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 effect of several insulin secretagogues and a blocker upon islet Na+, K+-ATPase activity was studied using rat islet homogenates. None of the agents tested modified the enzyme activity when added directly to the enzyme assay. Activity of Na+, K+-ATPase measured in islets preincubated during 3 min with glucose 3.3, 8 or 16.6 mM, as well as with 15 mM KIC or 1.2 microM somatostatin, did not significantly change. The presence of glucagon (1.4 microM) plus theophylline (10 mM) in the preincubation medium significantly enhanced activity while tolbutamide (1.48 mM) or gliclazide (76 microM) significantly decreased such activity. These results suggest that Na+, K+-ATPase activity would not be a main common step involved in the mechanism by which glucose, KIC, glucagon + theophylline and somatostatin exert their effect on insulin secretion. Conversely, the enzyme might contribute to the stimulatory effect of gliclazide and tolbutamide on insulin release. Such effect would be secondary to the release of some cellular mediator rather than a direct action of these compounds on the enzyme. Such effect would later favor a rise in the cytosolic concentration of calcium which might trigger the release of insulin.
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PMID:Effect of different stimulators and a blocker of insulin release on islet Na+, K+-ATPase activity. 254 28

Heterogeneity in Madin-Darby canine kidney (MDCK) epithelial cells has been reported, however, its details have not been well described. In the present study, we show that subclones obtained from a MDCK cell line could be divided into two morphologically and biochemically distinct cell types with different hormonal responsiveness. Clones of the first type, motile clones, which had extended and flattened cytoplasm, were devoid of carbonic anhydrase activity. Clones of the second type, nonmotile clones, formed colonies of cuboidal cells and showed carbonic anhydrase activity. Motile clones synthesized cAMP in response to arginine vasopressin, prostaglandin E1, and isoproterenol but not glucagon. In contrast, nonmotile clones responded to all of these hormones. These findings suggest MDCK cells have multiple cellular origins. The motile clones have characteristics similar to the principal cells of the collecting system, whereas the nonmotile clones may be derived from the thick ascending limb or the intercalated cell. Our studies also demonstrate a significant influence of culture condition on MDCK cellular behavior (carbonic anhydrase activity, Na+/K+-ATPase activity and vasopressin responsiveness). Therefore, physiologic and biochemical experiments with MDCK cells must be interpreted with reservations about cellular heterogeneity as well as differences induced by culture conditions.
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PMID:Characterization of subclones of Madin-Darby canine kidney renal epithelial cell line. 255 8

The incubation of isolated rat hepatocytes with 0.172 mM carbon tetrachloride caused a rapid decrease in the calcium content of both mitochondrial and extramitochondrial compartments. However, the release of Ca2+ from the intracellular stores was not associated with an increase in the cytosolic Ca2+ levels as measured by activation of phosphorylase alpha or by Quin-2 fluorescence. A rapid rise in hepatocyte free calcium was only observed with concentrations of CCl4 higher than 0.172 mM. The lack of activation of phosphorylase alpha was not due to the inhibition of the enzyme by CCl4, since in CCl4-treated hepatocytes the phosphorylase activity could be stimulated by glucagon, butyryl--cAMP or by the increase of cell calcium induced by the addition of A23187. Ca2+-dependent ATPase of plasma membranes was only slightly affected in the early phases of poisoning with CCl4 when both mitochondrial and extramitochondrial calcium pools were already lowered. This led to the conclusion that calcium released from intracellular organelles could be extruded from the cells in sufficient amounts to prevent the increase of the cytosolic levels. A rise in hepatocyte free calcium was observed during the second hour of incubation with CCl4, concomitantly with the appearance of both LDH leakage and plasma membrane blebbing. The addition of EGTA to the medium prevented both the increase in cytosolic Ca2+ and the blebbing suggesting that they were a consequence of an influx of calcium into the cells. However, neither EGTA nor the addition of inhibitors of calcium-dependent phospholipase A2 or non-lysosomal proteases were able to protect against cell death. These latter results suggested that the alterations of calcium distribution induced by CCl4 in isolated hepatocytes were not a primary cause of the toxic effects, although they did not exclude that a sustained rise in cytosolic Ca2+ could contribute in the progression of cell injury.
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PMID:Effects of carbon tetrachloride on calcium homeostasis. A critical reconsideration. 276 92

Membrane proteins of transporting epithelia are often distributed between apical and basolateral surfaces to produce a functionally polarized cell. The distribution of Na+,K+-ATPase [ATP phosphohydrolase (Na+/K+-transporting), EC 3.6.1.37] between apical and basolateral membranes of hepatocytes has been controversial. Because Na+,K+-ATPase activity is fluidity dependent and the physiochemical properties of the apical membrane reduces its fluidity, we investigated whether altering membrane fluidity might uncover cryptic Na+,K+-ATPase in bile canalicular (apical) surface fractions free of detectable Na+,K+-ATPase and glucagon-stimulated adenylate cyclase activities. Apical fractions exhibited higher diphenylhexatriene-fluorescence polarization values when compared with sinusoidal (basolateral) membrane fractions. When 2-(2-methoxyethoxy)ethyl 8-(cis-2-n-octylcyclopropyl)octanoate (A2C) was added to each fraction, Na+,K+-ATPase, but not glucagon-stimulated adenylate cyclase activity, was activated in the apical fraction. In contrast, further activation of both enzymes was not seen in sinusoidal fractions. The A2C-induced increase in apical Na+,K+-ATPase approached 75% of the sinusoidal level. Parallel increases in apical Na+,K+-ATPase were produced by benzyl alcohol and Triton WR-1339. All three fluidizing agents decreased the order component of membrane fluidity. Na+,K+-ATPase activity in each subfraction was identically inhibited by the monoclonal antibody 9-A5, a specific inhibitor of this enzyme. These findings suggest that hepatic Na+,K+-ATPase is distributed in both surface membranes but functions more efficiently and, perhaps, specifically in the sinusoidal membranes because of their higher bulk lipid fluidity.
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PMID:Biochemical localization of hepatic surface-membrane Na+,K+-ATPase activity depends on membrane lipid fluidity. 284 69

This study was designed to correlate morphological alterations induced in rat collecting tubule by potassium depletion with changes in the activity of enzymatic markers of the cell basolateral membrane. Results show the following responses. 1) Potassium depletion induced a huge and progressive hypertrophy of the outer medullary collecting tubule (MCT). Hypertrophy was paralleled by enhancements of vasopressin- and forskolin-dependent adenylate cyclase (AC) activities. Glucagon-sensitive AC was also increased, but with a different kinetics, whereas isoproterenol-dependent AC was only modestly stimulated. 2) In cortical (CCT) and papillary collecting tubules, AC response to hormones did not change. The concentrating defect of K-deprived rats, therefore, does not appear to result from an intrinsically defective adenylate cyclase system in any portion of the collecting tubule. Decreased AC response of the medullary thick ascending limb to vasopressin and glucagon, observed after 3-5 wk of K depletion, might account, at least in part, for reduced hypertonicity of medullary tissue. 3) Na+-K+-ATPase activity fell in CCT, probably in relation to decreased K secretion. Conversely, in MCT, Na+-K+-ATPase rose much more than tubular volume. The physiological significance of this latter observation remains to be established.
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PMID:Alterations of enzymatic activities along rat collecting tubule in potassium depletion. 288 16

Glucagon specifically inhibits the Ca2+ pump in liver plasma membranes independently of adenylate cyclase activation. However, this inhibition is only observed at high concentrations of glucagon (Ki = 0.7 microM). Moreover, in the presence of bacitracin, an inhibitor of glucagon degradation, the Ca2+ pump is no longer sensitive to glucagon. These findings suggest that a fragment of glucagon might be the true effector of the liver Ca2+ pump. Pairs of basic amino acids are recognized as potential cleavage sites in post-translational processing of peptide hormones. The glucagon molecule includes a dibasic doublet (Arg 17-Arg 18). Therefore, we have examined the action of glucagon(19-29) on the liver Ca2+ pump. This peptide was obtained from glucagon by tryptic cleavage and separated by reverse-phase high-performance liquid chromatography. We found that glucagon(19-29), which is totally ineffective in activating adenylate cyclase, inhibited both the Ca2+-activated and Mg2+-dependent ATPase activity [Ca2+-Mg2+) ATPase) and Ca2+ transport in liver plasma membranes with an efficiency 1,000-fold higher than that of glucagon. Glucagon(1-21) was completely inactive; glucagon(18-29) and glucagon(22-29) acted only as partial agonists of glucagon(19-29). These results indicate that glucagon(19-29), obtained by proteolytic cleavage of glucagon, is likely to be the active peptide involved in the inhibition of the liver Ca2+ pump. We suggest that glucagon may be a precursor of at least one biologically active peptide.
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PMID:A glucagon fragment is responsible for the inhibition of the liver Ca2+ pump by glucagon. 294 56

We have previously shown that liver plasma membrane (Ca2+-Mg2+)-ATPase activity is inhibited by glucagon. To investigate the possible involvement of a GTP-binding (G) protein in this regulation, we have examined the effects of pertussis toxin and cholera toxin on inhibition of (Ca2+-Mg2+)-ATPase by glucagon. Treatment of liver plasma membranes with pertussis toxin did not affect the sensitivity of (Ca2+-Mg2+)-ATPase to the hormone. In contrast, treatment of plasma membranes or prior injection of animals with cholera toxin prevented inhibition of the (Ca2+-Mg2+)-ATPase by glucagon. Even though adenylate cyclase activity was increased by cholera toxin treatment, addition of cyclic AMP did not mimic the effect of cholera toxin in blocking glucagon-mediated inhibition of (Ca2+-Mg2+)-ATPase activity. These data suggest that a cholera toxin-sensitive protein, perhaps Gs or a Gs-like protein, is involved in the regulation of liver (Ca2+-Mg2+)-ATPase activity. The results emphasize the possible role of Gs-like proteins in regulation of enzymes other than adenylate cyclase and suggest that the study of (Ca2+-Mg2+)-ATPase may provide a useful enzymatic system to examine such regulation.
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PMID:Cholera toxin blocks glucagon-mediated inhibition of the liver plasma membrane (Ca2+-Mg2+)-ATPase. 295 93

We find, contrary to previous reports, that substantial cleavage of glucagon by insulin proteinase occurs at only one region, namely the double-basic sequence -Arg17-Arg18-. Cleavage takes place almost exclusively between these two residues, liberating fragments glucagon-(1-17) and glucagon-(18-29). Others have shown that the fragment glucagon-(19-29) is 1000-fold more efficient compared with intact glucagon, at inhibiting the Ca2+-activated and Mg2+-dependent ATPase activity and the Ca2+ pump of liver plasma membranes. We show that this fragment is not liberated in detectable quantities by our insulin proteinase preparation. On the other hand, others have shown that glucagon-(18-29), though less active than glucagon-(19-29), was still 100-fold more active than glucagon itself in the above-mentioned system. Our observations represent the first demonstration of the release by insulin proteinase of a hormone fragment having enhanced activity, although it has yet to be shown that the activity of this fragment is important in vivo. Since the formation of glucagon-(19-29) from glucagon-(18-29) would involve merely removal of Arg18, a second enzyme might exist to provide the more active fragment.
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PMID:Insulin proteinase liberates from glucagon a fragment known to have enhanced activity against Ca2+ + Mg2+-dependent ATPase. 297 45

The medullary thick ascending limb (MAL), but not the medullary collecting tubule (MCT), has been shown to have an impaired adenylate cyclase (AC) responsiveness to ADH and a selective hypoplasia in Brattleboro diabetes insipidus (DI) rats. Since chronic ADH administration has been found to increase epithelium volume and basolateral membrane surface area in MAL but not in MCT, we investigated whether chronic ADH infusion would affect the hormone-sensitive AC and the Na-K-ATPase activity--two markers of the basolateral membrane--in single micro-dissected portions of thick ascending limb and collecting tubule in DI rats. Results indicate that 1. in MAL of ADH-treated rats, AC responses to in vitro AVP and glucagon and Na-K-ATPase activity increased to the same extent as did epithelium volume (60-80%); 2. changes in the other segments were independent of any morphological alteration. In the cortical thick ascending limb, AVP and glucagon-sensitive AC decreased by 30-40% whereas Na-K-ATPase activity did not change. In the collecting tubule, AC response to in vitro AVP was not altered by ADH-treatment but glucagon-sensitive AC dropped by 50% and Na-K-ATPase activity doubled, independently of any variation in plasma aldosterone and glucagon levels. These results show that, in the MAL, the ADH-induced variations in enzyme activity are a reflection of the enlargement of the basolateral membrane surface area. Further studies are needed to clarify the origin of enzymatic alterations in the other segments.
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PMID:Influence of chronic ADH treatment on adenylate cyclase and ATPase activity in distal nephron segments of diabetes insipidus Brattleboro rats. 299 94

The catalytic alpha-subunit of rat hepatic (Na+, K+)-ATPase (EC 3.6.1.3) has been isolated by immunoaffinity chromatography from microsomes solubilized in n-dodecyl octaethylene glycol monoether. The procedure employs an anticatalytic mouse monoclonal antibody ("9-A5") covalently linked to Sepharose 4B that specifically blocks phosphorylation of the sodium pump's alpha-subunit from [gamma-32P]ATP [Schenk, D. B., Hubert, J.J., & Leffert, H.L. (1984) J. Biol. Chem. 259, 14941-14951]. The hepatic subunit is virtually identical with purified rat, dog, and human renal alpha-subunits as judged by its apparent molecular weight after polyacrylamide gel electrophoresis in sodium dodecyl sulfate (Mr 92K) and its two-dimensional tryptic and chymotryptic peptide maps on cellulose-coated thin-layer plates. In contrast, the structures of authentic renal beta-subunits from the three species differ significantly from each other as judged by their peptide maps; no detectable homologies are seen between their chymotryptic maps and those of putative hepatic "beta"-subunits (Mr 50K and 55K) eluted from 9-A5-Sepharose. Additional studies of ouabain-sensitive 86Rb+ uptake in primary cultures of adult rat hepatocytes reveal inhibition curves with single inflection points (ID50 = 0.1 mM ouabain) in the absence or presence of pump-stimulating peptides like insulin, glucagon, and epidermal growth factor. These findings indicate that rat hepatocytes express only one of two known structurally conserved forms of catalytic subunit (the renallike alpha form) and, if at all, structurally divergent forms of the sodium pump's beta-subunit. In addition, immunoaffinity chromatography with 9-A5-Sepharose facilitates the isolation of (Na+, K+)-ATPases from nonrenal tissues with low levels of sodium pumps.
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PMID:Rat hepatic (Na+, K+)-ATPase: alpha-subunit isolation by immunoaffinity chromatography and structural analysis by peptide mapping. 301 14

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