased from 147 (HCD) to 174 (PD) and 376 (WD). Individual cholesterolaemio response ranged from mild to severe and was stable (PD and WD). Dietary reversal (WD-PD) reduced cholesterolaemia promptly. Statistically significant increases in calcium, zinc and vitamin E and decreased vitamin B6 were associated with the WD relative to the PD (in serum and plasma). Two cholesterol metabolising microsomal enzymes in liver were notably increased and one unchanged (WD). There were no dietary effects on triglycerides, vitamin A and glucose in plasma; insulin, glucagon, electrolytes, copper, magnesium or enzymes reflecting liver, muscle or brain cell damage in serum. Red blood cells, platelets and directly associated parameters increased (WD), haemoglobin was the same and haemoglobin per red cell decreased. Bleeding time was not affected. Bivariate correlations across the diets confirmed that Western nutrition promoted inherent individual susceptibility to cholesterolaemia. There were notable differences from RVs in total cholesterol, calcium, packed cell volume and haemoglobin, which emphasise excesses and deficiencies of the WD and PD.
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PMID:Diets realistic for westernized people significantly effect lipoproteins, calcium, zinc, vitamins C, E, B6 and haematology in vervet monkeys. 363 58

Severe autoimmune haemolytic anaemia in a five year old boy was unaffected by treatment with prednisone and splenectomy, but subsided after combined immunosuppressive therapy and three plasma exchanges. Over five months, a total of 93 transfusions of concentrated erythrocytes was given (equal to 18.6 grams of iron or 1.1 g/kg BW). This resulted in severe iron overload with cardiac, hepatic, and pancreatic complications, together with growth-retardation. These complications disappeared after treatment with desferrioxamine and vitamin C, but despite a normal growth hormone response to glucagon the concentration of somatomedin in serum remained low. Treatment by plasma exchanges and immunosuppressive agents may therefore be of value in severe haemolytic anaemia refractory to corticosteroids and splenectomy. Iron chelating therapy should be considered if multiple transfusions result in iron overload.
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PMID:Autoimmune haemolytic anaemia treated with multiple transfusions, immunosuppressive therapy, plasma exchange, and desferrioxamine. 670 46

Ascorbic acid synthesis was stimulated by glucagon, dibutyryl cyclic AMP, as well as phenylephrine vasopressin or okadaic acid, in hepatocytes prepared from fed mice. However, no such effect was observed in glycogen-depleted cells from starved animals, either in the presence or absence of glucose. The rate of ascorbate synthesis showed close correlation with the glucose release by hepatocytes. In mice the injection of glucagon increased plasma ascorbate concentration fifteenfold, and caused a sixfold elevation of the ascorbate content of the liver. These results show that hepatic ascorbate synthesis is dependent on glycogenolysis, and indicate a regulatory role of ascorbate released by the liver.
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PMID:Ascorbic acid synthesis is stimulated by enhanced glycogenolysis in murine liver. 792 38

Interferon alpha (IFN-alpha) inhibits insulin release and may be cytotoxic to pancreatic islets. Increased free radical activity may be implicated in the cytotoxic action of IFN-alpha and development of diabetes mellitus. Therefore we measured markers of free radical activity (lipid peroxides and the non-peroxide-conjugated diene isomer of linoleic acid [PL-9,11-LA']) along with some pancreatic variables in male albino rats treated with IFN-alpha, as well as the possible protective effect of two antioxidants, vitamin C and mannitol. Compared to untreated rats, it was shown that IFN-alpha induced an increase in plasma glucose. Pancreatic and serum insulin, as well as serum C-peptide, were increased after 1 week, then their levels were reduced after 2 weeks. Plasma lipids peroxides and (PL-9,11-LA') were markedly elevated, while linoleic acid was reduced. These changes in the studied parameters were attributed, in part, to the superoxide and free radical generation during IFN-alpha treatment. Plasma glucagon was increased after 2 weeks. Administration of vitamin C along with IFN-alpha succeeded in modulating most of the altered parameters affected during IFN-alpha. The hyperglycaemic effect of IFN-alpha was greatly ameliorated and the negative effect on pancreatic and serum insulin and serum C-peptide were nearly abolished. The elevated levels of lipid peroxide and (PL-9,11-LA') and the reduction in linoleic acid being normalised. The only persistent effect was the increase in plasma glucagon. Concurrent administration of mannitol with IFN-alpha caused no changes in the parameters studied compared to that induced by treatment with IFN-alpha alone.
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PMID:Vitamin C attenuation of the development of type I diabetes mellitus by interferon-alpha. 969 56

Using isolated rat hepatocytes we have shown that glutathione (GSH) depletion by glutathione-S-transferase (GST)-catalyzed conjugation with 1-bromoheptane or phorone was accompanied by a significant elevation in ascorbate synthesis. Glycogenolysis was also stimulated without a significant rise in glucose synthesis. Furthermore, when glycogenolysis was stimulated in control hepatocytes by increasing intracellular cAMP levels (with glucagon or dibutyryl cAMP), cellular glucose levels, but not ascorbate levels, increased. These data suggest that GSH depletion can stimulate ascorbate synthesis independently of glucose synthesis and that hepatocytes can direct glycogenolysis towards ascorbate synthesis during GSH conjugation.
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PMID:Glycogenolysis is directed towards ascorbate synthesis by glutathione conjugation. 1504 60

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