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)

The glucose analogue 1-deoxynojirimycin (dNOJ) and some of its N-substituted derivatives have recently been described as potent inhibitors of the hepatic glycogenolysis induced by glucagon, Ca2+ ionophores or anoxia. The inhibition increased with time, in spite of a persistently high level of phosphorylase a [Bollen, M., Vandebroeck, A. & Stalmans, W. (1988) Biochem. Pharmacol. 37, 905-909]. dNOJ equilibrates within 1 min across the plasma membrane of hepatocytes. It is not phosphorylated or oxidized in the cell. The observation that dNOJ did not affect gluconeogenesis excludes the possibility that glucose-6-phosphatase is the target for the inhibition of glucose production from glycogen. Neither were the catalytic activities of phosphoglucomutase and phosphorylase a affected by the compound. dNOJ and two N-substituted derivatives inhibited instantaneously and completely the alpha-1,6-glucosidase activity of the debranching enzyme, with I50 values in the mumolar range. In contrast, the glucanotransferase activity of the latter enzyme was not inhibited by the compounds at 0.2 mM. The effect of dNOJ was further studied in an in vitro model system of glycogenolysis. The results were compatible with a block of glycogenolysis at the time when phosphorylase has removed the available glucosyl residues from the outer chains of the glycogen particles. This mechanism appears to account for the lag in the response of glycogenolysis to dNOJ.
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PMID:The antiglycogenolytic action of 1-deoxynojirimycin results from a specific inhibition of the alpha-1,6-glucosidase activity of the debranching enzyme. 252 91

The effects of diabetes on basal calcium metabolism and the response to endocrine stimulation were studied in hepatocytes from acute and long term diabetic rats. Hepatocyte calcium sequestration and turnover were increased in both acute and chronic diabetes. Cytosolic free calcium (Cai2+) was significantly increased in the chronic diabetics, but the rise in Cai2+ evoked by epinephrine, angiotensin, vasopressin, and glucagon was depressed. The blunted stimulation of phosphorylase-alpha activity in the diabetics was influenced by a 50-60% decrease in total cell activity of glycogen phosphorylase and the decreased rise in cytosolic free calcium. Insulin replacement corrected both basal and stimulated changes in the acute diabetes model. Depressed [3H]inositol trisphosphate formation in response to epinephrine or vasopressin and increased intracellular organelle calcium buffering were observed in hepatocytes from diabetic animals; both may effect the diminished rise in Cai2+. Several possible causes for the depressed rise in Cai2+ after stimulation in chronic diabetic animals were eliminated: 1) the number and affinity of alpha 1-adrenergic receptors for epinephrine were normal; 2) the initial rise in calcium influx evoked by epinephrine or vasopressin was not depressed; and 3) the ability of inositol trisphosphate to release calcium from intracellular organelles was not changed. The results suggest that the diabetic changes in calcium-mediated endocrine regulation of hepatic carbohydrate metabolism contribute to the general pathology of the disease.
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PMID:Effect of diabetes on hormone-stimulated and basal hepatocyte calcium metabolism. 255 50

1. Livers from gsd/gsd rats, which do not express phosphorylase kinase activity, also contain much less particulate type-1 protein phosphatases. In comparison with normal Wistar rats, the glycogen/microsomal fraction contained 75% less glycogen-synthase phosphatase and 60% less phosphorylase phosphatase activity. This was largely due to a lower amount of the type-1 catalytic subunit in the particulate fraction. In the cytosol, the synthase phosphatase activity was also 50% lower, but the phosphorylase phosphatase activity was equal. 2. Both Wistar rats and gsd/gsd rats responded to an intravenous injection of insulin plus glucose with an acute increase (by 30-40%) in the phosphorylase phosphatase activity in the liver cytosol. In contrast, administration of glucagon or vasopressin provoked a rapid fall (by about 25%) in the cytosolic phosphorylase phosphatase activity in Wistar rats, but no change occurred in gsd/gsd rats. 3. Phosphorylase kinase was partially purified from liver and subsequently activated. Addition of a physiological amount of the activated enzyme to a liver cytosol from Wistar rats decreased the V of the phosphorylase phosphatase reaction by half, whereas the non-activated kinase had no effect. The kinase preparations did not change the activity of glycogen-synthase phosphatase, which does not respond to glucagon or vasopressin. Furthermore, the phosphorylase phosphatase activity was not affected by addition of physiological concentrations of homogeneous phosphorylase kinase from skeletal muscle (activated or non-activated). 4. It appears therefore that phosphorylase kinase plays an essential role in the transduction of the effect of glucagon and vasopressin to phosphorylase phosphatase. However, this inhibitory effect either is specific for the hepatic phosphorylase kinase, or is mediated by an unidentified protein that is a specific substrate of phosphorylase kinase.
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PMID:Decreased activity and impaired hormonal control of protein phosphatases in rat livers with a deficiency of phosphorylase kinase. 255 39

The influence of brain cholinergic activation on hepatic glycogenolysis and gluconeogenesis was studied in fed and 48-hour fasted rats. Neostigmine was injected into the third cerebral ventricle and hepatic venous plasma glucose, glucagon, insulin, and epinephrine were measured. The activity of hepatic phosphorylase-a and phosphoenolpyruvate-carboxykinase (PEP-CK) was also measured. Experimental groups: 1, intact rats; 2, rats infused with somatostatin through the femoral vein; 3, bilateral adrenodemedullated (ADMX) rats; 4, somatostatin infused ADMX rats; 5, 5-methoxyindole-2-carboxylic acid (MICA) was injected intraperitoneally 30 minutes before injection of neostigmine into the third cerebral ventricle of intact rats. MICA treatment completely suppressed the increase in hepatic glucose in fasted rats, but had no effect in fed rats. Phosphorylase-a activity was not changed in fasted rats, but increased in fed rats, intact rats, somatostatin-infused rats, somatostatin-infused ADMX rats, and ADMX rats in that order. PEP-CK was not changed in fed rats, but increased at 60 and 120 minutes after neostigmine injection into the third cerebral ventricle in fasted rats. We conclude that, in fed states, brain cholinergic activation causes glycogenolysis by epinephrine, glucagon, and direct neural innervation. In fasted states, on the other hand, gluconeogenesis is dependent on epinephrine alone to increase hepatic glucose output.
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PMID:Central nervous system control of glycogenolysis and gluconeogenesis in fed and fasted rat liver. 257 6

The purpose of this study was to investigate possible alterations induced by sepsis and endotoxicosis in the late phase of Ca2+-dependent signaling in rat liver. Hepatocytes isolated from septic or chronically endotoxin (ET)-treated rats were labeled with [32P]H3PO4 and stimulated with various agents. Proteins were resolved by one-dimensional polyacrylamide gel electrophoresis and autoradiographed. Vasopressin (VP)- and phenylephrine (PE)-induced responses were attenuated in both septic and ET-treated rats for cytosolic and membrane proteins compared with their respective controls. Glucagon and 12-O-myristate phorbol-13-acetate (TPA) affected only the phosphorylation of membrane proteins. Glucagon-induced changes in the phosphorylation of membrane proteins were affected by both sepsis and endotoxicosis, whereas TPA-stimulated phosphorylation was lowered only in endotoxicosis. Response to the Ca2+ ionophore A23187 was depressed in septic rats for cytosolic proteins. The phosphorylation of two cytosolic proteins, i.e., 93 and 61 kDa (previously identified as glycogen phosphorylase and pyruvate kinase, respectively), in response to VP, PE, and A23187 was severely impaired by endotoxicosis and sepsis. TPA did not affect the phosphorylation state of these two proteins. The results show that sepsis and endotoxicosis produce perturbations of the phosphorylation step in Ca2+ transmembrane signaling. Such changes can explain alterations of glycogenolysis and gluconeogenesis associated with sepsis and endotoxicosis.
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PMID:Protein phosphorylation in isolated hepatocytes of septic and endotoxemic rats. 258 48

Both dose-response curves and time-courses of plasma glucose levels after single maximal doses showed that in vivo glycogenolytic responsiveness to glucagon and epinephrine was significantly higher in developing hypothyroid rats, whereas it remained unchanged after vasopressin and angiotensin II injections. In contrast with the decreased basal activity of phosphorylase(a), the glucagon-stimulated activity increased in hypothyroid rats, whereas it was only slightly modified under vasopressin stimulation. Daily thyroxine treatment abolished these abnormalities. Thus, there is a close correlation between glucose output and enzyme activation. The maximal binding capacity of [3H]vasopressin and [125I]glucagon was significantly decreased in hypothyroid rats, without changes in the apparent dissociation constant of hormone from its specific receptor. Daily thyroxine treatment also abolished this deficit, which moreover appeared to be independent of possible changes in plasma hormone levels. With respect to glucagon action, neither basal nor Gpp(NH)p-stimulated adenylate cyclase activities were affected in hypothyroid rats. Glucagon-sensitive adenylate cyclase activity and the apparent activation constant appeared to be unaffected. The apparent discrepancy between the results obtained from in vivo and in vitro experiments is discussed on the basis of different membrane transducing phenomena and related intracellular mechanisms underlying the biological response to hormonal stimulation.
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PMID:Glycogenolytic responsiveness to glucagon, epinephrine, vasopressin and angiotensin II in the liver of developing hypothyroid rats. A comparative study of in vitro hormonal binding and in vivo biological response. 259 54

Glucagon (0.01 microgram) administered through the intracerebroventricular route in anaesthetised mongrel dogs, caused a significant rise in blood glucose and a fall in liver glycogen (P less than 0.01). Concurrently, it increased the liver phosphorylase, glutamic oxaloacetic transaminase, glutamic pyruvic transminase and lipase activities by 30 min. Identical changes were observed in vagotomised animals. In pancreatectomised animals as well as in spinal cord transectomised animals, glucagon did not cause these changes. The study indicated that the hyperglycaemia produced by the centrally administered glucagon, is possibly a result of liver glycogenolysis and gluconeogenesis induced by endogenous glucagon secreted from the pancreas, the stimulus for which is the hypothalamo-pancreatic fibres responding to glucagon sensitive neurones in the hypothalamus.
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PMID:Effect of centrally administered glucagon on liver glycogen & enzymes in anaesthetised dogs. 262 7

Different doses of glucagon and glucagon-like peptide (GLP) isolated from coho salmon, Oncorhynchus kisutch were tested in vivo and in vitro on juvenile coho and chinook (O. tshawytscha) salmon. Results obtained suggest an involvement of these peptides in the regulation of plasma glucose, plasma fatty acids, liver glycogen, and the hepatic enzymes: glycogen phosphorylase, pyruvate kinase, triacylglycerol lipase, and glucose-6-phosphate dehydrogenase. Metabolic effects were more enhanced in summer than either in spring or in autumn. GLP was less effective than glucagon in stimulating glycogenolysis in vivo. Salmon glucagon, especially in low concentrations, was generally more potent metabolically than mammalian (porcine/bovine) glucagon. The interaction between glucagon-family peptides and insulin seems to be different from the one described in mammals: glucagon and GLP either lowered plasma circulating levels of insulin or showed no effect. Only at the time of parr-smolt transformation did GLP slightly elevate plasma insulin levels in coho salmon.
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PMID:Metabolic effects of salmon glucagon and glucagon-like peptide in coho and chinook salmon. 265 Dec 8

A series of experiments using isolated rat hepatocytes was carried out to establish rat liver cells in suspension as a physiological model for examining GH responses, and to determine whether acute recombinant bovine GH (rbGH) treatment of rat liver cells increased glucose output and/or suppressed fatty acid synthesis from lactate. Rat liver cells were isolated by collagenase perfusion and incubated in short-term (less than 60 min) suspension. The amount of insulin, glucagon or vasopressin required to elicit a half-maximal response was within the physiological range of the circulating hormone. When hepatocytes from normal rats were acutely (less than 60 min) treated with 0, 0.1, 10, 100 or 1000 nmol rbGH/l, rates of hepatocyte glucose output and fatty acid synthesis were unaltered. In addition, acute rbGH treatment (1000 nmol/l) did not alter hepatocyte responsiveness to insulin or vasopressin. However, acute rbGH treatment of hepatocytes isolated from hypophysectomized rats significantly (P less than 0.05) increased the rate of glucose output twofold and moderately (P less than 0.10) enhanced fatty acid synthesis. The accelerated rate of glucose production was not accompanied by an increase in the amount of glycogen phosphorylase-a. The observations with liver cells from hypophysectomized rats are not consistent with a GH receptor-transducing mechanism which is like that for glucagon (adenylate cyclase-linked) or insulin (tyrosine kinase-linked).
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PMID:Growth hormone acutely increases glucose output by hepatocytes isolated from hypophysectomized rats. 267 Dec 41

The effects of extracts of muscles of mackerel (Scomber japonicus; M-ext) on hepatic glycogenolysis were investigated by a rat liver perfusion method. M-ext inhibited glucagon- and cyclic adenosine monophosphate (AMP)-induced glycogenolysis but was ineffective on phenylephrine-induced glycogenolysis. The contents of hepatic glycogen and cyclic AMP, and phosphorylase and glycogen synthase activities in liver were measured after perfusion with glucagon. M-ext inhibited the increase of cyclic AMP and activation of phosphorylase. It is considered that M-ext inhibits hepatic glycogenolysis caused by glucagon through a cyclic AMP-dependent mechanism.
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PMID:Inhibitory effect of extracts of muscles of mackerel (Scomber japonicus Houttuyn) on hepatic glycogenolysis in rats. 274 99

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