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 identification of a novel protein from Drosophila melanogaster that binds both mammalian epidermal growth factor (EGF) and insulin has been reported (Thompson, K. L., S. J. Decker, and M. R. Rosner, 1985, Proc. Natl. Acad. Sci. USA., 82:8443-8447). This 100-kD protein (designated dp100) is also recognized by an antiserum against the human EGF receptor. To further characterize the properties of this protein, we have determined the binding spectrum, glycosylation state, and cellular distribution of dp100. Our results indicate that dp100 binds to other insulin-like and EGF-like growth factors with dissociation constants ranging from 10(-6) to 10(-9) M, and these ligands compete with each other for binding to dp100. All other ligands tested, including platelet-derived growth factor, transforming growth factor-beta, nerve growth factor, and glucagon, either did not bind or bound with a Kd greater than 10(-6) M. Unlike the Drosophila insulin receptor, dp100 does not bind to wheat germ agglutinin and is present in a cytoplasmic as well as a membrane-bound form that cannot be differentiated by two-dimensional PAGE. Further, dp100 is the sole transforming growth factor-alpha-binding protein detected by affinity labeling in Drosophila Kc cells. These results indicate that dp100 shares properties in common with, but distinct from, the Drosophila homologues of the insulin and EGF receptors.
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PMID:Characterization of a Drosophila protein that binds both epidermal growth factor and insulin-related growth factors. 311 66

Rat liver plasma membranes contain (Ca2+-Mg2+)-ATPase sensitive to inhibition by both glucagon and Mg2+. We have previously shown that Mg2+ inhibition is mediated by a 30,000-dalton inhibitor, originally identified as a membrane-bound protein. In fact, this inhibitor is also present in the 100,000 X g supernatant of the total liver homogenate. Its purification was achieved from this fraction by a combination of ammonium sulfate washing, gel filtration, and cationic exchange chromatography. N-Ethylmaleimide (NEM) treatment caused the inactivation of the purified inhibitor, which suggested that this protein possesses at least one NEM-sensitive sulfhydryl group essential for its activity. Treatment of the liver plasma membranes with NEM resulted in a 2- and 5-fold decrease in the affinity of the (Ca2+-Mg2+)-ATPase for glucagon and Mg2+, respectively, while the basal enzyme activity remained unchanged. This effect of NEM was concentration-, pH-, and time-dependent, optimal conditions being obtained by a 60-min treatment of plasma membranes with 50 mM NEM, at pH 7 and at 4 degrees C. The presence of 0.5 mM Mg2+ during NEM treatment of the plasma membranes prevented NEM inactivation. Reconstitution experiments showed that addition of the purified inhibitor to NEM-treated plasma membranes restored the inhibitions of the (Ca2+-Mg2+)-ATPase by both magnesium and glucagon. It is proposed that the (Ca2+-Mg2+)-ATPase inhibitor not only confers its sensitivity of the liver (Ca2+-Mg2+)-ATPase to Mg2+, but also mediates the inhibition of this system by glucagon.
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PMID:The inhibitor of liver plasma membrane (Ca2+-Mg2+)-ATPase. Purification and identification as a mediator of glucagon action. 316 Jul 1

Membrane-bound adenylate cyclase (AC) activity was much higher in the presence of Mn2+ than of Mg2+. The Mn2+-sensitive adenylate cyclase (MnAC) showed a linear rate of activity for at least 60 min. In contrast, the Mg2+-sensitive AC (MgAC) displayed a considerable burst in activity, so that after 90 min of activity it was approximately tenfold higher than at the start of incubation. Guanine nucleotides enhanced MgAC activity; 10(-6) to 10(-5) M of 5'-guanylylimidodiphosphate caused a threefold stimulation. The MgAC could be stimulated by hormones (FSH, hCG, PGE1, isoproterenol, glucagon), the highest activation being achieved with FSH. Increasing levels of ATP produced a concentration-dependent increase in MgAC activity. The apparent affinity of the AC for MgATP increased threefold (Km 0.50-0.15 mM) by raising the free Mg2+ concentration from 0.4 to 10.0 mM. The membrane-bound AC of the blue fox testis is thus regulated by hormones, Mg2+, and guanine nucleotides in a similar manner to ACs in other somatic cells and in testes from other species. The high MnAC activity in membrane particles from these testes probably represents membrane-bound AC activity in germ cells. The burst in MgAC activity during incubation may represent proteolytic activation of membrane-bound germ cell AC, with a gradual appearance of Mg2+ sensitivity.
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PMID:Membrane-bound adenylate cyclase activity in the testis of the blue fox. 393 98

Plasma membrane vesicles prepared from intact rat liver or isolated hepatocytes retain transport activity by systems A, ASC, N, and Gly. Selective substrates for these systems showed a Na+-dependent overshoot indicative of energy-dependent transport, in this instance, driven by an artificially-imposed Na+ gradient. Greater than 85% of Na+-dependent 2-aminoisobutyric acid (AIB) uptake was blocked by an excess of 2-(methylamino)isobutyric acid (MeAIB) with an apparent Ki of 0.6 mM. Intact hepatocytes obtained from glucagon-treated rats exhibited a stimulation of system A activity and plasma membrane vesicles isolated from those same cells partially retained the elevated activity. Transport activity induced by substrate starvation of cultured hepatocytes was also evident in membrane vesicles prepared from those cells. The membrane-bound glucagon-stimulated system A activity decays rapidly during incubation of vesicles at 4 degrees C (t1/2 = 13 h), but not at -75 degrees C. Several different inhibitors of proteolysis were ineffective in blocking the decay of transport activity. Hepatic system N transport activity was also elevated in plasma membrane vesicles from glucagon-treated rats, whereas system ASC was essentially unchanged. The results indicate that both glucagon and adaptive regulation cause an induction of amino acid transport through a plasma membrane-associated protein.
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PMID:Maintenance of glucagon-stimulated system A amino acid transport activity in rat liver plasma membrane vesicles. 396 88

The polysomes involved in albumin and serine dehydratase synthesis were identified and localized by the binding to rat liver polysomes of anti-rat serum albumin and anti-serine dehydratase [(125)I]Fab dimer and monomer. Techniques were developed for the isolation of undegraded free and membrane-bound polysomes and for the preparation of [(125)I]Fab monomers and dimers from the IgG obtained from the antisera to the two proteins, rat serum albumin and serine dehydratase. The distribution of anti-rat serum albumin [(125)I]Fab dimer in the polysome profile is in accordance with the size of polysomes that are expected to be synthesizing albumin. By direct precipitation, it has been demonstrated that nascent chains isolated from the membrane-bound polysomes by puromycin were precipitated by anti-rat serum albumin-IgG at a level of 5-6 times those released from free polysomes. Anti-rat serum albumin-[(125)I]Fab dimer reacted with membrane-bound polysomes almost exclusively compared to the binding of nonimmune, control [(125)I]Fab dimer; a significant degree of binding of anti-rat serum albumin-[(125)I]Fab to free polysomes was also obtained. The [(125)I]Fab dimer made from normal control rabbit serum does not react with polysomes from liver at all and this preparation will not interact with polysomes extracted from tissues that do not synthesize rat serum albumin. Both anti-serine dehydratase-[(125)I]Fab monomer and dimer react with free and bound polysomes from livers of animals fed a chow diet or those fed a high 90% protein diet and given glucagon. In the latter instance, however, it is clear that the majority of the binding occurs to the bound polysomes. Furthermore, the specificity of this reaction may be further shown by the use of kidney polysomes that do not normally synthesize serine dehydratase. When these latter polysomes are isolated, even after the addition of crude and purified serine dehydratase, no reaction with anti-serine dehydratase-Fab fragments could be demonstrated. These results indicate that the reaction of the Fab fragments are specific for polysomes that synthesize rat serum albumin or rat liver serine dehydratase. Furthermore, they demonstrate that even with this high degree of specificity, some polysomes in the fraction labeled "free" are in the process of synthesizing rat serum albumin while bound polysomes to a significant, if not major, degree are the site of the synthesis of rat liver serine dehydratase.
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PMID:Localization of polysome-bound albumin and serine dehydratase in rat liver cell fractions. 420 8

1. Intracellular recordings of membrane potential were made from superficial cells of isolated mouse liver segments superfused with physiological salt solutions.2. The mean resting cell membrane potential was -39.4 mV.3. Glucagon caused a dose-dependent membrane hyperpolarization which was detectable at 10(-9)M and maximal (7 mV) at 10(-7)M. The hyperpolarization started within half a minute after exposure to glucagon. Secretion (2 x 10(-7)M) had no effect on the membrane potential.4. Adrenaline (10(-6)M) and isoprenaline (10(-6)M) also caused membrane hyperpolarization (4-6 mV). The effect of isoprenaline, but not that of adrenaline, was blocked by propranolol (5 x 10(-6)M).5. Dibutyryl adenosine 3',5'-monophosphate (10(-3)M) caused a membrane hyperpolarization of 4-8 mV.6. In the absence of extracellular K or the presence of Strophanthin-G (10(-3)M) the resting potential was decreased and the response to glucagon reduced. During exposure to a solution containing 20 mM-K the resting potential was slightly enhanced and the amplitude of the glucagon-induced hyperpolarization reduced compared with control conditions.7. It is concluded that the effect of glucagon on the membrane potential is due to an interaction with specific membrane receptors probably leading to activation of the membrane-bound adenyl cyclase. It is probable that the hyperpolarization is mediated by cyclic AMP. The hyperpolarization induced by glucagon is dependent on a normal function of the membrane Na-K pump.
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PMID:The effect of glucagon on the liver cell membrane potential. 436 92

1. A neutral peptidase, previously shown to be located in the brush border of the proximal tubule, and assayed by its ability to hydrolyse [(125)I]iodoinsulin B chain was purified from rabbit kidney. 2. The starting material for the purification was a microsomal pellet prepared from a homogenate of cortical tissue. The membrane-bound enzymes were solubilized by treatment with toluene and trypsin. About half the neutral peptidase activity was released by this treatment in a form that no longer sedimented with the microsomal pellet and which penetrated polyacrylamide gels when subjected to disc electrophoresis. Other treatments with detergents or proteolytic enzymes either inactivated the peptidase or failed to convert it into a genuinely soluble form. 3. Chromatography with successive columns of Sephadex G-200, DEAE-cellulose and hydroxyl-apatite yielded an enzyme that was free of other brush-border peptidase activities and which was homogeneous on disc electrophoresis and ultracentrifugation. 4. The purified enzyme attacked [(125)I]iodoglucagon at a rate comparable with that for [(125)I]iodoinsulin B chain. It did not appear to attack proteins (insulin, albumin and casein) that had been similarly iodinated. 5. Unlabelled insulin B chain and unlabelled glucagon were substantially hydrolysed by the endopeptidase, whereas insulin and albumin released only trivial amounts of ninhydrin-reacting material. The resistance of insulin to attack by endopeptidase, even after prolonged incubation, was confirmed by biological and immunoassay. 6. The specificity of the peptidase was determined by analysis of the products after incubating unlabelled insulin B chain, and some oligopeptide substrates, including pentagastrin, with the enzyme. All of the bonds readily cleaved were those involving the alpha-amino group of hydrophobic residues, i.e. x-Leu-, x-Val-, x-Tyr-, x-Phe- and x-Met-, provided that the residues were not C-terminal. 7. The enzyme showed only endopeptidase activity. Substrates suitable for aminopeptidases, carboxypeptidases or esterases were not attacked.
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PMID:The purification and specificity of a neutral endopeptidase from rabbit kidney brush border. 442 92

In the presence of 3-isobutyl-l-methylxanthine, VIP produced a dose-related (3 X 10(-9)-10(-7) M) increase (8-fold) in cAMP production in isolated HEp-2 cells incubated at 15 degrees C in KRP buffer. Among the peptides structurally related to VIP, including secretin (10(-7) M), pancreatic glucagon (10(-6) M), PHI, somatostatin-14 (10(-6) M), hpGRF (10(-8)-4 X 10(-6) M), GIP (2 X 10(-7) M), only PHI (3 X 10(-7) M and above) is able to activate the cAMP-generating system in HEp-2 cells, but at 10(2) times lower potency. Under the same conditions, histamine (10(-3) M) was also ineffective, while PGE2 (10(-7)-10(-4) M) increased (4-fold) basal cAMP levels in HEp-2 cells. The VIP effect is related to the interaction of the peptide on VIP recognition sites (125I-VIP-binding capacity), coupled to the membrane-bound adenylate cyclase. The results indicate that the transformed laryngeal cell line HEp-2 possesses a receptor-cAMP system preferentially activated by VIP (relative potencies: VIP greater than PHI much greater than other peptides of the secretin family), and suggest that this neuropeptide could modulate biological functions in normal laryngeal epithelia in man.
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PMID:Activation of the cAMP-generating system by vasoactive intestinal polypeptide (VIP) in the human laryngeal malignant cell line HEp-2. 608 15

The hepatic glucagon receptor was covalently labeled with [125I-Try10]monoiodoglucagon [( 125I]MIG) by use of the heterobifunctional cross-linker hydroxysuccinimidyl p-azidobenzoate. Labeling of the Mr = 63,000 peptide was sensitive to glucagon and GTP at concentrations at which they affect [125I]MIG binding to the receptor. The labeled receptor was solubilized with Lubrol-PX, and the hydrodynamic characteristics of the receptor were determined. The molecular parameters of the solubilized receptor are: S20,w = 4.3 +/- 0.1, Stokes radius = 6.3 +/- 0.1 nm, frictional coefficient f/f0 = 1.8, and a calculated Mr = 119,000. Incubation of liver membranes at 32 degrees C for 15 min prior to the addition of [125I]MIG permitted us to identify the high molecular weight form (Mr = approximately 113,000) of the receptor by direct sodium dodecyl sulfate-gel electrophoretic analysis. The Mr = 63,000 peptide can be adsorbed to wheat germ lectin-Sepharose. The glycoprotein nature of the receptor has been utilized to develop an assay for the detergent-solubilized receptor that uses wheat germ lectin-Sepharose as a solid matrix to adsorb the [125I] MIG-receptor complex. The free hormone remains in the liquid phase and is removed in the supernatant after low speed centrifugation. 3-[(3-Cholamidopropyl)dimethylammonio]-1-propane sulfonate (CHAPS) solubilizes receptors with retention of [125I]MIG binding activity. [125I]MIG binding to the CHAPS-solubilized receptor is specifically affected by unlabeled glucagon. Interaction of [125I]MIG with the soluble receptor is insensitive to the presence of GTP. IC50 for glucagon using the soluble receptor was 33-70 nM, irrespective of the presence or absence of GTP, while when the membrane-bound receptor was used, the IC50 in the absence of GTP was 2-4 nM and in the presence of GTP was 35-80 nM. These data allow us to conclude that the hepatic glucagon receptor in the membrane and in the nondenaturing detergent solution is a dimer of the Mr = 63,000 hormone-binding subunit and a glycoprotein. The soluble receptor does not display any functional interaction with the stimulatory regulator.
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PMID:The hepatic glucagon receptor. Solubilization, characterization, and development of an affinity adsorption assay for the soluble receptor. 608 31

Twenty unselected breast carcinomas were examined for argyrophilia by the Sevier-Munger stain and for dense-core secretory granules by electron microscopy. All cases were examined for lactalbumin and five cases were also studied for gastrin, insulin, calcitonin, somatostatin, glucagon, ACTH, prolactin, and pancreatic polypeptide by an immunoperoxidase technique; two cases were further analyzed for lactalbumin by ultrastructural immunoperoxidase stain. Focal or diffuse argyrophilia was present in ten cases. Intracytoplasmic lactalbumin was present in seven of these cases, but immunoperoxidase staining for the neuroendocrine hormones was negative. Fine structural examination demonstrated varying numbers of 95 to 450-nm-diameter, round, membrane-bound, dense-core secretory granules in 13 cases. Nine of the granule-containing cases were also argyrophilic, and seven of these contained intracytoplasmic lactalbumin. Both the argyrophilia and the dense-core secretory granules thus correlated with the presence of intracytoplasmic lactalbumin. None of the 20 patients had clinical evidence of carcinoid syndrome or showed evidence of other hormone secretion. Argyrophilia and granular lactalbumin staining in a somewhat similar pattern was found in pregnant and lactating breast controls. Argyrophilia and ultrastructural dense-core granules are common in breast carcinomas and might represent lactational differentiation. These findings do not indicate the presence of a carcinoid tumor because in most of these tumors the secretory granules appear to contain milk protein secretory product rather than neuroendocrine polypeptides, and most argyrophilic tumors do not morphologically or clinically resemble carcinoid tumors.
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PMID:Argyrophilic breast carcinomas: evidence of lactational differentiation. 618 Jun 51


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