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)

Increased plasma levels of the catabolic hormones glucagon, epinephrine, and cortisol have been implicated in mediating various metabolic alterations in trauma and sepsis. Their role in altered protein turnover and amino acid transport in skeletal muscle during sepsis, however, is not known. In the current study, rats were infused with a mixture of the catabolic hormones for 16 hours. Control animals were infused with vehicle solution. Protein synthesis and degradation rates were measured in incubated, intact soleus muscles as incorporation of 14C-phenylalanine into protein and release of tyrosine into incubation medium, respectively. Muscle amino acid uptake was determined by measuring the intracellular to extracellular ratio of [3H]-alpha-aminoisobutyric acid after incubation for 2 hours. Infusion of catabolic hormones for 16 hours resulted in elevated plasma glucose and lactate levels, reduced plasma concentrations of most amino acids, and accelerated muscle protein breakdown, similar to previous findings in septic rats. Protein synthesis rates and amino acid uptake in incubated muscles were not significantly different in control and hormone-infused rats. The current study suggests that increased muscle proteolysis in sepsis and severe injury may be mediated in part by catabolic hormones. In contrast, reduced muscle protein synthesis and amino acid uptake are probably signaled by other substances or mechanisms.
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PMID:Effect of catabolic hormone infusion on protein turnover and amino acid uptake in skeletal muscle. 230 36

Galanin, a 29 amino acid peptide, inhibits insulin and somatostatin secretion from the isolated, perfused dog pancreas. To assess the nature of the influences of galanin on the endocrine pancreas, we examined the effects of porcine galanin and six different galanin analogues at the equimolar concentration of 1 nmol/l on the hormone release from the isolated, perfused dog pancreas. It was found that galanin2-29 (by 75 +/- 4%), like the native galanin1-29 (by 90 +/- 3%) potently inhibited insulin secretion (p less than 0.001). In contrast, galanin3-29 did not significantly affect insulin secretion. This indicates that removal of the two N-terminal amino acids markedly reduces the potency of galanin. Also, the replacement of the amino acid number 2 (Trp) by Tyr or Phe was followed by a loss of the insulin lowering effect of galanin at this dose level. Likewise, galanin10-29 had no significant effect on insulin secretion. In contrast, the C-terminally deleted galanin1-15 significantly inhibited insulin secretion (by 24 +/- 5%; p less than 0.01), though with a lower potency than did native galanin (p less than 0.05). Consequently, the C-terminal end of galanin is also of importance for the effect. Somatostatin secretion was inhibited by galanin (p less than 0.001), but not by any of the other investigated peptides. Glucagon secretion was not affected by galanin. It is concluded that the two N-terminal amino acids of galanin are essential for the inhibitory action on the insulin secretion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:On the nature of the galanin action on the endocrine pancreas: studies with six galanin fragments in the perfused dog pancreas. 247 81

Two small peptide antigens, glucagon and enkephalin (5-L-leucine), were covalently immobilised using either glutaraldehyde or bis-(sulphosuccinimidyl) suberate to an adsorbed layer of phenylalanine-lysine copolymer (PL) or partially acetylated PL (APL) on polystyrene. Both copolymers formed stable layers, particularly APL after adsorption from solution in distilled water. Adsorption of the copolymers under these conditions and subsequent coupling of the antigens yielded solid phases with low non-specific immunoglobulin binding characteristics in an enzyme-linked immunosorbent assay (ELISA) to detect peptide-specific antibodies in rabbit serum. The signal-to-noise ratio in this ELISA was dependent on the combination of copolymer, antigen and coupling reagent employed. Removal from the solid-phase of weakly bound antigen by washing with solutions containing Tween 20 or sodium dodecyl sulphate (SDS) increased assay sensitivity, which was 2-4-fold greater than when simple antigen adsorption was utilised. In the ELISA, the coefficient of variation was lower when covalent antigen coupling was employed.
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PMID:Solid-phase immunoassay of serum antibodies to peptides. Covalent antigen binding to adsorbed phenylalanine-lysine copolymers. 249 9

The seric levels of gastrin, pancreatic glucagon, pancreatic polypeptide, enteroglucagon, motilin and cholecistokinin were evaluated in ten patients with chronic Chagas' disease and compared with those observed in nine normal control subjects. The seric values of all the hormones were determined on basal stimulation, after continuous intravenous secretin infusion and infusion of stepwise increased concentrations of caerulein (direct stimulation), and after intravenous secretin administration followed by intraduodenal instilation of increased concentrations of phenylalanina (combined stimulation). All the hormones, basal and after direct stimulation, showed similar values, except gastrin that in the chagasic group presented higher levels than in control subjects. Phenylalanine and pancreatic polypeptide showed significantly higher values in the control group than in the one of patients with Chagas' disease. The hormonal response in patients with chronic Chagas' disease suggested a neural impairment of the enteropancreatic axis.
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PMID:[Gastro-entero-pancreatic hormones in patients with chronic Chagas' disease]. 251 72

In vitro assessment was made of the hormone-release capability of splenic pancreatic tissue 16 days after adult chickens had 99% of the pancreatic mass surgically removed. The objective of this study was to evaluate if the enlargement of the splenic lobe remnant after 99% pancreatectomy was attended by alterations in the responsivity of hormone release and, if so, were such changes reflective of all pancreatic hormones. After a 24-hr fast, splenic lobe tissue was obtained from young adult chickens on Postoperative Day 16, diced into 18-22 mg cubes, and incubated in vitro in media containing varying amounts of glucose with or without added somatostatin (SRIF). At 15-min intervals, the tissue cubes were transferred to fresh media and samples of each medium measured for insulin, glucagon, and APP. Viability of the tissue after 75 min was tested by tissue response to added 5 mM phenylalanine. The results obtained indicated that while total content of all four hormones (including SRIF) increased with tissue enlargement, the concentration of each decreased significantly except for SRIF, which remained at control levels. Further, the sensitivity of the B-cell in releasing insulin when confronted by a glucose challenge was not altered by previous pancreatectomy, while that of glucagon release from the A-cell was depressed. A-cell responsivity to SRIF does not appear to be adversely affected by previous 99% pancreatectomy. APP release was least affected by SRIF addition to the media, although depression by high glucose occurred. It is concluded that differential alterations occur in chicken pancreatic hormone-releasing cells as a result of 99% pancreatectomy. The efficacy in maintaining low, but still adequate, plasma I/G molar ratios (reported earlier) by the splenic remnant tissue either reflects a remarkable functional readjustment to surgical removal of 99% of the pancreatic mass in chickens or, alternatively, suggests the existence of extrapancreatic sources of insulin and glucagon, but not APP.
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PMID:In vitro release of pancreatic hormones following 99% pancreatectomy in the chicken. 256 76

The degradation of intracellular protein and other cytoplasmic macromolecules in liver is an ongoing process that regulates cytoplasmic mass and provides amino acids for energy and other metabolic uses early in starvation. Cellular proteins are conveniently divided into two general classes according to readily discernable differences in average rates of turnover. A short-lived class, having a half-life of approximately 10 min, comprises about 0.6% of total protein. Its degradation is not physiologically controlled, and the mechanism is probably nonlysosomal in nature. The second or long-lived group, with an average half-life 250 times greater, constitutes more than 99% of the cell's protein. By contrast, its breakdown is strongly regulated, and the site of catabolism is believed to be the vacuolar-lysosomal system. Cytoplasmic sequestration by lysosomes can be divided into two categories; macro- and microautophagy. The first is induced by amino acid and/or insulin deprivation. Amino acids are considered to be primary regulators, since they can control this process over the full range of induced proteolysis in the absence of hormones. Glucagon, cyclic AMP, and beta-agonists also stimulate macroautophagy in hepatocytes but have opposite effects in myocytes. Micrautophagy differs from the former in that the cytoplasmic "bite" is smaller and the uptake process is not acutely regulated. However, the latter does decrease during starvation in parallel with basal proteolysis, effects that might be linked to the loss of endoplasmic reticulum. The primary control of macroautophagy is accomplished through a small group of direct regulators (Leu, Tyr/Phe, Gln, Pro, Met, His, and Trp) and a specific coregulatory action of alanine. As a group, regulatory amino acids produce direct inhibitory responses in the perfused rat liver that are identical to those of the complete amino acid mixture at 0.5x and 4x (times) normal plasma concentrations. However, they lose effectiveness almost completely within a narrow zone centered at normal levels, a loss that can be abolished by the addition of alanine at its normal plasma concentration (0.5 mM). At this level, alanine does not inhibit directly. Interestingly, this zonal loss is also eliminated by insulin. Glucagon, though, specifically blocks the initial inhibition evoked by 0.5x amino acid mixtures and thus induces maximal rates of protein degradation at normal amino acid concentrations.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism and regulation of protein degradation in liver. 264 36

This study reviews clinical studies testing the effects of various doses of aspartame on blood levels of phenylalanine, aspartate, and methanol in normal subjects and known phenylketonuric heterozygotes. The effect of aspartame on the phenylalanine-to-large neutral amino acid ratio under various feeding situations is shown. The clinical studies of aspartame in diabetic subjects are limited to observations of its effects on blood levels of glucose, lipids, insulin, and glucagon. These studies clearly demonstrate the safety of this high-intensity sweetener for use by humans.
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PMID:Aspartame metabolism in normal adults, phenylketonuric heterozygotes, and diabetic subjects. 265 51

The biologic activities of three synthetic analogues of CCK-4 (Trp-Met-Asp-Phe-NH2) in which (i) the C-terminal residue Phe was N-methylated (peptide I); (ii) the C-terminal Phe residue was N-methylated and Ser is substituted for Met in position 2 (peptide II); (iii) Pro was substituted for Trp in position 1 and the C-terminal amino nitrogen was methylated (peptide III), have been described. Peptides I and II have been found to inhibit the release of both insulin and glucagon, while peptide III was found to be a potent releasing agent for insulin and an inhibitor for glucagon.
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PMID:Effect of some novel synthetic analogues of CCK-4 on insulin and glucagon secretion. 269 15

Pancreatic hormones have been purified from the opossum, a New World marsupial. Opossum insulin contains a Leu substitution at the N-terminus of the B-chain in place of the Phe that is generally present in mammalian insulins. In addition, there are two other amino acid substitutions in the opossum insulin A-chain (positions 8 and 18) compared to pig insulin. Opossum glucagon is identical to chicken glucagon with both differing from the usual mammalian glucagon by Ser in place of Asn at its penultimate C-terminal position. Opossum PP differs from the porcine peptide in only 3 sites (position 3, 19 and 30).
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PMID:Opossum insulin, glucagon and pancreatic polypeptide: amino acid sequences. 269 99

In our effort to identify the proteolytic specificity of various hemorrhagic toxins isolated from western diamondback rattlesnake venom, hemorrhagic toxin b was isolated in homogeneous form by previously published methods. Hemorrhagic toxin b hydrolyzed glucagon, producing six fragments. The proteolytic sites were identified as Thr(5)-Phe(6), Thr(10)-Ser(11), Asp(15)-Ser(16), Asp(21)-Phe(22) and Try(25)-Leu(26). When oxidized insulin B chain was used, proteolysis occurred at four sites: Asn(3)-Gln(4), His(10)-Leu(11), Tyr(16)-Leu(17) and Gly(23)-Phe(24). The proteolytic specificity of hemorrhagic toxin b is quite different from those of the nonvenom proteases such as thermomycolin, aspergillopeptidase c, alkaline protease from Aspergillus flavus, elastase, subtilisin and papain.
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PMID:Proteolytic specificity of hemorrhagic toxin b from Crotalus atrox (western diamondback rattlesnake) venom. 286 65

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