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)

Addition of phenylephrine to isolated perfused rat liver is followed by an increased 14CO2 production from [1-14C]glutamate, [1-14C]glutamine, [U-14C]proline and [3-14C]pyruvate, but by a decreased 14CO2 production from [1-14C]pyruvate. Simultaneously, there is a considerable decrease in tissue content of 2-oxoglutarate, glutamate and citrate. Stimulation of 14CO2 production from [1-14C]glutamate is also observed in the presence of amino-oxyacetate, suggesting a stimulation of glutamate dehydrogenase and 2-oxoglutarate dehydrogenase fluxes by phenylephrine. Inhibition of pyruvate dehydrogenase flux by phenylephrine is due to an increased 2-oxoglutarate dehydroxygenase flux. Phenylephrine stimulates glutaminase flux and inhibits glutamine synthetase flux to a similar extent, resulting in an increased hepatic glutamine uptake. Whereas the effects of NH4+ ions and phenylephrine on glutaminase flux were additive, activation of glutaminase by glucagon was considerably diminished in the presence of phenylephrine. The reported effects are largely overcome by prazosin, indicating the involvement of alpha-adrenergic receptors in the action of phenylephrine. It is concluded that stimulation of gluconeogenesis from various amino acids by phenylephrine is due to an increased flux through glutamate dehydrogenase and the citric acid cycle.
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PMID:Effect of phenylephrine on glutamate and glutamine metabolism in isolated perfused rat liver. 614 74

In contrast to the changes seen in membrane transport systems for other neutral, anionic, and cationic amino acids, System N for glutamine, histidine, and asparagine in the rat hepatocytes shows nearly constant properties at the fetal, differentiated, and cultured hepatoma stages. These properties were tested by measuring the Na+-dependent transport of glutamine. This approximate constancy applies not only to the transport selectivity of the system among neutral amino acids, but also to its tolerance of Li+ as a substitute for Na+, its characteristic sensitivity to pH lowering, its relative sensitivity to N-ethylmaleimide, its stimulation by amino acid deprivation, and its failure to respond to insulin or glucagon. The properties of histidine as a substrate for System N were also examined. Inhibition studies with different cell types suggest that the Na+-dependent glutamine and histidine uptake is more restricted to System N in the hepatoma line H35 (H4-11-EC,3) and in the fetal hepatocyte than in hepatoma line HTC and the Ehrlich cells. The Na+-independent component of glutamine and histidine uptake was greater in the hepatoma cells in continuous culture than in fetal and adult hepatocytes in primary culture. Trans-stimulation of glutamine and histidine influx into H35 cells occurs predominantly by the Na+-independent route.
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PMID:Comparison of system N in fetal hepatocytes and in related cell lines. 630 40

1. The effectiveness of gluconeogenic precursors in hepatocytes isolated from 18 day old chick embryos is:Lactate much much greater than pyruvate greater than alanine = glutamine greater than glycerol and other amino acids. This result is qualitatively and quantitatively similar to hepatocytes isolated after hatching. 2. In the presence of endogenous glycogenolysis, conversion of [U-14C]lactate to glucose was used to estimate gluconeogenic flux and its control by hormones. 3. Glucagon failed to stimulate lactate gluconeogenesis although simultaneously increasing glycogenolysis. Insulin had no effects on gluconeogenesis.
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PMID:Gluconeogenesis in chick embryo isolated hepatocytes. 634 34

Metabolism of [2-13C]pyruvate, [1,2-13C]ethanol, and NH4+ in the presence and absence of 7 nM insulin has been followed at 35 degrees C by alternate scan 13C and 31P NMR at 90.5 and 145.8 MHz, respectively, in isolated perfused liver from 16-h fasted rats. With this technique, 31P and 13C NMR spectra are recorded simultaneously so that both phosphate metabolites and 13C-labeled metabolites could be followed, noninvasively, in perfused liver to give a comprehensive view of the response to a variety of stimuli. 13C-labeled glycogen increased synchronously, at a rate of 17 mumol of glucose units/g of liver/h, with the synthesis of 13C-labeled glucose, which also proceeded at a rate of 17 mumol/g of liver/h; glycogenesis was essentially a gluconeogenic process under these conditions and was not affected by the presence of insulin. From the position of the 13C-labeled citrate peak observed in liver, the measurement of Kd for the citrate-Mg complex under our conditions, and the expression relating these quantities to the concentration of free Mg2+, the intracellular level of free Mg2+ is estimated to be 0.46 +/- 0.05 mM in perfused rat liver. After subsequent administration of glucagon, a rapid decrease in glycogen and citrate was seen by 13C NMR and a 44% increase in glycero-3-phosphocholine was seen by 31P NMR; increase in glycero-3-phosphocholine is consistent with stimulation of liver phospholipase activity by glucagon. The co-administration of two different 13C-labeled substrates introduced multiplet structure arising from spin-spin interaction between labeled adjacent carbons into the peaks of several key metabolites. 13C enrichments at specific carbons of citrate, glutamate, glutamine, beta-hydroxybutyrate, and glucose and the distribution of intensity within the multiplets of specific carbons were measured in spectra of perfusates and extracts of the freeze-clamped livers. Within the context of a first order model for fluxes into the Krebs cycle and into glucose, analytical expressions were written that describe the intensity distributions within the several multiplets. In this way, a set of simultaneous equations was generated and solved in general form; when the measured intensity ratios are substituted into these expressions, relative fluxes under the conditions of the experiment can be estimated. Because a redundancy of information is available, checks on self-consistency are built into the estimated fluxes.
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PMID:Simultaneous 13C and 31P NMR studies of perfused rat liver. Effects of insulin and glucagon and a 13C NMR assay of free Mg2+. 635 20

Duodenopancreatectomy induces a severe glucagon deficiency and elevated plasma concentrations of alanine, aspartate, glycine, proline, serine, arginine, citrulline, ornithine, phenylalanine and tyrosine. Restoring high physiological plasma glucagon in six such patients by infusing 0.3 mg/24 h of exogenous glucagon reduced significantly (P less than 0.01 or 0.001) the mentioned amino acids (except phenylalanine) and further asparagine, glutamine, methionine and threonine. In six normal subjects the same infusion reduced significantly (P less than 0.05 to 0.001) plasma alanine, asparagine, glutamate, glutamine, glycine, proline, serine, threonine, arginine, ornithine, lysine and tyrosine. However, the effect was significantly (P less than 0.01 or 0.001) less marked for alanine, glutamine, glycine, methionine, serine, threonine and arginine. This particular glucagon sensitivity of duodenopancreatectomized patients suggests that glucagon deficiency is the cause of their hyperaminacidaemia. By contrast, lipoprotein concentrations were virtually unaffected by either glucagon deficiency or its replacement. In the light of the marked hypoaminacidaemia in glucagonoma patients these results attribute to glucagon a major role as a regulator of protein metabolism.
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PMID:Amino acids and lipoproteins in plasma of duodenopancreatectomized patients: effects of glucagon in physiological amounts. 640 37

Ewes bearing twins were starved for 10 days during the last month of gestation to induce ovine pregnancy toxaemia (OPT). Glucose turnover was measured by a primed continuous infusion of [U-14C]- and [6-3H]glucose at the end of 10 days of starvation (non-susceptible), or earlier when ewes became recumbent with OPT (susceptible). All ewes were slaughtered at the end of the infusion and hepatocytes were prepared in order to measure glucose production from different substrates. Many of the ewes had dead foetuses when slaughtered. Glucose production rates by hepatocytes with the substrates propionate, lactate or alanine were significantly less from the susceptible ewes than were those from non-susceptible ewes. These low rates were not stimulated by incubation with glucagon (10(-8) M), glutamine or glycerol. Rates of glucose turnover and of hepatic glucose production from all substrates were higher for ewes with dead than with live foetuses. The data support the hypothesis that pathogenesis of OPT is related to an impairment of hepatic gluconeogenesis, and further suggest that, in starved pregnant ewes, maternal glucose production may be restrained in the presence of a live foetus.
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PMID:Glucose turnover and hepatocyte glucose production of starved and toxaemic pregnant sheep. 665 39

PHI--a new candidate hormone from porcine intestinal tract-- corresponds to a linear heptacosapeptide amide of remarkable sequence homology to the known members of the glucagon family, particularly to the vasoactive intestinal peptide (VIP) and secretin. The position 24 usually occupied by an aminodicarboxylic acid omega-amide, in the present case, however, carries a glutamic acid, thus opening the question of whether this structural feature is related to desamidation in one of the isolation and characterization steps or of whether it is significant for this peptide factor. Consequently the heptacosapeptide amides corresponding to the proposed primary structure and to its 24-glutamine analogue have been synthesized. Comparative chromatographic and biological studies on the natural and the two synthetic products have confirmed the correctness of the primary structure proposed for the isolated PHI. Since [24-glutamic acid] and [24-glutamine]PHI exhibit no significant differences in their biological potencies, the main question is still open of whether the position 24 in native PHI is occupied by the aminodicarboxylic acid omega-amide (glutamine) or by N-substituted derivatives (N-glycosyl).
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PMID:Synthesis of the porcine intestinal peptide PHI and its 24-glutamine analogue. 668 13

Cytoplasmic protein in hepatocytes is continuously internalized and degraded by two lysosomal processes, 1) overt or macroautophagy, and 2) microautophagy, the latter involving dense bodies. The first is acutely regulated by amino acids, insulin, and glucagon; the second is also alterable, but responses are slower and probably adaptive in nature, as suggested in starvation-refeeding. Internalized protein in lysosomes was independently assessed from 1) lysosomal volumes and hepatocyte protein concentration and 2) its degradation products in liver homogenates; quantitative agreement was obtained between the two determinations. Agreement was equally close when the results were used to predict rates of hepatic proteolysis over the full range, assuming that k for all sequestered protein is equal to the turnover of macroautophagic vacuoles (0.087 min-1). These findings strongly indicate that internalization is an obligatory step in both phases of protein degradation. Acute proteolytic responses to amino acids were studied in rat livers perfused in the single-pass mode. Twelve amino acids exhibited no suppressive activity at the upper physiological limit of plasma amino acid concentrations (4 X normal), whereas seven were fully effective as a group. Of these, leucine was the most inhibitory at 4 X, but was inactive as 1 X. Deletion of the other regulatory amino acids from normal plasma mixtures, however, accelerated proteolysis strikingly as did omission of glutamine, glutamate, alanine, and glycine. Of the latter, only glutamine was directly inhibitory although its effectiveness was low. Restraint to protein degradation at normal plasma concentrations appears to be complex and to involve specific amino acid regulators as well as glucogenic amino acids in ways not yet understood.
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PMID:Lysosomal pathways in hepatic protein degradation: regulatory role of amino acids. 670 27

In isolated rat liver cells, vasopressin, like glucagon, promotes the metabolism of glutamine used at near-physiological concentration (1 mM). These findings indicate that, in vivo, both hormones might participate in the control of hepatic gluconeogenesis and ureogenesis from glutamine.
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PMID:Vasopressin promotes the metabolism of near-physiological concentration of glutamine in isolated rat liver cells. 671 87

The effects of a 4-day isocaloric isoprotenic dietary replacement of carbohydrate by fats were studied in six healthy subjects, the experimental diet being preceded and followed by a 3-day period of balanced diet. During the ketogenic regimen, the concentrations of fat derived substrates (free fatty acids, glycerol and 3-hydroxybutyrate) rose significantly and glucose levels decreased by 16.5 +/- 3.2% (mean +/- SEM). The hormonal pattern switched towards a catabolic mode with a fall in insulin levels (-44.0 +/- 6.3%) and a rise in glucagon concentration (+39.0 +/- 10.4%). A significant fall in triiodothyronine and rise in reverse triiodothyronine were observed, while thyroxine levels remained unchanged. The average levels of the most important gluconeogenic amino acids (alanine, glutamine, glycine, serine and threonine) were reduced by 8-34% while those of the branched chain amino acids increased by more than 50%. Since these changes reproduce those observed after a few days of total fasting, we suggest that it is the carbohydrate restriction itself which is responsible for the metabolic and hormonal adaptations of brief fasting.
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PMID:Hormonal and metabolic changes induced by an isocaloric isoproteinic ketogenic diet in healthy subjects. 676 Nov 85

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