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)

Hypoglycaemia increases hepatic glucose output; insulin release is suppressed and the secretion of counter regulatory hormones enhanced. Catecholamines and glucagon seem to play a major role. The brain energy content is initially preserved, but the neuronal activity exhibits a 40-60 % decrease. Neither cerebral blood flow, nor oxygen consumption are altered. In addition to glucose, other substrates are metabolized. Cerebral edema may occur. An insulin-storage defect seems to be the main abnormality in insulinoma beta cell function. The most accurate biological tests are the insulin/glucose ratio, stimulation tests and suppression tests such as fasting and insulin-induced hypoglycaemia. Ectopic release of ACTH, HCG, HLP, glucagon or gastrin, is observed in some malignant insulinomas. When inconclusive, classic localising procedures may be effected by selective venous-blood sampling. Hypoglycaemia of extra-pancreatic tumors results from glucose hyperconsumption and decreases in glucose hepatic output, lipolysis and ketogenesis, related to secretion of insulin-like peptides NSILAs or NSILAp. Rare cases of hypoglycaemia related to insulin auto-antibodies of unknown origin have been reported. Alcoholic hypoglycemia results from diminished hepatic glycogen content, alcohol dehydrogenase pathway blockade, reduction of gluconeogenesis defect in the alcohol catabolic catalase pathway and enhancement of peripheral glucose consumption.
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PMID:[Mechanisms of spontaneous hypoglycaemia in the adult (author's transl)]. 22 19

The regulation of ornithine decarboxylase activity was studied in freshly isolated rat hepatocytes incubated in a chemically defined medium for 5 h. Glucagon, dibutyryl cyclic AMP, insulin and dexamethasone produced dramatic increases in ornithine decarboxylase activity, 6--100-times the basal activity. Actinomycin D inhibited completely the stimulatory action of these substances. With glucagon, dibutyryl cyclic AMP and insulin, the rise in ornithine decarboxylase activity was rapid but transient, peaking at 200 min and then declining rapidly. By contrast, the response to dexamethasone was gradual and sustained in the 5 h incubation. The transient nature of the response to glucagon was unaltered by repeated additions of optimally effective doses of glucagon suggesting the development of 'refractoriness' to the actions of this hormone. Ethanol oxidation inhibited by 50% the stimulation of ornithine decarboxylase by glucagon and dexamethasone and this effect was blocked by 4-methylpyrazole, an inhibitor of alcohol dehydrogenase. Acetate (2.5--20 mM), the metabolic product of hepatic ethanol oxidation, was also effective. The data indicate that glucagon, insulin and glucocorticoids are all effective in stimulating the activity of ornithine decarboxylase in isolated hepatocytes but they differ in their duration and time of peak of action. Additionally, the inhibitory effect of ethanol on the hormonal stimulation of ornithine decarboxylase is dependent on its oxidation and may be mediated by acetate.
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PMID:Hormonal control of ornithine decarboxylase in isolated liver cells and the effect of ethanol oxidation. 22 51

The detergents which contain a hydrocarbon side chain longer than 16 cabron atoms were used as a perturbant for the study of protein structure. ta low concentration of cetyldimethylbenzylammonium chloride (CDBA) caused difference spectra for Ac-Trp-OEt and AC-Tyr-OEt. The delta e values at their difference maxima became constant above 30 mM of cetyldimethylbenzylammonium chloride, 1430 at 294 nm for Ac-Trp-OEt and 450 at 288 nm for Ac-Tyr-OEt. These delta e values are higher than any other delta e values resulting from solvent effects by such a remarkably low concentration of organic reagents described in the literature so far. The absence of denaturation blue shift in the difference spectra and the fact that the optical rotatory dispersion of the proteins examined in the present study was not changed significantly by cetyldimethylbenzylammonium chloride indicate that the secondary and tertiary structures of the proteins were not destroyed by cetyldimethylbenzylammonium chloride. These characteristics, together with small overlapping of their difference spectra at 288 and 294 nm were advantageous in the determination of tryptophan and tyrosine residues exposed in glucagon, insulin and alcohol dehydrogenase from yeast. No tyrosine residues in ribonuclease A was accessible to cetyldimethylbenzylammonium chloride. Unusual difference spectrum with a peak at 298 nm was observed for lysozyme which is known to contain tryptophan residues in special environments. Ovalbumin gave a novel unusual difference spectrum with a peak at 290 nm and a shoulder at 298 nm, showing the existence of unusual tryptophan and probably tyrosine residues in the molecule.
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PMID:Interaction between proteins and detergents which contain a hydrocarbon chain longer than 16 carbon atoms. II. Difference spectra of various proteins in cetyldimethyl-benzylammonium chloride. 23 67

Alcoholic hepatitis is a necrotizing, often inflammatory, process that is an important precursor to the development of cirrhosis. Acetaldehyde, which is derived from alcohol by the action of alcohol dehydrogenase, is apparently the most important factor leading to alcohol-induced liver injury. Other factors of importance in determining the appearance and rate of progression of liver diseases in patients who are chronic alcoholics include sex, nutritional status, and various immunologic reactions. In addition, there is an incompletely understood genetic predisposition to the development of alcoholic hepatitis. Several histologic features found in patients with alcoholic hepatitis have been evaluated in efforts to determine which are of prognostic value. The predominance of the alcohol-induced injury in zone III of the hepatic lobule; deposition of collagen, IgA, and fibronectin in the space of Disse; defenestration of endothelial cells; and transformation of lipocytes and myofibroblasts to fibroblasts have been investigated. Prolongation of the prothrombin time and marked elevation of serum bilirubin levels are indicators of a subgroup of patients with alcoholic hepatitis who have a poor prognosis, especially if there is also evidence of hepatic encephalopathy. Supportive care and abstinence from alcohol are the foundations of therapy. Corticosteroid therapy appears to decrease the number of early deaths in patients with severe alcoholic hepatitis. Other experimental approaches to therapy include the use of propylthiouracil, anabolic-androgenic steroids, and insulin and glucagon.
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PMID:Alcoholic hepatitis: pathogenesis and approaches to treatment. 223 74

It is well established that caloric restriction extends life span and significantly retards the rate of occurrence of most age-associated degenerative disease processes. A paucity of data exists relative to the mechanisms by which caloric restriction accomplishes these events. We have examined the effect of caloric restriction in rats on several hepatic enzymes of intermediary metabolism. The activities of glycolytic and supporting enzymes including lactate dehydrogenase, pyruvate kinase, sorbitol dehydrogenase, and alcohol dehydrogenase were all decreased in response to caloric restriction. Fructose 1-phosphate aldolase and creatine phosphokinase were not altered. Likewise, enzymes associated with lipid metabolism (malic enzyme and glycerokinase) were reduced (fatty acid synthetase was reduced, but not to a statistically significant degree). Activities of enzymes supporting gluconeogenesis (glutamate oxaloacetate transaminase, tyrosine aminotransferase, glutamate pyruvate transaminase, glutamate dehydrogenase, amino acid oxidase, malate dehydrogenase, and glucose 6-phosphatase) were either unchanged or increased significantly by caloric restriction. Glucagon levels were decreased. Comparisons between young ad libitum fed and older calorically restricted rats revealed similar but not identical metabolic activity. These results suggest that caloric restriction produces an effect on intermediary metabolism, favoring the role of glucagon and glucose synthesis; but limiting the role of insulin and glucose catabolism in the liver. The former observation provides for the efficient support of peripheral tissues and the latter a level of energy production necessary only for self maintenance. Limited lipid metabolism suggests decreased potential for fatty acid epoxide formation and free radical damage to cellular macromolecules. Additionally, caloric restriction may delay the progressive age associated changes in the activities of some of the enzymes investigated.
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PMID:Effect of chronic caloric restriction on hepatic enzymes of intermediary metabolism in the male Fischer 344 rat. 266 33

Fasting reduced the liver alcohol dehydrogenase (ADH) activity by 51% (p less than 0.001). Insulin, within 2 hr, increased the ADH activity found in fasted animals by 28% (p less than 0.02). Insulin administration failed to stimulate the reduced ADH activity in diabetic rats. However, ADH activity in the diabetic-fed rats decreased by 52-54% (p less than 0.001) compared to normal-fed rats regardless of whether they were meal-fed or refed the normal chow. Glucagon blocked by 15% (p less than 0.02) the increase in ADH activity associated with refeeding. Furthermore, insulin caused a marginal stimulation of ethanol elimination rate (EER) when administered to fasted rats. All these results imply that insulin and glucagon may not be the only determining factors in the control of liver ADH activity associated with fasting and refeeding. Meal-feeding or refeeding a high carbohydrate fat-free diet compared to the normal chow-diet caused 29% (p less than 0.001) and 36% (p less than 0.05) decreases in ADH activity, respectively. Concomitant decreases in EER caused by high carbohydrate fat-free diet feeding were also observed under identical conditions. These results raise the possibility that the amount and the type of carbohydrate may be crucial in the regulation of ADH and EER. Alternatively, the presence of fat may be important in maintaining the normal level of ADH and EER.
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PMID:Roles of hormonal and nutritional factors in the regulation of rat liver alcohol dehydrogenase activity and ethanol elimination rate in vivo. 304 71

(i) Hepatocytes isolated from adult rats were cultured for 2 to 3 weeks on collagen in a modified, serum-free Waymouth medium containing fatty acids and varying concentrations of glucocorticoid, insulin and glucagon. (ii) In the presence of all three hormones, it was possible to maintain the content of DNA, the activity of glucokinase, pyruvate kinase, hexokinase and lactate dehydrogenase at initial levels for 2 to 3 weeks. The activity of glucokinase and pyruvate kinase was affected by the concentration of insulin. (iii) The activity of alcohol dehydrogenase was stable for 3 days and declined to about 25% of the initial level after 2 weeks of culture, irrespective of the presence of hormones. (iv) Maintenance of albumin secretion was dependent on the presence of glucocorticoid, and glucocorticoid and insulin showed an additive or, at some time points, a synergistic effect on its secretion. (v) The content of cytochrome P-450 could be kept at 65% of the initial level, provided that a relatively high concentration of dexamethasone was present (10(-6) M). (vi) In the absence of hormones, urea synthesis was 70% of initial levels throughout the experimental period. With insulin and glucocorticoid present, a high concentration of glucagon (10(-8) M) was required to maintain the synthesis of urea at this level. (vii) It is concluded that hepatocyte cultures as described in the present study may be a useful, well-defined system for long-term metabolic, pharmacologic and toxicologic studies.
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PMID:Long-term culture of hepatocytes: effect of hormones on enzyme activities and metabolic capacity. 327 89

Acute administration of ethanol increases portal blood flow by 40-60%. This increase in blood flow compensates for the increase in O2 consumption that follows alcohol intake and may play a protective role against hypoxic hepatocellular necrosis. We have investigated the mechanism of this hemodynamic effect of ethanol in the rat using the labeled microsphere technique. We ruled out a direct role of systemic glucagon and of acetaldehyde in mediating the increase in portal flow. However, the increase in flow is maximal at a blood ethanol concentration of 3.5 mM, corresponding to that required to achieve the Vmax of alcohol dehydrogenase, and is suppressed by 4-methylpyrazole, an inhibitor of alcohol dehydrogenase. Alcohol ingestion results in zonal liver hypoxia and in increases in acetate, both of which have been shown to increase the levels of adenosine, a potent vasodilator, in blood and tissues. Ethanol produces a 400% increase in arterial adenosine. Adenosine infusion leads to a dose-dependent increase in portal blood flow of up to 100%, an effect that is suppressed by administration of 8-phenyltheophylline, an antagonist of adenosine at A1 and A2 receptors. Similarly, the ethanol-induced increase in portal blood flow is fully suppressed by 8-phenyltheophylline. In conclusion, adenosine appears to play an important role in the mechanism by which ethanol increases portal blood flow.
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PMID:New insights on the mechanism of the alcohol-induced increase in portal blood flow. 328 79

Rat hepatocytes were cultured in a modified HI-WO/BA medium for 13 days, and the combined effect of dexamethasone, 10(-7) M, insulin, 10(-8) M, and glucagon, 10(-9) M on the DNA-content, and on the activity of several enzymes, the secretion of albumin and the rate of ethanol oxidation was investigated. The effect of ethanol on these parameters was also studied. All parameters measured declined with time in the hormone-free cultures. In hormone-supplemented cultures, the DNA-content, the activity of glucokinase, pyruvate kinase, hexokinase and lactate dehydrogenase and the secretion of albumin was maintained at reasonable levels throughout the 13 days, whereas both the activity of alcohol dehydrogenase and the rate of ethanol oxidation fell significantly, although less than in hormone-free cultures. Addition of 50 mM ethanol to the hormone-supplemented culture medium caused a ca. 20% fall in the activity of glucokinase and pyruvate kinase and a 20% increase in alcohol dehydrogenase activity. No effect of ethanol was observed on the activity of hexokinase and lactate dehydrogenase or on the secretion of albumin.
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PMID:Long-term culture of hepatocytes: ethanol oxidation and effect of ethanol on enzyme activities and albumin secretion. 332 6

The effect of glucagon on the activity of alcohol dehydrogenase in rat hepatocyte culture was determined. Glucagon concentrations of 0.1 nM enhanced, whereas concentrations greater than 1 nM decreased, alcohol dehydrogenase. These effects became apparent after exposure of the cultures to glucagon for 4 or more days. The presence of corticosterone (1 microM) prevented the enhancing effect of 0.1 nM glucagon on alcohol dehydrogenase activity. The changes in alcohol dehydrogenase caused by glucagon were associated with parallel changes in the rate of ethanol elimination. Alcohol dehydrogenase appears to be rate-limiting for ethanol oxidation, as uncoupling of oxidative phosphorylation did not modify the rate of ethanol elimination. These studies suggest a physiologic role of glucagon in enhancing liver alcohol dehydrogenase activity, whereas higher pharmacologic concentrations of glucagon have an opposite, depressant effect.
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PMID:Effect of glucagon on alcohol dehydrogenase activity in rat hepatocyte culture. 375 18

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