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Molecular Membrane Biology Volume 17, 2000 - Issue 1
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Research Article

Insulin stimulates the release of a subset of GPI-anchored proteins in a G-protein independent manner

Sara Movahedi School of Biochemistry and Molecular Biology, University of Leeds, Leeds LS2 9JT, UK
,
Susan Pang School of Biochemistry and Molecular Biology, University of Leeds, Leeds LS2 9JT, UK
&
Nigel M. Hooper School of Biochemistry and Molecular Biology, University of Leeds, Leeds LS2 9JT, UK
Pages 41-45 | Published online: 09 Jul 2009

References

  • Anderson, R. G. W., 1998, The caveolae membrane system. Annual Review of Biochemistry, 67, 199–225.
  • Asano, T., Pedersen, S. E., Scott, C. W. and Ross, E. M., 1984, Reconstitution of catecholamine-stimulated binding of guanosine 5 -O-(3-thiotriphosphate)to the stimulatory GTP-binding protein of adenylate cyclase. Biochemistry, 23, 5460–5467.
  • Booth, A. G. and Kenny, A. J., 1974, A rapid method for the preparation of microvilli from rabbit kidney. Biochemical Journal, 142, 575–581.
  • Broomfield, S. J. and Hooper, N. M., 1993, Characterization of an antibody to the cross-reacting determinant of the glycosyl-phosphatidylinositol anchor of human membrane dipeptidase. Biochimica et Biophys ica Acta, 1145, 212–218.
  • Brown, D., 1993, The tyrosine kinase connection: howGPI-anchored proteins activate T cells. Current Opinion in Immunology, 5, 349 354.
  • Cockcroft, S. and Taylor, J. A., 1987, Fluoroaluminates mimic guanosine 5 -[gamma-thio]triphosphate in activating the polypho-sphoinositide phosphodiesterase of hepatocyte membranes. Role for the guanine nucleotide regulatory protein Gp in signal transduction. Biochemical Journal, 241, 409–414.
  • Eckstein, F., Cassel, D., Lefkovitz, H., Lowe, M. and Selinger, Z., 1979, Guanosine 5 -O-(2-thiodiphosphate). An inhibitor of adeny-late cyclase stimulation by guanine nucleotides and fluoride ions. Journal of Biological Chemis try, 254, 255–264.
  • Frick, W., Bauer, A., Bauer, J., Wied, S. and Muller, G., 1998a, Insulin-mimetic signalling of synthetic phosphoinositolglycans in isolated rat adipocytes. Biochemical Journal, 336, 163–181.
  • Frick, W., Bauer, A., Bauer, J., Wied, S. and Muller, G., 1998b, Structure-activity relationship of synthetic phosphoinositolglycans mimicking metabolic insulin action. Biochemistry, 37, 13421–13436.
  • Higashijima, T., Uzu, S., Nakajima, T. and Ross, E. M., 1988, Mastoparan, a peptide toxin from wasp venom, mimics receptors by activating GTP-binding regulatory proteins (G Proteins). Journal of Biological Chemis try, 263, 6491–6494.
  • Hooper, N. M., 1992, Identifica tion of a glycosyl-phosphatidylinositol anchor on membrane proteins. In Lipid Modification of Prote ins: A Practical Approa ch, N. M. Hooper and A. J. Turner, eds (Oxford: IRL Press), pp. 89–115.
  • Hooper, N. M., 1993, Determination of mammalian membrane protein anchorage: glycosyl-phosphatidylinositol (G-PI) or trans-membrane polypeptide anchor. Biochemical Education, 21, 212- 216.
  • Hooper, N. M., 1997, Glycosyl-phosphatidylinositol anchored membrane enzymes. Clinica Chimica Acta, 266, 3–12.
  • Hooper, N. M., 1999, Detergent-insoluble glycosphingolipid/choles-terol-rich membrane domains, lipid rafts and caveolae. Molecular Membrane Biology, 16, 145–156.
  • Hooper, N. M. and Turner, A. J., 1988, Ectoenzymes of the kidney microvillar membrane. Aminopeptidase P is-anchored by a glycosyl-phosphatidylinositol moiety. FEBS Le tters, 229, 340 344.
  • Hooper, N. M., Broomfield, S. J. and Turner, A. J., 1991, Characterization of antibodies to the glycosyl-phosphatidylinositol membrane anchors of mammalian proteins. Biochemical Journa l, 273, 301–306.
  • Hooper, N. M., Low, M. G. and Turner, A. J., 1987, Renal dipeptidase is one of the membrane proteins released by phosphatidylinositol-specific phospholipase C. Biochemical Journal, 244, 465–469.
  • Ishihara, M., Fedarko, N. S. and Conrad, H. E., 1987, Involvement of phosphatidylinositol and insulin in the coordinate regulation of proteoheparan sulfate metabolism and hepatocyte growth. Journal of Biological Chemis try, 262, 4708–4716.
  • Kilgour, E., 1993, A role for inositol-glycan mediators and G-proteins in insulin action. Cellular Signalling, 5, 97–105.
  • Kilgour, E., Larner, J. and Romero, G., 1992, The generation of inositolglycan mediators from rat liver plasma membranes: the role of guanine nucleotide binding proteins. Biochemical and Biophys ical Research Communications, 186, 1151–1157.
  • Klip, A., Ramlal, T., Douen, A. G., Burdett, E., Young, D., Cartee, G. D. and Holloszy, J. O., 1988, Insulin-induced decrease in 5-nucleotidase activity in skeletal muscle membranes. FEBS Letters, 238, 419–423.
  • Larner, J., 1994, Multiple pathways in insulin signaling fitting the covalent and allosteric puzzle pieces together. Endocrine Journa l, 2, 167–171.
  • Lazar, D. F., Knez, J. J., Medof, M. E., Cuatrecasas, P. and Saltiel, A. R., 1994, Stimulation of glycogen synthesis by insulin in human erythroleukemia cells requires the synthesis of glycosyl-phospha-tidylinositol. Proceedings of the National Academy of Science s (USA), 91, 9665–9669.
  • Loirand, G., Pacaud, P., Mironneau, C. and Mironneau, J., 1990, GTP-binding proteins mediate noradrenaline effects on calcium and chloride currents in rat portal vein myocytes. Journal of Phys iology, 428, 517–529.
  • Luttrell, L., Kilgour, E., Larner, J. and Romero, G., 1990, A pertussis toxin-sensitive G-protein mediates some aspects of insulin action in BC3H-1 murine myocytes. Journal of Biological Chemis try, 265, 16873–16879.
  • McConville, M. J. and Ferguson, M. A. J., 1993, The structure, biosynthesis and function of glycosylated phosphatidylinositols in the parasitic protozoa and higher eukaryotes. Biochemical Journal, 294, 305–324.
  • Milligan, G., 1988, Techniques used in the identification and analysis of function of pertussis toxin-sensitive guanine nucleotide binding proteins. Biochemical Journa l, 255, 1–13.
  • Movahedi, S. and Hooper, N. M., 1997, Insulin stimulates the release of the GPI-anchored membrane dipeptidase from 3T3-L1 adipo-cytes through the action of a phospholipase C. Biochemical Journal, 326, 531–537.
  • Muller, G., Dearey, E. A., Korndorfer, A. and Bandlow, W., 1994, Stimulation of a glycosyl-phosphatidylinositol-specific phospholi-pase by insulin and the sulphonylurea, glimepiride, in rat adipocytes depends on increased glucose transport. Journal of Cell Biology, 126, 1267–1276.
  • Roberts, W. L., Myher, J. J., Kuksis, A., Low, M. G. and Rosenberry, T. L., 1988, Lipid analysis of the glycoinositol phospholipid membrane anchor of human erythrocyte acetylcholinesterase. Journal of Biological Chemistry, 263, 18766–18775.
  • Rodriguez-Boulan, E. and Powell, S. K., 1992, Polarity of epithelial and neuronal cells. Annual Review of Cell Biology, 8, 395–427.
  • Romero, G. and Larner, J., 1993, Insulin mediators and the mechanism of insulin action. Advances in Pharmacology, 24, 21–50.
  • Romero, G., Luttrell, L., Rogol, A., Zeller, K., Hewlett, E. and Larner, J., 1988, Phosphatidylinositol-glycan anchors of membrane proteins: potential precursors of insulin mediators. Science, 240, 509–511.
  • Saltiel, A. R., 1994, The paradoxical regulation of protein phosphor-ylation in insulin action. F ASEB Journal, 8, 1034–1040.
  • Singh, N., Liang, L.-N., Tykocinski, M. L. and Tartakoff, A. M., 1996, A novel class of cell surface glycolipids of mammalian cells. Free glycosyl phosphatidylinositols. Journal of Biological Chemis try, 271, 12879–12884.
  • Smith, P. K., Krohn, R. I., Hermanson, G. T., Mallia, A. K., Gartner, F. H., Provenzano, M. D., Fujimoto, E. K., Goeke, B. J., Olson, B. J. and Klenk, D. C., 1985, Measurement of protein using bicinchoninic acid. Ana lytical Biochemistry, 150, 76–85.
  • Uehara, T., Hoshino, S.-I., Ui, M., Tokumitsu, Y. and Nomura, Y., 1994, Possible involvement of phosphatidylinositol-specific phos-pholipase C related to pertussis toxin-sensitive GTP-binding proteins during adipocyte differentiation of 3T3-L1 fibroblasts: negative regulation of protein kinase C. Biochimica et Biophys ica Acta, 1224, 302–310.
  • Vila, M. C., Milligan, G., Standaert, M. L. and Farese, R. V., 1990, Insulin activates glycerol-3-phosphate acyltransferase (de novo phosphatidic acid synthesis) through a phospholipid-derived mediator. Apparent involvement of Gi and activation of a phospholipase C. Biochemistry, 29, 8735- 8740.

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