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)

To evaluate the effect of tryptophan on blood sugar in man, we have orally administered 10 g of this amino acid to 14 normal subjects and determined their plasma levels of glucose, insulin, glucagon, and growth hormone for 4 hr after the load. Seven of the subjects also received a placebo. Tryptophan intake was followed by a slight but significant elevation of glycemia (maximum increment: 11% above basal values at 180 min, p = 0.02). This elevation of plasma glucose was accompanied by a clear rise of glucagon levels (peak: 60% at 140 min, p = 0.0007) and by increased concentrations of circulating insulin and growth hormone. Placebo administration did not significantly modify blood glucose or any of the hormones measured. In contrast to the reported hypoglycemic effect of tryptophan in rats, our data indicate that this amino acid increases plasma glucose in man. Given that tryptophan appears to possess the capability of eliciting glucagon secretion, its effect on blood glucose can be reasonably attributed to an enhanced glycogenolysis and/or gluconeogenesis provoked by its release of this hormone.
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PMID:Elevation of plasma glucose and glucagon after tryptophan ingestion in man. 89 28

1. Histidine-pyruvate aminotransferase (isoenzyme 1) was purified to homogeneity from the mitochondrial and supernatant fractions of rat liver, as judged by polyacrylamide-gel electrophoresis and isolectric focusing. Both enzyme preparations were remarkably similar in physical and enzymic properties. Isoenzyme 1 had pI8.0 and a pH optimum of 9.0. The enzyme was active with pyruvate as amino acceptor but not with 2-oxoglutarate, and utilized various aromatic amino acids as amino donors in the following order of activity: phenylalanine greater than tyrosine greater than histidine. Very little activity was found with tryptophan and 5-hydroxytryptophan. The apparent Km values were about 2.6mM for histidine and 2.7 mM for phenylalanine. Km values for pyruvate were about 5.2mM with phenylalanine as amino donor and 1.1mM with histidine. The aminotransferase activity of the enzyme towards phenylalanine was inhibited by the addition of histidine. The mol.wt. determined by gel filtration and sucrose-density-gradient centrifugation was approx. 70000. The mitochondrial and supernatant isoenzyme 1 activities increased approximately 25-fold and 3.2-fold respectively in rats repeatedly injected with glucagon for 2 days. 2. An additional histidine-pyruvate aminotransferase (isoenzyme 2) was partially purified from both the mitochondrial and supernatant fractions of rat liver. Nearly identical properties were observed with both preparations. Isoenzyme 2 had pI5.2 and a pH optimum of 9.3. The enzyme was specific for pyruvate and did not function with 2-oxoglutarate. The order of effectiveness of amino donors was tyrosine = phenylalanine greater than histidine greater than tryptophan greater than 5-hydroxytryptophan. The apparent Km values for histidine and phenylalanine were about 0.51 and 1.8 mM respectively. Km values for pyruvate were about 3.5mM with phenylalanine and 4.7mM with histidine as amino donors. Histidine inhibited phenylalanine aminotransferase activity of the enzyme. Gel filtration and sucrose-density-gradient centrifugation yielded a mol.wt. of approx. 90000. Neither the mitochondrial nor the supernatant isoenzyme 2 activity was elevated by glucagon injection.
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PMID:Purification, characterization and identification of rat liver histidine-pyruvate aminotransferase isoenzymes. 93 69

Tryptophanyl peptide bonds are selectively cleaved by N-chlorosuccinimide (NCS) under acidic conditions. All other peptide bonds are resistant to cleabage by this reagent. Optimal conditions for cleavage are: 2 equiv of NCS, pH 4-5, or 50-80% acetic acid for 30 min at room temperature. Under these conditions methionine residues are oxidized to methionine sulfoxides and cysteine. Other amino acids are not modified. The cleavage reaction was studied with several peptides containing tryptophan residueas successfully applied to several proteins. In alpha-lactalbumin, Kunitz trypsin inhibitor ,and apomyoglobin, selective cleavage of the expected tryptophanyl peptide bonds was obtained in 19-58% yield. The glucagon molecule was fragmented into two peptides in 32% yield.
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PMID:Selective chemical cleavage of tryptophanyl peptide bonds by oxidative chlorination with N-chlorosuccinimide. 99 Feb 66

Viable pancreatic islets were isolated from the pancreas of humans using modifications of the collagenase digestion and Ficoll gradient techniques. Gel filtration of tissue extracts following islet incubation in the presence of 3H- tryptophan indicated that radioactivity becomes incorporated into at least two islet proteins. The larger of the two (LGI) has the approximate molecular size of proinsuiln and the smaller coelutes with glucagon as determined by column standardization. Radioimmunoassay of the gel filtration eluate for glucagon revealed that both molecules have glucagon immunoreactivity. Gel filtration in the presence of 8M urea did not alter the elution pattern of the LGI molecule. Polyacrylamide gel electrophoresis was performed on these glucagon immunoreactive molecules. The 3H radioactivity and the glucagon immunoreactivity of the smaller molecule were found to co-migrate electrophoretically with crystalline porcine glucagon and monodesamidoglucagon. With electrophoresis at high pH the electrophoretic mobility of the LGI molecule proved to be lower than that of glucagon. Partial tryptic degradation of the human LGI molecule yields 3H-tryptophan labeled products having charge and immunologic characteristics indistinguishable from porcine glucagon and monodesamidoglucagon. Although further investigation is indicatend may thus serve as a precursor or an intermediate in human glucagon biosynthesis.
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PMID:Glucagon biosynthesis in human pancreatic islets: preliminary evidence for a biosynthetic intermediate. 109 15

Following a 30 min preincubation in medium containing no isotopes, anglerfish islet tissue was incubated in the presence of [3H]tryptophan and [14C]isoleucine for 20 min. A portion of the tissue was removed for immediate extraction. The remainder was washed thoroughly with unlabeled medium and post-incubated in medium containing an excess of unlabeled tryptophan and isoleucine for varying periods of time. The distribution of radioactive proteins in alcoholic tissue extracts was analyzed by gel filtration and polyacrylamide gel electrophoresis. The distribution of immunoreactive glucagon was determined by radioimmunoassay. Following the 20 min pulse incubation, only proinsulin was labeled with [14C]isoleucine. Two glucagon immunoreactive molecules, one larger than proinsulin (mol wt near 11,400) and the other slightly smaller than proinsulin (mol wt near 9,000), were the primary proteins labeled with [3H]tryptophan following the 20 min. pulse. During chase incubations of increasing duration, 3H-radioactivity appeared in a glucagon immunoreactive molecule with the approximate molecular size of glucagon and increased with chase time while radioactivity in the 11,400 mol wt tryptophan-labeled molecule decreased. With increasing chase time, the 3H-radioactivity attributable to the 9,000 mol wt tryptophan-labeled molecule initially increased and subsequently decreased which is consistent with the pattern that would be expected for a conversion intermediate. The presence of glucagon immunoreactivity in [3H]tryptophan-labeled molecules having molecular weights near that of proinsulin was established by radioimmunoassay of alternate gel slices following electrophoresis of labeled proteins recovered from the proinsulin containing portions of gel filtration eluates. That [14C]isoleucine became incorporated into insulin and [3H]tryptophan became incorporated into glucagon was established by determination of the distribution of radioactivity in polyacrylamide gels following electrophoresis of labeled proteins recovered from the insulin and glucagon containing portions of gel filtration eluates. These results provide preliminary evidence for sequential metabolic cleavage of proglucagon in glucagon biosynthesis.
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PMID:Evidence of sequential metabolic cleavage of proglucagon to glucagon in glucagon biosynthesis. 110 52

Treatment with formaldehyde gas and HCl vapor, simultaneously or in sequence, induces fluorescence with indoles, including tryptophan residues of peptides, as is evident from studies on protein droplet models. Among cells that display intense formaldehyde-HCl-induced fluorescence are pancreatic exocrine cells, gastric chief cells, Paneth cells and enterochromaffin cells. Peptide hormone-producing cells that can be visualized by the formaldehyde-HCl treatment include gastrin cells and glucagon cells. The simultaneous procedure has proved superior to the sequential procedure. Simultaneous formaldehyde-HCl treatment appears to be a useful method for the demonstration of tryptophan residues of peptides and proteins. It seems more sensitive than previously described indole methods.
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PMID:Formaldehyde-hydrochloric acid treatment. A fluorescence histochemical method for the demonstration of tryptophan residues in peptides and proteins. 110 7

Various preparations of glucagon treated with chloramine-T under different conditions have been studied with respect to their immunoreactivity toward two different glucagon antisera; one specific for pancreatic glucagon and the other capable of reacting with enteroglucagon as well. The glucagon preparations exposed to chloramine-T for different periods reacted almost identically with the nonspecific antibody whether they were used as tracer or standard. On the contrary, treatment with chloramine-T under severe conditions led to reduced immunoreactivity toward the specific antibody. Inclusion of dimethyl sulfoxide (DMSO) in the chloramine-T reaction resulted in preservation of the immunoreactivity of the treated preparations. The cyanogen bromide cleaved-glucagon, (1-26) homoserine lactone, showed little cross-reactivity with the specific antibody whereas it reacted to a similar extent with the nonspecific antibody as natural glucagon did. Amino acid analysis of the hormone exposed to chloramine-T demonstrated that the methionine residue at position 27 in the glucagon molecule had been oxidized to methionine sulfoxide. In addition, tryptophan had also been affected. DMSO protected methionine and tryptophan from the oxidative action of chloramine-T. We postulate from these results that the change in the immunoreactivity toward the specific antibody of glucagon exposed to chloramine-T is mainly due to oxidation of the methionine residue at position 27 in the molecule. The usefulness of DMSO in the iodination process is also discussed.
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PMID:Effect of an exposure to chloramine-T on the immunoreactivity of glucagon. 116 32

The enhancement of fluorescence emission from the tryptophan residue of glucagon, the quenching of that emission with acrylamide and with 5-doxyl and 16-doxyl stearic acid, circular dichroism spectra, the release of 6-carboxyfluorescein, and polarized infrared attenuated total reflection (IR-ATR) spectra were used to study the interaction of glucagon with intact lipid vesicles and flat bilayers. Dimyristoylphosphatidylcholine bound the peptide only below the main transition temperature, thus confirming earlier results of Epand et al. (1977). However, the peptide is also bound by vesicles of unsaturated lipids above their transition temperature, suggesting an influence of lipid area on the binding process. Circular dichroism showed that binding to such vesicles also increases the helix content of glucagon. The IR-ATR study and a comparison with dynorphin-A-(1-13)-tridecapeptide revealed profound differences in orientation of the two peptides. The dichroic ratios and the derived order parameters indicated an isotropic orientation of the helical segments of glucagon, but did not exclude a principal orientation of the molecules lying flat on the membrane surface. In contrast, the axis of the dynorphin helix is clearly oriented normal to the interface. The two peptides also differ in their rates of 6-carboxyfluorescein release, suggesting a deeper penetration of the primary amphiphilic helix of dynorphin A-(1-13) than of the secondary amphiphilic helix of glucagon.
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PMID:Interaction of glucagon with artificial lipid bilayer membranes. 135 48

1. Isolated cat hepatocytes were established in monolayer culture, cell proteins labelled with tritiated leucine and the effects of amino acids and hormones on the regulation of intracellular protein breakdown were studied. 2. Mixtures of essential and non-essential amino acids inhibited the breakdown of long-lived protein, but when tested individually, amino acids except for tryptophan were ineffective. 3. The rate of breakdown of short-lived protein was not regulated by amino acids or hormones, a finding which was similar to that in rat liver cells. 4. The known stimulatory hormones of proteolysis in rat liver such as glucagon, dexamethasone and corticosteroids failed to enhance protein degradation in cat liver cells. 5. These results support the contention that the control of protein degradation in the cat is different to that in the rat and these differences may reflect the unusual protein metabolism of the cat.
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PMID:The control of protein degradation in monolayer cultures of cat hepatocytes. 139 92

The photochemically induced dynamic-nuclear-polarization (photo-CIDNP) NMR technique was used to investigate the membrane-active peptides melittin and glucagon. The experiments were performed both in the absence and presence of phospholipid vesicles in order to study the topography of the membrane-bound state. From the results it can be concluded that the melittin peptide chain is oriented in such a way that the single tryptophan residue (Trp19) reaches into the membrane. In the case of glucagon, a binding interaction with vesicle membranes is indicated within the pH range 2-10, whereby the single tryptophan residue (Trp25) is buried in the lipid bilayer and the tyrosine and histidine residues are exposed to the aqueous solvent.
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PMID:Investigation of the membrane-active peptides melittin and glucagon by photochemically induced dynamic-nuclear-polarization (photo-CIDNP) NMR. 200 94

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