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)

The conversion of proglucagon and proinsulin by secretory granules isolated from both prelabeled and unlabeled anglerfish islets was investigated. Either granules isolated from tissue labeled with [3H]tryptophan and [14C]isoleucine or [35S]cysteine, or lysed granules from unlabeled tissue to which exogenously labeled prohormones had been added were incubated under various conditions. Acetic acid extracts of these granule preparations were analyzed for prohormone and hormone content by gel filtration. Both prelabeled and lysed, unlabeled secretory granules converted radiolabeled precursor peptides (Mr 8,000-15,000) to labeled insulin and glucagon. The accuracy of the cleavage process was established by demonstrating comigration of products obtained from in vitro cleavage with insulin and glucagon extracted from intact islets using electrophoresis and high-pressure liquid chromatography (HPLC). The pH optimum for granule-mediated conversion was found to be in the range of pH 4.5-5.5. Conversion of both proglucagon and proinsulin by secretory granules was significantly inhibited in the presence of antipain, leupeptin, p-chloromercuribenzoate (PCMB) or dithiodipyridine (DDP) but not chloroquine, diisopropyl fluorophosphate, EDTA, p-nitrophenyl guanidinobenzoate, soybean trypsin inhibitor, or N-p-tosyl-L-lysine chloromethyl ketone HCl. The inhibitory action of PCMB and DDP was reversed in the presence of dithiothreitol. Both membranous and soluble components of the secretory granules possessed significant converting activity. HPLC and electrophoretic analysis of cleavage products demonstrated that the converting activities of the membranous and soluble components were indistinguishable. The amount of inhibition of proinsulin and proglucagon conversion caused by 600 micrograms/ml porcine proinsulin was significantly lower than that caused by the same concentration of unlabeled anglerfish precursor peptides. These results indicate that the proinsulin and proglucagon converting enzyme(s) in the anglerfish pancreatic islet is a unique intracellular thiol proteinase(s) that may be granule membrane-associated and may require the presence of prohormone sequences in addition to the dibasic residues at cleavage sites for substrate recognition and/or binding.
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PMID:Characterization of proinsulin- and proglucagon-converting activities in isolated islet secretory granules. 702 70

Four normal and five insulin dependent diabetic men received a 2 h pharmacologic glucagon infusion (50 ng/kg/min) resulting in plasma glucagon levels (4400 pg/ml) similar to those seen in glucagonoma patients. In normal subjects in whom plasma insulin concentrations rose significantly (239 uU/ml) and the blood level of 15 of the 18 amino acids measured fell significantly. In contrast, in the diabetic men who secreted no insulin in response to glucagon (no rise in C-peptide levels), only 10 of 18 amino acid levels fell significantly. The branched chain amino acids valine, leucine and isoleucine, as well as tyrosine and phenylalanine were among the 8 amino acids which showed no change in response to glucagon in the diabetics. Thus, glucagon appears to have no acute affect on branched chain amino acid levels in man.
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PMID:Effects of pharmacologic hyperglucagonemia on plasma amino acid concentrations in normal and diabetic man. 703 18

The importance of alpha-keto acid binding to plasma proteins was investigated both in vitro and in vivo using alpha-ketoisocaproate (KIC), the alpha-keto acid of leucine. Gel chromatography indicated that 65% of the radioactivity comigrated with serum albumin. An ultrafiltration assay was developed to estimate the percentage of free and bound KIC. These percentages, along with total plasma KIC concentrations, were used to calculate the circulating concentrations of free and bound KIC. KIC or free fatty acids (FFA) displaced [14C]KIC bound to bovine albumin or whole plasma. KIC was totally displaced from plasma proteins by 10 mM oleate, stearate, and myristate; whereas the alpha-keto acids of isoleucine and value were 50 and 85%, respectively, as effective as KIC. To determine whether increased plasma FFA concentrations alter the binding of KIC to plasma proteins in vivo, five postabsorptive humans were infused with triglyceride and heparin during the simultaneous administration of somatostatin, glucagon, and insulin. During the FFA elevation, plasma leucine decreased by 9% (P less than 0.02). Total plasma KIC remained constant, whereas free KIC increased (P less than 0.02) and bound KIC decreased (P less than 0.001). These results indicate that KIC is bound to plasma albumin in vivo and suggests that FFA, by altering circulating free KIC concentrations, may influence protein metabolism in man.
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PMID:Regulation of alpha-ketoisocaproate binding to albumin in vivo by free fatty acids. 703 54

Arterial concentrations and splanchnic exchange of glucose, amino acids, lactate, pyruvate, and glycerol were determined in 14 hyperthyroid patients and 12 healthy controls. Seven of the patients were restudied after 5-12 mo of medical management at which time there was chemical and clinical evidence of a euthyroid state. The arterial level of glucose was slightly higher (+10%) in the patient group and the glycerol concentration was three times greater among the patients. The plasma levels of the glycogenic amino acids, alanine, glycine, and serine were decreased by 20-30%, while the concentrations of leucine, isoleucine, and tyrosine were increased by 20-80%. The levels of lactate and pyruvate were similar in patients and controls as were insulin and glucagon concentrations. Splanchnic glucose output in the patient group was 35% lower than in controls. However, total splanchnic uptake of glucogenic precursors was 100% higher than in controls and showed a direct linear correlation with serum triiodothyronine. Total precursor uptake could account for 75% of splanchnic glucose output in the patients, compared to 26% in controls. The increase in uptake of lactate, alanine, and other amino acids was due to a 35-80% rise in splanchnic fractional extraction plus a 20% rise in estimated hepatic blood flow. When the patients were restudied after medical treatment splanchnic exchange of glucose and glucose precursors had reverted to normal values. The present findings demonstrate that in hyperthyroidism (a) total splanchnic glucose output is reduced in relation to controls, (b) splanchnic uptake of gluconeogenic precursors is accelerated, largely due to a rise in fractional extraction of precursor substrates and to a smaller extent, as a result of an increase in hepatic blood flow, and (c) these changes revert to normal when a euthyroid state has been achieved.
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PMID:Influence of hyperthyroidism on splanchnic exchange of glucose and gluconeogenic precursors. 720 66

The response of the plasma substrate and hormone profile of survivor and nonsurvivor septic trauma patients to varying rates of amino acid infusion (IVAA) were contrasted. When IVAA=0 levels of most plasma amino acids (except aspartate, tryptophan, cysteine, and proline) were lower in nonsurvivors. At IVAA=1 to 100, however, 11 of 20 plasma amino acids were significantly (p less than or equal to 0.05) higher in nonsurvivors: only glutamate was significantly lower (p less than or equal to 0.001) and valine, isoleucine, and arginine on average lower. At IVAA less than or equal to 101 to 200, only alanine, methionine, tyrosine, and phenylalanine were significantly (p less than or equal to 0.005) higher in nonsurvivors; isoleucine was significantly (p less than or equal to 0.02) lower. The sharp increase in methionine and decrease in tryptophan in nonsurvivors with IVAA was particularly marked. Polynomial regression analysis showed that urea increased significantly with IVAA in both patient groups, while free fatty acids and cortisol decreased only in nonsurvivors. Insulin increased with IVAA only in survivors, glucagon only in nonsurvivors. Triglycerides, glycerol, acetoacetate, beta OH butyrate, and glucose appeared to show no significant response to IVAA in either patient group. The data are consistent with increased peripheral protein catabolism and branched-chain amino acid oxidation in association with decreased tissue uptake of conventional energetic fuels. These results may be interpreted to be consistent with an impairment of mitochondrial translocase systems.
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PMID:Multiple systems organ failure: III Contrasts in plasma amino acid profiles in septic trauma patients who subsequently survive and do not survive-effects of intravenous amino acids. 721 92

We used three vasoactive intestinal polypeptide (VIP) antagonists, VIP-(10-28), [p-Cl-D-Phe6,Leu17]VIP, and NT-VIP, to evaluate the role of VIP as a mediator of vagally induced tachycardia in chloralose-anesthetized dogs. After we administered muscarinic and beta-adrenergic receptor antagonists, we evoked vagally induced tachycardia either directly, by stimulating the vagus nerves for 2 min, or reflexly, by injecting phenylephrine to increase blood pressure. Furthermore, each of the antagonists attenuated the tachycardias induced by vagal stimulation by approximately 50% and the reflexly induced tachycardias by approximately 70%. Each VIP antagonist attenuated the chronotropic responses that we evoked by injecting VIP (5.2 ng/kg) into the sinus node artery. We tested the specificity of these VIP antagonists by determining whether they attenuated the increases in heart rate evoked by two other neuropeptides [peptide histidine isoleucine (PHI) and glucagon]. VIP-(10-28) attenuated the response to PHI, but not to glucagon. The other two VIP antagonists did not alter the chronotropic responses to PHI or glucagon. Our results support the hypothesis that neurally released VIP is the principal mediator of vagally induced tachycardia in the dog.
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PMID:Vasoactive intestinal polypeptide antagonists attenuate vagally induced tachycardia in the anesthetized dog. 748 82

Food ingestion induces a rapid increase in the insulinotropic glucagon-like peptide-1 (GLP-1) in plasma. Paradoxically, GLP-1 originates from the lower intestines and therefore a complex regulation of postprandial GLP-1 secretion must exist. This was addressed in the present study by utilizing an isolated vascularly perfused rat ileum preparation. Peptides and neurotransmitters thought to be candidate mediators triggering GLP-1 secretion were arterially infused and GLP-1 was measured in the venous effluent. Arterial infusion of cholinergic agonists strongly enhanced GLP-1 secretion which was counteracted by the addition of atropine. Histamine, dopamine, 5-hydoxytryptamine, gamma-aminobutyric acid, and norepinephrine had no effect. Peptides of the bombesin family were strong stimulants whereas tachykinins, enkephalins, dynorphin, TRH, calcitonin-gene-related peptide and members of the secretin family, vasoactive intestinal peptide, peptide histidine isoleucine and neuropeptide Y, were less effective. The second incretin hormone, gastric inhibitory polypeptide (GIP), was the most potent stimulant of GLP-1 secretion in our study. It enhanced GLP-1 release up to sixfold above basal during the early phase followed by a sustained secretion at 400% above basal. This stimulation remained unaffected by atropine. In conclusion, in addition to luminal stimulation of nutrients, a cholinergic impulse as well as peptidergic mediators (among them possibly GIP and GRP) may have an impact on postprandial GLP-1 secretion from the rat ileum.
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PMID:Regulation of glucagon-like peptide-1 secretion from rat ileum by neurotransmitters and peptides. 749 May 33

Glucose-dependent insulinotropic polypeptide (GIP) plays an important role in the regulation of postprandial insulin secretion and proinsulin gene expression of pancreatic beta-cells. This study demonstrates the molecular cloning of a cDNA for the GIP-receptor from a human insulinoma lambda gt11 cDNA library. The cloned cDNA encoded a seven transmembrane domain protein of 466 amino acids which showed high homology (41%) to the human glucagon-like peptide 1 (GLP-1) receptor. Homology to the GIP receptor from rat or hamster was 79% and 81%, respectively. When transfected stably into fibroblast CHL-cells a high affinity receptor was expressed which coupled to the adenylate cyclase with normal basal cAMP and increasing intracellular cAMP levels under stimulation with human GIP-1-42 (EC50 = 1.29 x 10(-13) M). The receptor accepted only human GIP 1-42 (Kd = 1.93 +/- 0.2 x 10(-8) M) and porcine truncated GIP 1-30 (Kd = 1.13 +/- 0.1 x 10(-8) M) as high affinity ligands. At 1 microM, exendin-4 and (9-39)amide weakly reduced GIP-binding (25%) whereas secretin, glucagon, glucagon-like peptide-1, vasoactive intestinal polypeptide, peptide histidine-isoleucine, and pituitary adenylyl cyclase activating peptide were without effect. In transfected CHL cells, GIP-1-42 did not increase intracellular calcium. Northern analysis revealed one transcript of human GIP receptor mRNA with an apparent size of 5.5 kb. The exact understanding of GIP receptor regulation and signal transduction will aid in the understanding of the incretin hormone's failure to exert its biological action at the pancreatic B-cell in type II diabetes mellitus.
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PMID:Molecular cloning, functional expression, and signal transduction of the GIP-receptor cloned from a human insulinoma. 758 26

Recent data revealed the existence, localization and possible function of specific receptors for glucagon-like peptide 1 (7-36) amide (GLP-1) in rat lung. This receptor has different biochemical features than the GLP-1 receptor in endocrine pancreas. Therefore, we aimed to clone the lung receptor cDNA in order to analyze whether biochemical and functional diversity of the GLP-1 receptors in lung and pancreas is based upon genetic differences. A cDNA library from rat lung in a lambda gt11 vector was screened with a cDNA probe coding for the rat pancreas GLP-1 receptor. Thereby, we found a lung GLP-1 receptor cDNA which shows nearly complete homology to the pancreatic beta-cell receptor cDNA. Only one base exchange occurred at base 1 of a codon at position 977 resulting in a change of valine residue for isoleucine at position 323 of the amino acid sequence within the fifth transmembrane region. Northern blot hybridization identified transcripts at 2.7, 3.4, and 3.6 Kb. Expression of the recombinant lung GLP-1 receptor cDNA in CHO cells displayed a pharmacological profile similar to that seen with cells expressing the beta-cell derived cDNA. Therefore, we conclude that tissue-specificity for GLP-1 receptors is based upon posttranslational modifications of the receptor protein (for example glycosilation) or alternative splicing of primary transcripts and not on variations within the coding sequence of the receptor gene.
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PMID:Molecular cloning of a cDNA encoding for the GLP-1 receptor expressed in rat lung. 781 6

In view of the evidence that vasoactive intestinal peptide (VIP) may modulate acute inflammatory injury in the lung, we investigated the presence and characteristics of VIP receptors on alveolar macrophages (AMs). We examined the binding of monoiodinated [Tyr(125I)10]-labeled VIP (125I-VIP) to rat AMs (> 96% pure), obtained from Sprague-Dawley rats by bronchoalveolar lavage (BAL). At 23 degrees C, the interaction of 125I-VIP with AMs was rapid, reversible, saturable, and linearly proportional to the number of cells. At equilibrium, the binding was competitively inhibited by 10(-11)-10(-6) M of native peptide [half-maximal inhibition (IC50) = 0.53 +/- 0.34 nM, n = 8], with evidence for two classes of binding sites: one with a high affinity (Kd = 0.20 +/- 0.09 nM) and a low capacity (1,190 +/- 640 sites/cell) and another with a low affinity (Kd = 43.2 +/- 13.8 nM) and a high capacity (51,700 +/- 14,000 sites/cell). VIP-related peptides inhibited the binding with the order of potency: VIP > peptide histidine isoleucine > helodermin >> secretin; glucagon was ineffective. In the presence of 3-isobutyl-1-methylxanthine, VIP dose dependently stimulated adenosine 3',5'-cyclic monophosphate accumulation in intact AMs, with maximal stimulation (6.3 times basal level) at 1 nM, and half-maximal accumulation at 0.23 +/- 0.11 nM VIP (Kd for high-affinity sites). For determination of the mass of the VIP receptor, 125I-VIP was covalently bound to AMs with the cross-linking agent dithiobis succinimidyl propionate. Autoradiographic studies after sodium dodecyl sulfate/polyacrylamide gel electrophoresis of solubilized affinity-labeled cells revealed a single major band of M(r) 76,400. We conclude that VIP binds to specific receptors on rat AMs that are coupled to adenylate cyclase, through which VIP may modulate inflammatory responses within the lung.
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PMID:Characterization of vasoactive intestinal peptide receptors on rat alveolar macrophages. 794 52


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