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)

We examined the level of plasma amino acids, glucose, immunoreactive insulin (IRI) and immunoreactive glucagon (IRG) of patients in the fasted state with acute hepatitis in the actual acute stage (AHa), acute hepatitis in the convalescent stage (AHc), chronic active hepatitis (CAH), chronic persistent hepatitis (CPH) and liver cirrhosis (LC). In AHa patients, the plasma glucose (FPG), plasma alanine (Ala), tryptophan (Trp) and histidine (His) levels were significantly lower and plasma cystine (Cys) level significantly higher than the control levels. This however, was not the case in the other patients. The glutamic acid (Glu) concentration was significantly higher in AHa (p less than 0.02), CAH (p less than 0.001) and CPH (p less than 0.001) and the tyrosine (Tyr) concentration was significantly higher in AHa (p less than 0.02), CPH (p less than 0.001), CAH (p less than 0.001) and LC (p less than 0.001) than they were in the controls. The lysine (Lys) concentration was significantly raised in the AHa (p less than 0.02) and CPH (p less than 0.05) cases. The IRG level was significantly higher in AHa (p less than 0.001), in AHc (p less than 0.01) and LC (p less than 0.01). Valine (Val) showed a significant decrease in concentration in AHa (p less than 0.01) and LC (p less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Profiles of plasma amino acids in fasted patients with various liver diseases. 208 40

An anorexigenic substance (FS-T), found in feces, isolated and injected intraperitoneally, induced significant feeding suppression in Wistar rats and in genetically obese Zucker rats (fa/fa) and their lean littermates. The concentration of total plasma amino acids 2 h after FS-T injection (the time of maximum feeding suppression) was 71.0, 68.6 and 60.2% of that of controls for Wistar and Zucker obese and lean rats, respectively. By 48 h after injection of FS-T, food intake and the concentration of total plasma amino acids had returned to normal. Plasma tryptophan levels and the ratio of tryptophan to neutral amino acids were also monitored to elucidate the relation between FS-T and appetite. Two h after injection of FS-T, the ratio of tryptophan to neutral amino acids had increased in Wistar rats, while no change was detected in either obese or lean Zucker rats. However, no change was observed in plasma glucagon levels in Wistar rats, but a significant increase was found in both obese and lean Zucker rats at 2 h after FS-T injection.
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PMID:Influence of fecal anorexigenic substance (FS-T) on plasma amino acids in Wistar and Zucker obese (fa/fa) rats. 267 67

The synthesis of monofluorescein, monorhodamine, and mono-4-nitrobenz-2-oxa-1,3-diazole (NBD) derivatives of glucagon is reported. The fluorescent groups were introduced by converting tryptophan-25 to 2-thioltryptophan using thiol-specific fluorescent reagents. All derivatives retained the ability to activate adenylate cyclase when compared to glucagon and thus were considered full agonists. IC50 values of 6.8.10(-9), 1.7.10(-8), 1.8.10(-8) and 5.4.10(-9) M were measured in rat liver membranes for NBD-, fluorescein-, rhodamine-Trp25-glucagon and native glucagon, respectively. From the IC50 values Kd values of 2.16.10(-9), 4.10(-9), 2.10(-9) and 1.72.10(-9) M were calculated for the binding of NBD-, fluorescein-, rhodamine-Trp25-glucagon and native glucagon, respectively. The highest quantum yield (0.18) of the monomer derivatives was obtained with fluorescein-Trp25-glucagon in phosphate-buffered saline (pH 7.4). Difluorescein-glucagon was also prepared by reacting the amino groups of histidine-1 and lysine-12 with fluorescein isothiocyanate and dimer derivatives were prepared using fluorescein-labelled 2-thiolTrp25-glucagon. Difluorescein-glucagon bound only weakly to glucagon receptors and displayed antagonist properties. The dimer derivative formed from two difluorescein-2-thiolTrp25-glucagon molecules had similar poor binding qualities, whereas the dimer formed from difluorescein-2-thiolTrp25-glucagon and 2-thiolTrp25-glucagon exhibited, at low concentrations, properties similar to monofluorescein-glucagon. Both dimer derivatives were only sparingly soluble in aqueous medium. Specific binding of fluorescein-Trp25-glucagon and difluorescein-glucagon to rat hepatocytes was followed using flow cytometry.
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PMID:Fluorescent glucagon derivatives. I. Synthesis and characterisation of fluorescent glucagon derivatives. 284 91

In recent years, short-term effects of the composition of each meal on the synthesis of brain neurotransmitters have been studied. This paper reviews studies of the influence of dietary precursors such as tryptophan and other competing amino acids on serotonin synthesis and metabolism and emphasizes the important influence of insulin. The paper then focuses on assessment of newborn state behavior, since evidence in adult humans has suggested a relationship between sleep behavior and brain serotonin levels. Several studies are then summarized. First, a study of healthy full-term newborns examining the relationship between diet and sleep behavior showed that infants fed tryptophan entered active and quiet sleep sooner than infants fed valine and low carbohydrate. Other studies designed to examine the influence of hyperinsulinemia on this system are then described. An observational study of newborns of diabetic mothers during the first weeks of life showed that they were quieter babies, with difficulties in visual orientation and motor performance. Plasma amino acid ratios studied during a glucagon-stimulation test in an infant with hyperinsulinemia showed a marked increase in parallel with changes in insulin levels. The results suggest that infant sleep behavior can be a sensitive dependent variable in studies of behavioral effects of diet and suggests that variations in serotonin levels may play a modulating role.
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PMID:Nutrients, neurotransmitters and infant behavior. 286 87

The quantitative importance of the individual steps of aromatic amino acid metabolism in rat liver was determined by calculation of the respective Control Coefficients (Strengths). The Control Coefficient of tryptophan 2,3-dioxygenase for tryptophan degradation was determined in a variety of physiological conditions and with a range of activities of tryptophan 2,3-dioxygenase. The Control Coefficient varied from 0.75 with basal enzyme activity to 0.25 after maximal induction of the enzyme by dexamethasone. The remainder of the control for tryptophan degradation was associated with the transport of the amino acid across the plasma membrane, with only very small contributions from kynureninase and kynurenine hydroxylase. The Control Coefficients of tyrosine aminotransferase for tyrosine degradation were approx. 0.70 and 0.20 with basal and dexamethasone-induced tyrosine aminotransferase activities respectively; the Control Coefficients of the transport of the amino acid into the cell were 0.22 and 0.58 respectively. Phenylalanine hydroxylase was found to have a Control Coefficient for the degradation of phenylalanine of approx. 0.50 under conditions of basal enzyme activity; after maximal activation by glucagon, the Control Coefficient decreased to 0.12. The transport of phenylalanine was responsible for the remaining control in the pathway. These results have important implications, directly for the regulation of aromatic amino acid metabolism in the liver, and indirectly for the regulation of neuroamine synthesis in the brain.
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PMID:Quantification of the importance of individual steps in the control of aromatic amino acid metabolism. 287 85

By isolated perfused pancreas of Wistar rats the glucose (11 mmol/l) and arginine (10 mmol/l) stimulated insulin (IRI) and glucagon (IRG) secretion was measured in order to investigate the inhibitory activities of somatostatin-14 (SS 14) and the somatostatin analogue [3,14-L-seleno-cysteine, 8-D-tryptophan]-somatostatin (SeSS). SS-14 or SeSS (152.8 nmol/l) inhibit the glucose stimulated IRI secretion by 75 and 65%, respectively. Only the second phase of the biphasic arginine stimulated insulin secretion pattern by 40%. SeSS has under these conditions no effect, whereas 58 nmol/l SS-14 or SeSS show a suppressing effect on the first (20 and 55%, respectively) and second phase (65 and 85%, respectively) of the insulin secretion. Using 5.8 nmol/l SS-14 or SeSS the arginine stimulated IRG secretion was inhibited only in the second phase of the biphasic glucagon secretion pattern by about 40%. 58 nmol/l SS-14 or SeSS show an inhibiting effect on the first and on the second phase of secretion, in both cases about 50%. It is concluded that in the SS-14 molecule the sulfur of cysteine in position 3 and 14 can be exchanged by selenium without modifying the biological activities measured in the glucose or arginine stimulated IRI and IRG secretion in vitro. The D-Trp8 in the SeSS analogue does not show the typical better inhibitory action of D-Trp8-SS-14 on insulin and glucagon secretion compared with SS-14. Possibly the selenium in the SeSS analogue abolishes this effect.
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PMID:[Action of [3,14-L-selenocysteine, 8-D-tryptophan]-somatostatin on insulin and glucagon secretion of the isolated perfused pancrease of the Wistar rat]. 287 14

This study was performed to assess the relationships between prohormone transport and processing in separate cell types in pancreatic islet tissue. Anglerfish islets were subjected to pulse-chase incubation with [3H]tryptophan and/or [35S]cysteine. Tissue and media were removed at specific time points during the incubation and prepared for electron microscopic examination or biochemical analysis. Specific islet cell types were identified ultrastructurally using protein A gold immunocytochemistry. Transport of newly synthesized peptides through specific subcellular compartments was monitored using electron microscopic autoradiography. Prohormone-product ratios were established by gel filtration and high-performance liquid chromatography analyses of tissue extracts. Complete analyses were performed on A-cells (source of proglucagon-II, glucagon-II, and glucagon-like peptide-II), B-cells (proinsulin and insulin), D-cells (prosomatostatin-II and somatostatin-28), and S-cells (prosomatostatin-I and somatostatin-14). Transport of newly synthesized peptides proceeded from rough endoplasmic reticulum (RER) to Golgi complex and then to mature secretory granules in all cell types. The transport rate was most rapid in A- and B-cells, slower in S-cells, and slowest in D-cells. The T1/2 for conversion of prohormone to product(s) was shortest in S-cells (150 min), slightly longer in B-cells (155 min), much longer in D-cells (259 min), and greater than 300 min in A-cells. These results demonstrate that the transport/prohormone conversion relationships are unique in each of the islet cell types monitored.
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PMID:Simultaneous assessment of prohormone transport and processing in four separate islet cell types: a combined autoradiographic and biochemical study. 290 25

We have studied the viscosity dependence of the acrylamide quenching of the fluorescence on the internal tryptophan residues in cod parvalbumin and ribonuclease T1, as well as the model systems. N-acetyl-L-tryptophanamide and glucagon. For the latter systems, the apparent rate constant, kq(app), for acrylamide quenching shows a typical diffusion-limited behavior. For parvalbumin and ribonuclease T1, however, the viscosity dependence of kq(app) is quite different. There is little change in the kq(app) values on increasing the bulk viscosity from 1 to 10 cP (by addition of glycerol), but a further increase from 10 to 100 cP results in a significant reduction in the kq(app). Both an unfolding mechanism and a quencher penetration mechanism are considered to explain the results. Only the penetration mechanism is found to be consistent, and our data are interpreted as indicating that the rate-limiting step for quenching goes from being that of diffusion through the protein matrix, at low viscosity, to diffusion through the bulk solvent, at high viscosity. By also considering the Kramers' relationship in fitting our data, we are able to obtain insight regarding the coupling between internal fluctuations in the structure of the protein and motion of the bulk solvent. For parvalbumin and ribonuclease T1, the internal dynamics are found to be very weakly coupled to the bulk.
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PMID:Viscosity dependence of the solute quenching of the tryptophanyl fluorescence of proteins. 310 4

We compared the acute effects of intragastric administration of protein and carbohydrate on tryptophan and 5-hydroxytryptamine (5HT) in rat brain, pineal, intestine, and pancreas. Protein decreased and carbohydrate increased brain indoles relative to water-infused controls. These effects were due to competition between the large neutral amino acids for entry into the brain. This competition does not exist in the pineal. The macronutrients had no effect on pineal tryptophan metabolism. In the intestine, protein resulted in higher tryptophan levels as compared to controls, owing to absorption of tryptophan in the protein. However intestinal 5HT levels were influenced by factors other than precursor availability. Pancreatic indoles were affected in a similar manner to the brain indoles. Competition between the large neutral amino acids for entry into the pancreas was also indicated by the finding that valine administration lowered brain and pancreatic tryptophan, but not the levels in the intestine and pineal. It remains to be seen whether the decrease in pancreatic 5HT after a protein meal and the increase after carbohydrate modulate the release of insulin and glucagon.
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PMID:Effects of carbohydrate and protein administration on rat tryptophan and 5-hydroxytryptamine: differential effects on the brain, intestine, pineal, and pancreas. 316 82

Eight men were given 2 casein meals, one with and one without a supplement of arginine and glycine, to measure the effect on plasma amino acids, insulin and glucagon. Supplementation resulted in increased levels of plasma glucagon, glycine and arginine, a tendency to decreased insulin and significantly lower insulin/glucagon ratio, tryptophan and tyrosine. The data suggest that insulin and glucagon, which control cholesterol metabolism, respond to dietary and postprandial plasma amino acid levels of arginine and glycine.
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PMID:Testing a mechanism of control in human cholesterol metabolism: relation of arginine and glycine to insulin and glucagon. 328 27


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