Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Since the small intestine contributes significantly to serum cholesterol and very low density lipoprotein levels, acute regulation of lipid synthesis was investigated in isolated rat intestinal cells incubated in Krebs-Ringer bicarbonate buffer with 5 mM glucose and [14c]acetate or 3H2O. Incorporation of [14c]acetate into cellular lipids was 6- to 8-fold greater in crypt than in villus cells. In both cell types the distribution of 14C among the various lipid classes was as follows: 52.5% in triglycerides, diglycerides, and monoglycerides; 22.3% in cholesterol; 8.3% in cholesteryl esters; 1.9% in fatty acids; and 15.0% in phospholidpids. In contrast, the medium lipids contained significantly higher amounts of tri-, di- and monoglycerides (61.1%) and lower amounts of cholesteryl esters (2.3%) and phospholipids (11.9%). After saponification, 2/3 of the recovered 3H2O was in fatty acids and 1/3 in cholesterol. Ethanol (10 mM) tripled 3H2O incorporation into cellular lipids but had no effect on [14c]acetate incorporation. Epinephrine and norepinephrine (10 micron), glucagon (10 micron), dibutyryl cyclic AMP (1MM), dexamethasone (1 mM and 1 micron), and cholera toxin (1 microgram/ml) did not affect [14c]acetate incorporation. We concluded that ehtanol stimulates intestinal lipid synthesis; however, in sharp contrast to their inhibition of lipid synthesis in hepatocytes and adipocytes, catecholamines, glucagon, and dibutyryl cyclic AMP do not inhibit lipid synthesis in intestinal cells.
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PMID:Lipid synthesis in isolated intestinal cells. 65 84

The role of cytosol components in the loss of rat liver adenylate cyclase activity which occurs during the preparation of particulate fractions from crude homogenates was studied. Epinephrine (5 micron)-, glucagon (10 micron)-, and fluoride (5 mM)- stimulated activities of twice-washed particulates were 31%, 58% and 67% of the homogenate activities, respectively. Addition of cytosol (100,000 X g supernatant devoid of adenylate cyclase activity) restored these activities to 82%, 88% and 80%. Cytosol also increased particulate basal activity from 60% of homogenate activity to 98%. The cytosol components capable of increasing adenylate cyclase activity were heat labile, nondialyzable, stable to freezing at -20 degrees, resistant to change of pH between 2 and 12, and unaffected by EGTA and NAD. Pretreatment with pepsin destroyed the effects of cytosol on both epinephrine- and glucagon-sensitive activities, whereas trypsin destroyed the effect of cytosol only on epinephrine-sensitive activity. The cytosol effect on adenylate cyclase was specific, since several purified proteins and ubiquitin, did not stimulate enzyme activity. Only part of the cytosol effect could be attributed to its GTP content. GTP at the concentration present in cytosol stimulated epinephrine-sensitive activity but significantly less than did cytosol, while GTP had no effect on glucagon-sensitive activity. Dialyzed cytosol retained its effectiveness even after removal of most (97%) of its GTP to a concentration where GTP had only a minimal effect on epinephrine-sensitive activity. Cytosol, unlike GTP, stimulated rather than inhibited activation by fluoride. Cytosol thus appears to contain at least two different protein components, which increase the activity of the two hormone-sensitive adenylate cyclases and presumably account in part for losses of adenylate cyclase activities seen during the preparation of particulates from homogenates.
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PMID:Activation of epinephrine and glucagon-sensitive adenylate cyclases of rat liver by cytosol protein factors. Role in loss of enzyme activities during preparation of particulate fractions, quantitation and partial characterization. 72 79

Insulin is the key hormone of carbohydrate metabolism, it also influences the metabolism of fat and proteins. It lowers blood glucose by increasing glucose transport in muscle and adipose tissue and stimulates the synthesis of glycogen, fat, and protein. The anabolic action of insulin is antagonized by the catabolic action of glucagon. This hormone stimulates glycogenolysis and gluconeogenesis. The molar insulin: glucagon ratio is a parameter for an anabolic or a catabolic situation. Epinephrine also antagonizes insulin action. Like glucagon it stimulates glycogenolysis. In addition it reduces the insulin sensitivity of peripheral tissues and inhibits the release of insulin. Growth hormone decreases glucose uptake in muscle and adipose tissue gluconeogenesis in liver. In the presence of insulin, growth hormone stimulates protein synthesis. The net metabolic effects of a single hormone are directly related to the activity of other synergistic or antagonistic hormones.
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PMID:Hormonal interactions in carbohydrate metabolism. 82 93

Rat liver plasma membranes are shown to catalyze the formation of adenosine 5'-phosphoroglycerol and adenosine 5'-phosphoromethanol from ATP and glycerol or methanol, respectively. In the presence of 2.7 M glycerol and 1 mM ATP, 30 nmol of adenosine 5'-phosphoroglycerol were formed in 10 min per mg of rat liver plasma membranes. The structures of these phosphodiesters were determined from the following evidence. Radioactivity was incorporated into the nucleotide from [alpha-32P]ATP, [2,8-3H]ATP, or [2-3H]glycerol. Treatment with snake venom phosphodiesterase I converted the nucleotides to AMP. The compound formed from glycerol and ATP co-migrated with adenosine 5'-phosphoroglycerol synthesized from glycerol and adenosine 5'-phosphoromorpholidate in five thin layer chromatography systems. The methyl derivative co-migrated with adenosine 5'-phosphoromethanol synthesized from methanol and adenosine 5'-phosphormorpholidate in several thin layer chromatography systems. The synthesis of these phosphodiesters was also catalyzed by chicken embryo fibroblast membranes and solubilized rat liver plasma membranes but not by rat heart plasma membrane preparations. Formation of significant amounts of these phosphodiesters required relatively high concentrations of the alcohols (greater than 1 M). The alcohol concentration dependence did not exhibit substrate saturation at physiologically meaningful concentrations of glycerol or methacol. It is proposed that either the alcohols examined were not the natural substrates for this enzyme or that the alcohol/AMP phosphodiesters were formed as a result of trapping of an enzyme/nucleotide intermediate. Adenosine 5'-phosphoroglycerol formation was inhibited approximately 50% by 15 mM NaF. Epinephrine, norepinephrine, glucagon, and prostaglandin E1 were without effect. Alloxan, an inhibitor of adenylate cyclase did not inhibit formation of adenosine 5'-phosphoroglycerol. It is concluded that adenylate cyclase was not responsible for formation of these phosphodiesters. The physiological significance of this reaction remains undefined.
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PMID:Formation of adenosine 5'-phosphoroglycerol from ATP and glycerol by rat liver plasma membranes. 83 37

Glucagon and L-epinephrine stimulate gluconeogenesis from 20 mM L-lactate, the effect being about 3 times greater in liver cells from fed rats than in those from fasted rats. The rate of pyruvate kinase flux was estimated to be less than 10% of the rate of gluconeogenesis from lactate in hepatocytes from fasted rats, and neither glucagon nor epinephrine lowered the absolute rate significantly. In hepatocytes from fed rats, however, the rate of pyruvate kinase was nearly one-half that of gluconeogenesis. Glucagon caused a marked depression of pyruvate kinase flux, with 1 muM glucagon lowering the rate to nearly the level found in cells from fasted rats Epinephrine at concentrations from 10(-8) to 10(-6) M actually increased pyruvate kinase flux during gluconeogenesis from lactate in cells from fed rats. These results are in accord with the view that the effects of glucagon and epinephrine on gluconeogenesis are not identical.
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PMID:Role of pyruvate kinase in the regulation of gluconeogenesis from L-lactate. 84 45

1. Adrenal and pancreatic endocrine responses to hypoxia and hypercapnia, of differing degrees of intensity, have been examined in conscious, unrestrained calves 3-5 weeks after birth. 2. The outputs of cortisol and corticosterone from the right adrenal gland were found to vary inversely with arterial Po2 between 17 and 55 mmHg. Significant increase in mean adrenal blood flow was not observed at arterial oxygen tensions above about 30 mmHg. 3. Release of physiologically effective amounts of catecholamines from the adrenal medulla occurred only in response to intense hypoxia (arterial Po2 17-1 +/- 2-8 mmHg) and was effectively abolished by section of both splanchnic nerves. Release of pancreatic glucagon in response to such intense hypoxia was unaffected by section of both splanchnic nerves and administration of atropine. In contrast, the rise in plasma pancreatic glucagon concentration during less intense hypoxia was abolished by autonomic blockade. 4. Hypercapnia produced by inhalation of either 5% or 10% CO2 for 30 min stimulated maximal release of adrenal glucocorticoids and caused a substantial rise in plasma glucagon concentration. In contrast, the adrenal medulla was found to be extremely resistant to hypercapnia. Significant release of catecholamines was only observed during intense hypercapnia (inhalation of 10% CO2) and noradrenaline was invariably found to be the predominant amine. 5. The results of these experiments show how endocrine responses to hypoxia and hypercapnia are graded in the conscious calf. Of the mechanisms we have examined the pituitary-adrenal cortical axis is the most sensitive and the adrenal medulla the most resistant, while the pancreatic alpha cell occupies an intermediate position.
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PMID:Adrenal and pancreatic endocrine responses to hypoxia and hypercapnia in the calf. 89 34

The uptake of macromolecular markers by fluid pinocytosis in the rat yolk sac was inhibited by glucagon, with half-maximal effect at a hormone concentration of approximately 3 X 10(-8) M. Glucagon had no effect on the cellular distribution of the marker subsequent to its uptake. Rates of uptake promptly returned to normal when the yolk sacs were transferred from a glucagon-containing to a glucagon-free medium. Epinephrine also inhibited, but only at much higher concentrations. The effect of the latter was augmented by theophylline. Insulin (10(-6) M) had no effect when added alone or with an inhibitory level of glucagon (10(-7) M). The presumption that the hormone effect was mediated by cyclic AMP was supported by the findings that the cellular levels of cyclic AMP were elevated in the presence of glucagon and that dibutyryl cyclic AMP could replace glucagon as an effective inhibitor. The conclusion that the hormone effect was on uptake rather than on subsequent regurgitation was based on the linearity of accumulation in both the presence and absence of glucagon and the inability of glucagon to stimulate loss of invertase from preloaded cells. Colchicine and vinblastine also inhibited uptake. This finding and those of others which are discussed suggest the possibility that effects of cyclic nucleotides on certain cell functions may involve their regulation of microtubular status.
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PMID:Effect of glucagon on pinocytosis by the yolk sac of the rat. 90 54

Seven men ran at 60% of individual maximal oxygen uptake to exhaustion during beta-adrenergic blockade with propranolol (P), during lipolytic blockade with nicotinic acid (N), or without drugs (C). The total work times (83 +/- 9 (P), 122 +/- 8 (N), 166 +/- 10 (C) min, mean and SE) differed significantly. Epinephrine rose progressively above preexercise levels (0.06 +/- 0.01 ng/ml); at exhaustion concentrations in P experiments (2.15 +/- 0.41) were larger than in N (1.08 +/- 0.31) and C (0.72 +/- 0.28) experiments. Norepinephrine increased consistently while insulin decreased. After an initial decrease glucagon concentrations increased progressively in parallel with declining plasma glucose and were at exhaustion always three times preexercise values. Thus beta-adrenergic blockade did not diminish the glucagon response. Nor was this response increased when alpha-receptor stimulation in P experiments was intensified. Carbohydrate combustion was smaller and NEFA and glycerol concentrations in serum larger during C experiments. Alanine concentrations were never raised at exhaustion. Accordingly, neither stimulation of adrenergic receptors nor NEFA and alanine concentrations are major determinants for the exercise-induced glucagon secretion in man. It is suggested that decreased glucose availability enhances the secretion of glucagon and epinephrine during prolonged exercise.
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PMID:Glucagon and plasma catecholamines during beta-receptor blockade in exercising man. 93 21

Determinations of the calcium pools in myocardial cells in vitro have shown the existence of at least three pools of exchangeable calcium. Epinephrine and glucagon were found to produce significant increases in the size of the two slower exchanging pools. Prostaglandins E1 and F1alpha also increased significantly calcium pool size whereas E2 and F2alpha did not; results which correlate well with the effects of the two former prostaglandins on intracellular cAMP levels. The results imply that these agents cause small, but significant, changes in the transmembrane exchange of calcium and large increases in the intracellular calcium pool. Effects which may involve the direct or indirect action of cAMP.
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PMID:The effects of hormones and prostaglandins on the calcium pools in cultured myocardial cells. 97 90

Recent data on various environmental stressors and blood hormone patterns are presented for lactating cattle. Known stressor effects of such factors as environmental temperature, air pollution, and noise on the plasma thyroxine, growth hormone, cortisol, prolactin, progesterone, luteinzing hormone, epinephrine, and norepinephrine of lactating cattle are discussed. Information on stressor effects is lacking on glucagon, insulin, vasopressin, calcitonin, oxytocin, thyrotrophic hormone, follicle stimulating hormone, melatonin, parathyroid hormone, and estrogens in the lactating cow. The importance of evaluating both the effect of environmental stressor and of production or lactation intensity is emphasized in the overall interpretation of changes in hormone of plasma. The short and long term environmental heat effects on thyroxine, cortisol, and growth hormone are clear with initial increased due to acute stressors and a decline of amounts in plasma after prolonged exposure to stressors. The relationship of amounts in plasma of these hormones to milk production appears to be related directly for cortisol, growth hormone, and prolactin with an inverse relationship with thyroxine. Epinephrine and norepinephrine seem to be elevated with prolonged environmental heat stress. However, the influence of intensity of lactation has not been measured. Hormones in plasma as they relate to stressor effects and milk production are important as potential indicators of the physiological state of a cow and reflect the physiological compensations a cow undergoes at various lactation intensities and/or stress exposure.
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PMID:Effects of environmental and other stressors on blood hormone patterns in lactating animals. 98 81


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