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)

Homogenates of rat liver transaminate phenylpyruvate (PP), as well as alpha-ketoglutarate (alpha-KG), in the presence of L-tyrosine, 3,4-dihydroxyphenylalanine (L-DOPA) or L-tryptophan. Aminotransferase activity with phenylpyruvate and DOPA, but not with tyrosine, was inhibited by excess phenylpyruvate. Tyrosine and DOPA aminotransferase activities with phenylpyruvate were more heat stable than the corresponding activities with alpha-ketoglutarate. Aminotransferase activities with phenylpyruvate were not significantly induced following intraperitoneal injections of cortisol, glucagon or serotonin, compared with a 3 to 7-fold increase in the aminotransferase activities with alpha-ketoglutarate. Tyrosine:phenylpyruvate aminotransferase activity rose 40% at night, compared with a 300% increase in tyrosine:alpha-ketoglutarate aminotransferase activity. The results suggest that aminotransferases catalysing transfers between aromatic keto acids and aromatic amino acids are separate enzymes from those utilizing alpha-ketoglutarate as the acceptor keto acid.
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PMID:Differences in properties between aromatic amino acid: aromatic keto acid aminotransferases and aromatic amino acid: alpha-ketoglutarate aminotransferases. 614 79

Results from recent studies have indicated that pancreatic islet prohormone converting enzymes are membrane-associated in islet microsomes and secretory granules. This observation, along with the demonstration that proglucagon is topologically segregated to the periphery within alpha cell secretory granules in several species, led us to investigate the possibility that newly synthesized islet prohormones might be associated with intracellular membranes. Anglerfish islets were incubated with [3H]tryptophan and [14C]isoleucine for 3 h, then fractionated by differential and density gradient centrifugation. Microsome (M) and secretory granule (SG) fractions were halved, sedimented, and resuspended in the presence or absence of dissociative reagents. After membrane lysis by repeated freezing and thawing, the membranous and soluble components were separated by centrifugation. Extracts of supernatants and pellets were chromatographed by gel filtration; fractions were collected and counted. A high proportion (77-79%) of the newly synthesized proinsulin and insulin was associated with both M and SG membranes. Most of the newly synthesized proglucagons and prosomatostatins (12,000-mol-wt precursors) were also membrane-associated (86-88%) in M and SG. In contrast, glucagon- and somatostatin-related peptides exhibited much less membrane-association in SG (24-31%). Bacitracin, bovine serum albumin EDTA, RNAse, alpha-methylmannoside, N-acetylglucosamine, and dithiodipyridine had no effect on prohormone association with membranes. However, high salt (1 M KCl) significantly reduced membrane-association of prohormones. Binding of labeled prohormones to SG membranes from unlabeled tissue increased with incubation time and was inhibited by unlabeled prohormones. The pH optimum for prohormone binding to both M and SG membranes was 5.2. It is suggested that association of newly synthesized prohormones with intracellular membranes could be related to the facilitation of proteolytic processing of prohormones and/or transport from their site of synthesis to the secretory granules.
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PMID:Association of newly synthesized islet prohormones with intracellular membranes. 614 27

The brain concentration of 5-hydroxytryptamine (5-ht) and 5-hydroxyindoleacetic acid (5-HIAA) increased in rats maintained on restricted volume of low-protein or normal-protein diet, whereas these two agents decreased in rats fed low-protein diet ad libitum. In these two food-restricted groups brain 5-HT and 5-HIAA concentrations were not correlated with brain tryptophan hydroxylase activity, but the concentrations correlated closely with cerebral tryptophan concentrations. The cerebral tryptophan concentration in the two food-restricted groups was not consistent with the total or free tryptophan concentration in plasma. In these restricted rats cerebral tryptophan concentration was elevated, and, unlike the plasma tryptophan, it showed no diurnal variation. These results suggested that tryptophan uptake into the brain from plasma was enhanced by limiting food volume intake. Tryptophan uptake was increased by glucagon injection without changing the plasma tryptophan level, but injection of hydrocortisone or insulin had little or no effect on tryptophan concentration in either the plasma or brain. D-Glucose injection elevated plasma tryptophan concentration but decreased brain tryptophan concentration.
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PMID:Effect of food restriction on serotonin metabolism in rat brain. 615 51

The basal activity of tryptophan 2,3-dioxygenase (EC-1.13.11.11) in primary cultured rat hepatocytes decreased during culture, but addition of either tryptophan (2.5 x 10(-3) M) or dexamethasone (1 x 10(-6) M) could prevent the decrease. Addition of both compounds caused severalfold induction of activity. Glucagon (1 x 10(-8) M) alone did not induce the activity, but its inductive effect in combination with tryptophan was similar to that of tryptophan plus dexamethasone. The effect of glucagon was additive with those of tryptophan and dexamethasone and hence the highest induction (7-fold) was achieved by addition of all three inducers. Glucagon could be replaced by dibutyryl cyclic AMP (1 x 10(-5) M). Insulin (1 x 10(-8) M) inhibited the inductions by glucagon and dexamethasone, but not that by tryptophan. Cycloheximide inhibited the inductions by all three inducers, but actinomycin D inhibited only the induction by dexamethasone. These results suggest that the three compounds have different mechanisms of induction of tryptophan oxygenase activity: tryptophan prevents enzyme inactivation, dexamethasone may stimulate enzyme synthesis at the level of transcription, and glucagon may enhance the synthesis at the translational level.
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PMID:Insulin and glucagon as a new regulator system for tryptophan oxygenase activity demonstrated in primary cultured rat hepatocytes. 624 4

The direct time-resolved fluorescence anisotropy of the single tryptophan residue in the polypeptide hormone adrenocorticotropin-(1-24) (ACTH) and the fluorescence decay kinetics of this residue (Trp-9) are reported. Two rotational correlation times are observed. One, occurring on the subnanosecond time scale, reflects the rotation of the indole ring, and the other, which extends into the nanosecond range, is dominated by the complex motions of the polypeptide chain. The fluorescence lifetimes of the single tryptophan in glucagon (Trp-25) and the 23-26 glucagon peptide were also measured. In all cases the fluorescence kinetics were satisfied by a double-exponential decay law. The fluorescence lifetimes of several tryptophan and indole derivatives and two tryptophan dipeptides were examined in order to interpret the kinetics. In close agreement with the findings of Szabo and Rayner [Szabo, A. G., & Rayner, D. M. (1980) J. Am. Chem. Soc. 102, 554-563], the tryptophan zwitterion exhibits emission wavelength dependent double-exponential decay kinetics. At 320 nm tau 1 = 3.2 ns and tau 2 = 0.8 ns, with alpha 1 = 0.7 and alpha 2 = 0.3. Above 380 nm only the 3.2-ns component is observed. By contrast the neutral derivative N-acetyltryptophanamide has a single exponential decay of 3.0 ns. The multiexponential decay kinetics of the polypeptides are discussed in terms of flexibility of the polypeptide chain and neighboring side-chain interactions.
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PMID:Time-resolved fluorescence and anisotropy decay of the tryptophan in adrenocorticotropin-(1-24). 626 89

The metabolic effects of a protein-rich meal were studied for 3 h in 10 controls and in 20 cirrhotic patients. After protein ingestion, blood glucose did not vary significantly. Insulin and glucagon levels rose in controls and, more markedly, in cirrhotics. Aromatic amino acids and tryptophan increased more in cirrhotics as a result of their decreased liver function. Similarly, branched-chain amino acids increased by 153 +/- 14 nmol/ml X min (mean +/- SE) in controls and by 259 +/- 27 nmol/ml X min in cirrhotics (p less than 0.02), in the presence of a markedly increased insulin response. Branched-chain amino acid metabolism mainly occurs in skeletal muscle under insulin control; in cirrhosis, it might be reduced as a consequence of insulin resistance. To support this hypothesis, the effects of the protein meal were compared with those of an oral glucose load in 15 cirrhotic patients. Branched-chain amino acid response to protein ingestion significantly correlated with blood glucose response to oral glucose (r = 0.714), and with insulin resistance during the glucose tolerance test, when assessed by the insulinogenic index (r = 0.628). Similarly, in 8 patients, increased branched-chain amino acid response also correlated with the index of tissue sensitivity to insulin obtained by means of the glucose clamp technique during continuous insulin infusion (r = -0.809). We conclude that liver cirrhosis is characterized by an abnormal branched-chain amino acid response to protein ingestion, which matches the well-known intolerance to oral glucose. Both alterations are possibly due to decreased peripheral insulin activity on substrates.
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PMID:Plasma amino acid response to protein ingestion in patients with liver cirrhosis. 634 56

L-tryptophan was given to fasted rats intragastrically or intravenously at a dose of 500 of 166 mg/kg b.w., respectively. Mean (+/- SEM) plasma insulin levels rose after both stimuli and at 10, 30 and 45 min were 63 +/- 26, 86 +/- 25, 48 +/- 7 mU/l after oral, and 28 +/- 4, 25 +/- 6, 19 +/- 6 mU/l after intravenous administration, respectively; plasma tryptophan levels at the above intervals during the oral study were 27%, 60% and 128%, respectively of those during the intravenous study. Plasma GIP levels rose only after intragastric tryptophan administration, and plasma GLI levels did not change in response to either intragastric or intravenous tryptophan. Intragastric tryptophan consistently raised plasma pancreatic glucagon levels which were significantly higher than those observed in control rats given saline, 5, 10, 30 and 45 min after administration. The rise in plasma glucagon was attributed to the glucagonotropic effect of GIP.
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PMID:The differential effect of intragastric and intravenous tryptophan on plasma glucose, insulin, glucagon, GLI and GIP in the fasted rat. 637 8

Investigations were made on the effects of catecholamine (Cat) infusions with and without ammonia (NH3) on plasma and brain amino acids (AA) and brain neurotransmitters in dogs. Groups of four dogs were infused for 5 h with epinephrine (E), epinephrine + norepinephrine (E + NE), epinephrine + norepinephrine with NH3 during h 4 and 5 (E + NE + NH3), epinephrine + norepinephrine + tryptophan with NH3 during h 4 and 5 (T + E + NE + NH3), or saline (C). Cat decreased (P less than 0.05) plasma Gly, Thr, Lys, Pro, Val, Ser, Arg, Leu, Trp, Phe, Asn, Tyr, Met, Ile, Cit, and Asp. The decreases at h 3 for all were to a mean of 45% of 0 h and were associated with no changes in plasma insulin or glucagon. Cat increased plasma Tau and Orn. Of the most abundant brain AA (82% of total), E + NE + NH3 had no effect (GABA, Asp, Gly, Ala, p-ethanolamine) or increased (Glu, Gln, Tau) brain levels. These AA were unchanged by Cat alone. Of the remaining brain AA, most were decreased by Cat (7 of 16, P less than 0.05) and E + NE + NH3 increased brain Trp but had no effect on brain serotonin, 5-hydroxyindoleacetic acid, or NE. Cat changed plasma AA in a way similar to changes produced by NH3 infusion and seen with hepatic insufficiency due to portacaval shunts and nitrosamine-induced pathology. Cat reduced brain AA levels, and this was partially restored by NH3.
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PMID:Effects of catecholamines and ammonia on plasma and brain amino acids in dogs. 646 11

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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