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)

The transport of histidine and glutamine via system N in cultured hepatocytes was found to be subject to hormonal control. This long-term regulation showed the following characteristics. The transport capacity for histidine and glutamine (system N) increased slowly in response to the combination of dexamethasone and insulin to about 4-fold that of controls after 18-30 h. A similar time course was found for the stimulation of system N (2.5-fold) by dexamethasone and glucagon. In contrast the uptake of alpha-aminoisobutyric acid (system A) was rapidly stimulated 3-fold by dexamethasone and insulin and 5-fold by dexamethasone and glucagon within 3-6 h but decreased towards control rates after 24 h of cultivation in minimal essential medium. Dexamethasone, insulin and glucagon each stimulated glutamine uptake about 2-fold in cultures maintained in W/AB 77 medium, while the combination of dexamethasone with either glucagon or insulin resulted in a 3-4-fold increase. Dexamethasone was most effective at about 0.1 microM. Higher concentrations were less efficient. Insulin reached its optimal effect at concentrations above 1 microM. Kinetic analysis revealed that the increased capacity of glutamine transport in response to hormones was due to an increase in Vmax, while Km was essentially unchanged. The hormone-induced stimulation of system N was prevented by cycloheximide. The induced uptake of glutamine was inhibited by excess amounts of asparagine and histidine but not of alpha-methylaminoisobutyric acid or cysteine. These results clearly differentiate the hormonal regulation of system N from that of system A.
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PMID:Hormonal regulation of amino acid transport system N in primary cultures of rat hepatocytes. 330 40

The specific transport mechanisms that mediate the hepatic uptake of L-[3H]alanine and of an unnatural homologue, alpha-[14C]methylaminoisobutyric acid (MeAIB), were analyzed in hepatocyte suspensions from Raja erinacea. Aminooxyacetate, an inhibitor of aminotransferase activity was used to prevent alanine metabolism. After 3 h of incubation with either 0.5 mM alanine or MeAIB, hepatic concentrations of these amino acids were significantly higher in the presence than absence of Na+ (8 vs. 1 and 1 vs. 0.1 mM, respectively). Kinetic studies indicated that both alanine and MeAIB transport occurred via sodium-dependent saturable mechanisms. [14C]MeAIB uptake was completely inhibited by excess L-alanine. Uptake of [3H]alanine was inhibited by a 40-fold excess of serine and cysteine (53-54%), by MeAIB and methylalanine (26-31%), and by leucine (14%), whereas D-alanine, beta-alanine, taurine, and glutamate had no effect. Insulin and glucagon were unable to stimulate [3H]alanine uptake. Glucose release from hepatocytes was unaffected by 10 mM alanine or 2 mM aminooxyacetate, indicating that alanine is not a major gluconeogenic precursor in this marine elasmobranch. These results suggest that uptake of L-alanine by skate hepatocytes occurs predominantly via a sodium-dependent system, with properties similar to those exhibited by the ASC neutral amino acid transport system previously characterized in Ehrlich ascites tumor cells and rat hepatocytes.
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PMID:Characteristics of L-alanine uptake in freshly isolated hepatocytes of elasmobranch Raja erinacea. 336 8

Diets of fresh kale (Brassica oleracea) and ryegrass (Lolium perenne)-clover (Trifolium repens) herbage were fed to growing sheep in three experiments. In Expts 1 and 3 the sheep were confined indoors and fed at hourly intervals, and all were given supplementary iodine to counteract kale goitrogens. Lambs grazed the two forages for 24 weeks in Expt 2, with and without intramuscular injections of iodized oil. The kale and herbage contained respectively 11 and less than 0.1 g S-methyl-L-cysteine sulphoxide (SMCO)/kg dry matter (DM) and values for readily fermentable: structural carbohydrate (CHO) were 3.1 and 0.8, respectively. Blood samples were withdrawn from indwelling catheters (Expts 1 and 3) or venipuncture (Expt 2) and the plasma analysed for a range of hormones using radioimmunoassay procedures. Glucose irreversible loss (GIL) was measured in Expt 1 using primed continuous infusions of D-[U-14C]glucose. Samples of adipose tissue were removed from the shoulder area in Expt 3, and rates of D-[U-14C]glucose and [U-14C]acetate incorporation and oxidation were measured in vitro, together with the rate of glycerol release. In the presence of supplementary I2, kale feeding was associated with an elevation in plasma concentration of free thyroxine (T4). Regardless of I2 supplementation, sheep fed on kale had much higher plasma growth hormone concentrations than sheep fed on ryegrass-clover herbage, and this was accompanied by reduced plasma somatostatin concentrations. Plasma insulin and glucagon concentrations were similar for sheep fed on the two diets; GIL tended to be slightly but not significantly greater (9.4%) for sheep fed on kale than for those fed on ryegrass-clover herbage.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endocrine regulation of metabolism in sheep given kale (Brassica oleracea) and ryegrass (Lolium perenne)-clover (Trifolium repens) fresh-forage diets. 406 1

1. Transport characteristics of l-methionine and l-proline in rat liver slices in vitro were studied. 2. Intracellular concentration gradients for methionine were obtained. 3. Methionine uptake was inhibited by iodoacetate, dinitrophenol, Na(+)-free media and also by glycine, lysine, cysteine and dithiothreitol but not by alpha-aminoisobutyrate. 4. The rate of methionine metabolism in the slice was slow. 5. Puromycin inhibited methionine incorporation into protein, but not methionine uptake. 6. Methionine inhibited the transport of alpha-aminoisobutyrate but not of cystine. 7. Efflux and exchange diffusion of methionine was studied. 8. Amino acid transport in rat liver slices was not affected by thyroidectomy. 9. Addition of insulin, glucagon, adrenaline or cortisol did not affect the transport of methionine. 10. Addition of 6-N,2'-O-dibutyryladenosine 3':5'-cyclic monophosphate increased methionine transport after a 120min incubation period in some experiments. 11. Studies of l-proline transport were invalidated because of the rapid evolution of CO(2) from the substrate.
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PMID:Transport of methionine and proline by rat liver slices and the effect of certain hormones. 435 5

The effect of 20 L-amino acids upon pancreatic glucagon secretion has been studied in conscious dogs. Each amino acid was administered intravenously over a 15 min period in a dose of 1 mmole/kg of body weight to a group of four or five dogs. Pancreatic glucagon and insulin were measured by radioimmunoassay. 17 of the 20 amino acids caused a substantial increase in plasma glucagon. Asparagine had the most glucagon-stimulating activity (GSA), followed by glycine, phenylalanine, serine, aspartate, cysteine, tryptophan, alanine, glutamate, threonine, glutamine, arginine, ornithine, proline, methionine, lysine, and histidine. Only valine, leucine, and isoleucine failed to stimulate glucagon secretion, and isoleucine may have reduced it. No relationship between glucagon-stimulating activity and insulin-stimulating activity was observed. The amino acids which enter the gluconeogenic pathway as pyruvate and, which are believed to provide most of the amino acid-derived glucose, had a significantly greater GSA than the amino acids which enter as succinyl CoA or as alpha-ketoglutarate. However, pyruvate itself did not stimulate glucagon secretion. The R-chain structure of the amino acid did not appear to be related to its GSA, except that the aliphatic branched chain amino acids, valine, leucine, and isoleucine, were devoid of GSA.
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PMID:Glucagon-stimulating activity of 20 amino acids in dogs. 463 19

The swelling technique evidenced inhibition of Pi transport in isolated mouse liver mitochondria by 1 mM or higher concentration of alloxan inhibition was found under the following conditions: preincubation at 4 degrees C, or pretreatment with Pi, glucagon, succinate, malate or pyruvate. Complete protection was observed in isolated mitochondria from mice injected with glucagon. No protection was seen under the following conditions: preincubation at 37 degrees C, addition of microsomes, or pretreatment with insulin or glucagon in the presence of glucagon antibodies. So-called light and heavy mitochondria were as sensitive to alloxan as those obtained with the routine technique. Alloxanic acid had no effect, and addition of cysteine or glutathione abolished the inhibition by alloxan. Alloxan inhibited Pi transport also in isolated lung mitochondria. The findings suggest a direct action of alloxan on mitochondrial Pi transport which is affected by the energetic state. A relationship seems to exist between protection against alloxan toxicity in vivo and protection under the present experimental conditions.
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PMID:Factors affecting the inhibition by alloxan, and effect of streptozotocin on phosphate transport in isolated mouse mitochondria. 621 10

A cysteine metalloproteinase that degrades 125I-insulin B chain at neutral pH values was isolated from C3H mouse liver. The enzyme was partially purified from the 100,000g supernatant fraction by ammonium sulfate precipitation, DEAE-cellulose chromatography, and fast protein liquid chromatography. The molecular weight of the proteinase was estimated to be 190,000 by gel filtration on Sephadex G-200. Degradation of 125I-insulin B chain by the proteinase was inhibited by p-hydroxymercuribenzoate (PHMB) and iodoacetate (cysteine proteinase inhibitors) and by ethylenediaminetetraacetic acid (EDTA) and 1,10-phenanthroline (metalloproteinase inhibitors). The proteinase also degraded 125I-glucagon but did not hydrolyze 125I-insulin, leucine-2-naphthylamide, or several large proteins. Equivalent levels of EDTA- and PHMB-inhibitable 125I-insulin B chain-degrading activity were observed in the 100,000g supernatant fractions of brain, liver, lung, kidney, heart, and spleen from four mouse strains (C3H/HeN, CBA/J, ICR, and C57BL/6). High levels of 125I-insulin B chain-degrading activity were found in the particulate fraction of kidneys and lungs from these four mouse strains; these activities were inhibited by EDTA but not by PHMB. The activity of the soluble liver cysteine metalloproteinase was not altered in C3H mice treated ip with metal chelators, bacterial endotoxin, phenobarbital, dexamethasone, or insulin. Starvation for 24 or 48 hr and alloxan-induced diabetes diminished total activity of this enzyme in liver by about 50 and 30%, respectively. This soluble polypeptide-degrading enzyme appears to be ubiquitous in mice and to be regulated by nutritional conditions.
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PMID:A cysteine metalloproteinase from mouse liver cytosol. 643 52

We find that the two wide-range Na+-dependent transport systems A and ASC for various neutral amino acid can be discriminated more sharply in the hepatoma cell line HTC than in any cell yet studied by us in which the two systems co-exist. The gain comes partly from a higher reproducibility and a higher relative ASC rate for HTC than in ordinary rat hepatocytes, also a repressed condition of System A unless first deprived of amino acids, but mainly from our finding that in the hepatoma cell threonine serves as a nearly specific substrate and inhibitor of System ASC, thus decisively supplementing older discriminatory techniques. In ordinary hepatocytes cysteine is quite specific to ASC as a substrate but not as an inhibitor, whereas threonine is specific in neither role. In the hepatoma cell cysteine in turn is specific in neither role. In addition to these and other differences between the two cells in analog specificity, which are partly assignable to System ASC and partly to System A, System ASC of the hepatoma cell shows an inhibition on lowering the pH from 6.5 to 5 not seen in the ordinary hepatocyte. Furthermore, threonine uptake by the hepatoma cell undergoes no stimulation when Li+ is substituted for choline in a Na+-free medium, whereas ASC uptake by the ordinary rat hepatocyte is stimulated much as is System A uptake. As in other occurrences, and in contrast to System A, ASC transport in the hepatoma cell is stimulated neither by amino acid deprivation nor by insulin, glucagon, or dexamethasone. Trans-stimulation, both inward and outward, via System ASC is vigorous in the hepatoma cell. Despite the surprising differences observed, common features of each system in various occurrences continue to justify the use of the abbreviations ASC and A as long as they are understood as generic designations.
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PMID:Surprising differences in substrate selectivity and other properties of systems A and ASC between rat hepatocytes and the hepatoma cell line HTC. 679 May 28

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

Numerous chemically distinct phlogistic substances have been shown to induce hepatic metallothionein-Zn (MT) accumulation when administered to rats. These findings suggest that induction of this cysteine-rich metalloprotein occurs through the action of some common mediator(s). Possible mediators include substances such as leukocytic endogenous mediator (LEM) and/or hormones known to influence hepatic protein synthesis. Studies were performed to examine further the mechanism(s) and potential mediators involved in endotoxin-induced MT accumulation. Additionally, the studies were performed to determine the possible involvement of genetic factors, which reportedly influence LEM production, in the induced MT response. Endotoxin (ET) was administered ip to rats and to EP-resistant, C3H/HeJ, and susceptible, C3Heb/FeJ, stains of mice. ET induced hypozincemia, hyperglucagonemia, and increased MT concentrations in rats. ET induced hypozincemia and MT accumulation to the same extent in both strains of mice. The induction of tolerance in rats to Zn depressing activity of ET also prevented hyperglucagonemia and additional accumulation of MT. Results suggest that glucagon, but not LEM, may be a common mediator in MT response during inflammatory stress.
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PMID:Hepatic metallothionein induction in inflammation. 704 83

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