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)

There is evidence supporting involvement of the parasympathetic nervous system in the control of glucagon secretion. We have investigated the possible role of vagal neuropathy in alcoholics as a cause of alcoholic hypoglycemia. Slow infusions of insulin (2.4 U/hr) were carried out in ten male alcoholics, four with and six without evidence of vagal neuropathy, and in six male controls. The fall in blood glucose levels and the rise in serum glucagon levels in the alcoholics with or without vagal neuropathy were not significantly different from controls. We conclude that vagal neuropathy in alcoholics has no effect on the glucagon response to hypoglycemia.
Alcohol Clin Exp Res 1983
PMID:Release of glucagon in male alcoholics with vagal neuropathy. 631 91

Acid-ethanol extracts of fetal bovine pancrease were examined for the presence of beta-endorphin-like immunoreactivity. Gel-filtration analyses revealed the presence of a major large-molecular-weight beta-endorphin immunoreactive species of approximately 20K delta. This molecular form maintained its size upon resubmission to gel filtration in the presence of 6 M guanidine hydrochloride, separated from the bulk of the glucagon immunoreactivity upon ion-exchange chromatography, showed proportional dilution in the beta-endorphin radioimmunoassay, and interacted in a biospecific manner with Concanavalin-A-Sepharose.
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PMID:Beta-endorphin-like immunoreactivity in extracts of the fetal bovine pancreas. Column chromatographic characterizations of a high-molecular-weight immunoreactive species. 632 Dec 78

The biosynthesis of insulin, in particular the occurrence of a proinsulin-like molecule (PILM), in the pancreas of the green anole, Anolis carolinensis, was investigated. The laboratory rat was used for comparison and validation of the procedures. Anolian pancreases were incubated in vitro with radiolabeled leucine or proline. Radioactivity incorporated into the acidic ethanol-soluble (AES) phase increased in an essentially linear manner with time. Selective incorporation of labeled amino acids into AES material was not enhanced by a high concentration of glucose (6 mg/ml), by the addition of glucagon, which increases cyclic AMP levels, or by the addition of cytochalasin B; yet all three conditions result in stimulated insulin secretion. Gel filtration of the AES material on columns of Bio-Gel P-30 revealed a major peak of radioactivity whose apex followed closely the apogee of porcine proinsulin. When this presumptive PILM was treated with trypsin and carboxypeptidase B, the radioactivity was shifted towards later elution volumes, but the peak of the converted anolian material was not coincidental with marker insulin. Immunopurification techniques and additional molecular filtrations resulted in the isolation of fractions with both insulin-like immunoreactivity (IRI) and radioactivity derived from tritium-labeled leucine. One peak of radiolabel was present in the region of the proinsulin standards. The level of radioactivity in the region of the insulin standards was relatively high after two days of organ culture of splenic pancreases. By polyacrylamide gel electrophoresis proteins that incorporated radiolabeled amino acids and had insulin-like immunoreactivity possessed migration patterns similar to those of mammalian proinsulin and insulin. The insulin-like component was less readily demonstrated than the proinsulin-like component and raises the possibility that anolian PILM may be a major storage form in this species. The results are consistent with the synthesis of a proinsulin-like precursor in the beta cells of the green anole. The results also provide evidence for a precursor-product relationship in the anolian beta cell.
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PMID:Biosynthesis of a proinsulin-like molecule in the pancreas of a lizard. 635 1

Rates of lipogenesis de novo have been studied in liver and epididymal fat pads of male rats chronically treated with ethanol. A solution of ethanol (150 ml/l) was administered as the only drinking fluid for 3 months with a standard solid diet; both food and drink were available ad lib. Lipogenesis in vivo was measured by the incorporation of tritiated water into lipid fractions: non-saponifiable lipid and fatty acids. Non-saponifiable lipid, both in liver and in adipose tissue, was unaffected by ethanol treatment. However, fatty acid synthesis de novo was significantly enhanced in both liver and adipose tissue, by 150 and 300% respectively. Plasma triacylglycerol and non-esterified fatty acid levels were unchanged and plasma glucose concentration slightly increased by ethanol administration. The rate of lipogenesis increased when insulin: glucagon increased twofold due to the effect of ethanol.
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PMID:The effect of chronic ethanol administration on lipogenesis in liver and adipose tissue in the rat. 635 75

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

Alternate scan 13C and 31P NMR has been used to follow the metabolism of 13C-labeled substrates, in the presence and absence of insulin, in isolated perfused liver from fasted rats. Because both 31P and 13C NMR spectra are recorded almost simultaneously with this method, both phosphate metabolites and 13C-labeled metabolites are measured, noninvasively and repetitively, to give an immediate, broad survey of the hepatic response to a variety of stimuli. During the metabolism of [2-13C]pyruvate, [1,2-13C]ethanol, and NH4+, 13C-labeled glycogen increases synchronously with, and at the same rate as, the synthesis of 13C-labeled glucose; thus, glycogenesis was essentially a gluconeogenic process under our conditions and was unaltered by the presence of insulin. From the position of the 13C-labeled citrate peak observed in liver, the measurement of KD for the citrate-magnesium 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. Later administration of glucagon led to a rapid decrease in glycogen and citrate and a 44% increase in glycero-3-phosphocholine (GPC); increase in GPC is consistent with stimulation of liver phospholipase activity by glucagon. Simultaneous administration of two different 13C-labeled substrates, or one doubly labeled substrate, introduced multiplet structure arising from spin-spin interaction between labeled adjacent carbons into the peaks of several key metabolites. The 13C NMR intensity distributions within the several multiplets are used, within the context of a first-order model for fluxes into the Krebs cycle, to estimate relative fluxes under the conditions of the experiment.
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PMID:Application of 13C and 31P NMR to the study of hepatic metabolism. 637 71

Carbohydrate metabolism has been studied in the offspring of rats fed liquid diet containing ethanol during gestation (EF group). Weight-matched control dams were given liquid diet either by the pair-fed technique (PF group) or ad libitum (AF group). EF and PF dams showed reduced food consumption and attenuated gain in body weight during the gestation period compared with the AF group. Blood glucose, liver glycogen, and plasma insulin levels were significantly reduced in EF and PF dams. Ethanol ingestion resulted in a significant decrease in litter survival and fetal body weight. At term, EF pups on average showed a 30% decrease in blood glucose levels and 40% decrease in plasma insulin levels compared with AF pups. One hour after birth, EF pups exhibited a marked increase in blood sugar level compared with either control group; subsequently, there was a marked decrease in blood glucose levels in EF pups. Liver glycogen stores were significantly reduced in term EF fetuses and were mobilized more rapidly in EF neonates than in either control group. Fetal hyperinsulinemia disappeared shortly after delivery in control pups, as expected; however, in EF pups, the fall in plasma insulin level was gradual. Fetal and neonatal plasma glucagon levels were not altered by ethanol exposure in utero. Blood glucose levels remained significantly low at 2 days of age in EF pups, but reached near control values at 4 days of age. Plasma insulin and glucagon were nearly equal in EF and control pups at 2 and 4 days of age. These results show aberrations in blood glucose, plasma insulin, and liver glycogen levels in offspring exposed to ethanol in utero.
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PMID:Effects of ethanol ingestion on maternal and fetal glucose homeostasis. 637 80

Primary cultures of adult rat hepatocytes were used to study the effects of 100 mM ethanol on various neutral amino acid transport systems. Ethanol exposure for 24 h selectively decreased amino acid uptake by the A and N systems by 40-70%, but had no significant effect on the ASC and L systems. The decrease in the A system was significant after 3 h of ethanol exposure, and the activity was not affected by the presence or absence of ethanol during the uptake measurements. Kinetic analysis showed that ethanol treatment affected predominantly the high-affinity component of A system activity by decreasing the apparent Vmax without significantly changing the apparent Km. Ethanol treatment did not prevent the cells from increasing A system activity in response to insulin and glucagon, but the magnitude of hormone-stimulated uptake was reduced.
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PMID:Ethanol treatment selectively decreases neutral amino acid transport in cultured hepatocytes. 647 6

Significant amounts of immunoreactive glucagon (IRG) were determined in acid-ethanol and acid-saline extracts of human thyroid. Glucagon content of healthy thyroid, expressed as ng/g wet tissue or pg/mg protein, was significantly greater after an acid-alcohol extraction than after an acid-saline one. Furthermore IRG in acid-alcohol extracts of healthy tissue was greater than in acid alcohol extracts of diseased thyroid, while with an acid-saline procedure glucagon content was greater in the extracts of pathological tissues. No significant differences in the IRG content between calcified or follicular thyroid nodules and nodular goiter were found. Aliquots of the tissue extracts, fractionated on Bio-Gel P-30 or Sephadex G-100 columns, gave a 3,500 mol wt immunoreactive peak suggesting the existence of a polypeptide with the same size and immunological properties as pancreatic glucagon. Also, active glucagon synthesis by pieces of thyroid was established by the incorporation of L3-H-tryptophan into a 3,500 mol wt polypeptide with specific immune reaction to 30K antiserum. These results suggest that thyroid gland could represent a source of extrapancreatic glucagon in men, and therefore contribute to the circulating levels of this hormone.
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PMID:Presence of immunoreactive glucagon in healthy and diseased human thyroid. Evidence of glucagon synthesis by this gland. 648 80

In an attempt to determine the ability of rat submaxillary glands to synthesise glucagon via protein intermediates, isolated cells from these glands were incubated in vitro with 3H-L-tryptophan and the acid-ethanol extracts of the cells were purified on Bio-Gel P-30 columns. Aliquots of the eluates were incubated with a C-terminal glucagon antiserum (30K) and the radioactivity bound to the glucagon antibody appeared to be distributed among proteins of Molecular weight greater than 40.14 and 3.5 Kdaltons. A similar elution pattern was obtained in the presence of urea (7 mol/l) and guanidine hydrochloride (6 mol/l). To determine the molecular weight of the immunoreactive material eluting before the 3.5 Kdalton polypeptide, aliquots of the cell extracts were immunoprecipitated and analysed by sodium dodecyl sulphate polyacrylamide gel electrophoresis. Polypeptides of 125.8, 63.1, 42.6 and 14.4 Kdaltons were obtained. These polypeptides incorporate more radioactive tryptophan with increase in the time of incubation. Pulse-chase experiments with unlabelled tryptophan, cycloheximide-treatment of isolated cells and limited tryptic digestion of the larger glucagon immunoreactive component, transform it into a 3.5 Kdalton polypeptide with immunological characteristics indistinguishable from pancreatic glucagon. These results suggest that the larger molecule contains glucagon and thus may serve as a precursor or an intermediate of extrapancreatic glucagon biosynthesis.
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PMID:Evidence of glucagon biosynthesis involving protein intermediates in rat salivary glands. 651 May 94


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