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• W2078297850 abstract "Tissue AntigensVolume 41, Issue 4 p. 214-218 Structural and biosynthetic features of the Mo5 human myeloid differentiation antigen Steven C. Goldstein, Corresponding Author Steven C. Goldstein Simpson Memorial Institute, Department of Internal Medicine, Division of Hematology and Oncology, The University of Michigan Medical School, Ann Arbor, MI, U.S.A.Address: Steven C. Goldstein Simpson Memorial Insitute Dept. of Internal Medicine Divn. of Hematology and Oncology The University of Michigan Medical School Ann Arbor, MI 48109–0374 U.S.A.Search for more papers by this authorRobert F. Todd III, Robert F. Todd III Simpson Memorial Institute, Department of Internal Medicine, Division of Hematology and Oncology, The University of Michigan Medical School, Ann Arbor, MI, U.S.A.Search for more papers by this author Steven C. Goldstein, Corresponding Author Steven C. Goldstein Simpson Memorial Institute, Department of Internal Medicine, Division of Hematology and Oncology, The University of Michigan Medical School, Ann Arbor, MI, U.S.A.Address: Steven C. Goldstein Simpson Memorial Insitute Dept. of Internal Medicine Divn. of Hematology and Oncology The University of Michigan Medical School Ann Arbor, MI 48109–0374 U.S.A.Search for more papers by this authorRobert F. Todd III, Robert F. Todd III Simpson Memorial Institute, Department of Internal Medicine, Division of Hematology and Oncology, The University of Michigan Medical School, Ann Arbor, MI, U.S.A.Search for more papers by this author First published: April 1993 https://doi.org/10.1111/j.1399-0039.1993.tb02007.xCitations: 8AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References 1 Todd RF III, Roach JA, Arnaout MA. The modulated expression of Mo5, a human myelomonocytic plasma membrane antigen. Blood 1985: 65: 964– 73. 2 Sundstrom C, Nilsson K. Establishment and characterization of a human histocytic lymphoma cell line (U-937). Int J Cancer 1976: 17: 565– 77. 3 Tsuchiya S, Kobayashi Y, Goto Y, et al. Induction of maturation in cultured human monocytic leukemia cells by a phorbol diester. Cancer Res 1982: 42: 1530– 6. 4 Collins SJ, Gallo RC, Gallagher RE. Continous growth and differentiation of human myeloid leukemic cells in suspension culture. Nature 1977: 270: 347– 9. 5 Koeffler HP, Golde DW. Acute myelogenous leukemia: A human cell line responsive to colony stimulating activity. Science 1978: 200: 1153– 4. 6 Foon K, Todd RF III. Immunologic Classification of Leukemia and Lymphoma. Blood 1986: 68: 1– 31. 7 Harlow E, Lane D. Antibody purification on Protein A columns. In: Antibodies - A Laboratory Manual. Cold Spring Harbor, 1988: 310. 8 Schneider C, Newman RA, Sutherland DR, Asser U, Greaves MF. A one-step purification of membrane proteins using a high efficiency immunomatrix. J Biol Chem 1982: 257: 10766– 9. 9 Dana N, Styrt B, Griffin JD, Todd RF III, Klempner MS, Arnaout MA. Two functional domains in the phagocyte membrane glycoprotein Mol identified with monoclonal antibodies. J Immunol 1986: 137: 3259– 63. 10 Biondi A, Rossing TH, Bennett J, Todd RF III. Surface membrane heterogeneity among mononuclear phagocytes. J Immunol 1984: 132: 1237– 43. 11 Remold-O'Donnell E. Regulation of synthesis of macrophage adhesion molecule, a heterodimeric membrane glycoprotein. J Immunol 1988: 140: 1244– 9. 12 Laemmli UK. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 1970: 227: 680– 5. 13 Morrison M. Lactoperoxidase-catalyzed iodination as a tool for investigation of proteins. Meth Enz 1980: 70: 214– 20. 14 Badwey JA, Curnutte JT, Robinson JM, Berde CB, Karnovsky MJ, Karnovsky ML. Effects of free fatty acids on release of superoxide and on change of shape by human neutrophils. J Biol Chem 1984: 259: 7870– 7. 15 Arnaout MA, Spits H, Terhorst C, Pitt J, Todd RF III. Deficiency of leukocyte surface glycoprotein (LFA-1) in two patients with Mol deficiency. Effects of cell activation on Mol/LFA-1 surface expression in normal and deficient leukocytes. J Clin Invest 1984: 74: 1291– 300. 16 Gahmberg CG, Andersson LC. Identification and characterization of normal and malignant human blood leukocytes by surface glycoprotein patterns. Ann NY Acad Sci 1978: 312: 240– 55. 17 Mizukami IF, Vinjamuri SD, Trochelman RD, Todd RF III. A structural characterization of the Mo3 activation antigen expressed on the plasma membrane of human mononuclear phagocytes. J Immunol 1990: 144: 1841– 8. 18 Tarentino AL, Gomez CM, Plummer TH. Deglycosylation of asparagine-linked glycans by peptide: N-glycosidase F. Biochem 1985: 24: 4665– 71. 19 Kornfeld R, Kornfeld S. Assembly of asparagine-linked oligosaccharides. Annu Rev Biochem 1985: 54: 631– 64. 20 Mizukami IF, Vinjamuri SD, Perini F, Liu DY, Todd RF III. Purification, biochemical composition, and biosynthesis of the Mo3 activation antigen expressed on the plasma membrane of human mononuclear phagocytes. J Immunol 1991: 147: 1331– 7. 21 Rosse WF. Phosphatidylinositol-linked proteins and paroxysmal nocturnal hemoglobinuria. Blood 1990: 75: 1595– 601. 22 Jack RM, Fearon DT. Selective synthesis of mRNA and proteins by human peripheral blood neutrophils. J Immunol 1988: 140: 4286– 93. 23 Tiku K, Tiku ML, Skosey JL. Interleukin 1 production by human polymorphonuclear neutrophils. J Immunol 1986: 136: 3677– 85. 24 Cicco NA, Lindemann A, Content J, et al. Inducible production of interleukin-6 by human polymorphonuclear neutrophils: Role of GM-CSF and TNFα. Blood 1990: 75: 2049– 52. 25 Bazzoni F, Cassatella MA, Rossi F, Ceska M, Dewald B, Baggiolini M. Phagocytosing neutrophils produce and release high amounts of the neutrophilactivating peptide 1/IL-8. J Exp Med 1991: 173: 771– 4. 26 Lindemann A, Riedel D, Oster W, Ziegler-Heitbrock HW, Mertelsmann R, Herrmann F. Granulocyte-macrophage colony-stimulating factor induces cytokine secretion by human polymorphonuclear leukocytes. J Clin Invest 1989: 83: 1308– 12. 27 Shirafuji N, Matsuda S, Ogura H, et al. Granulocyte colony-stimulating factor stimulates human mature neutrophilic granulocytes to produce IFNα. Blood 1990: 75: 17– 9. 28 Kreis C, La Fleur M, Menard C, Paquin R, Beaulieu AD. Thrombospondin and fibronectin are synthesized by neutrophils in human inflammatory joint disease and in a rabbit model of in vivo neutrophil activation. J Immunol 1989: 143: 1961– 8. 29 DuBois RM, Bernaudin JF, Paakko P, et al. Human neutrophils express the alpha 1-antitrypsin gene and produce alpha 1-antitrypsin. Blood 1991: 77: 2724– 30. 30 Knapp W, Bettelheim P, Gadd S, et al. Leukocyte Typing IV. White Cell Differentiation Antigens. 1989. Oxford: Oxford University Press, 1989. 31 Kuijpers TW, Tool ATJ, van der Schoot CE, et al. Membrane surface antigen expression on neutrophils: a reappraisal of the use of surface markers for neutrophil activation. Blood 1991: 78: 1105– 11. 32 Old LJ, Stockert E, Boyse EA, Kim JH. Antigenic modulation. Loss of TL antigen from cells exposed to TL antibody. Study of the phenomenon in vitro. J Exp Med 1968: 127: 523– 39. 33 Huizinga TWJ, van der Schoot CE, Jost C, et al. The PI-linked receptor FcRIII is released on stimulation of neutrophils. Nature 1988: 333: 667– 9. 34 Arnaout MA, Tood RF III, Dana N, Melamed J, Schlossman SF, Colten HR. Inhibition of phagocytosis of complement C3 or Immunoglobulin G-coated particles and of C3bi binding by monoclonal antibodies to a monocytegranulocyte membrane glycoprotein (Mo1). J Clin Invest 1983: 72: 171– 9. 35 Arnaout MA, Hakim RM, Todd RF III, Dana N, Colten HR. Increased expression of an adhesion-promoting surface glycoprotein in the granulocytopenia of hemodialysis. N Engl J Med 1985: 312: 457– 62. 36 Ismail G, Morganroth ML, Todd RF III, Boxer LA. Prevention of pulmonary injury in isolated perfused rat lungs by activated human neutrophils preincubated with anti-Mo1 monoclonal antibody. Blood 1987: 69: 1167– 74. 37 Cassatella MC, Anegon I, Cuturi MC, Griskey P, Trinchieri G, Perussia B. FcγR (CD 16) interaction with ligand induces Ca2+ mobilization and phosphoinositide turnover in human natural killer cells. J Exp Med 1989: 169: 549– 67. Citing Literature Volume41, Issue4April 1993Pages 214-218 ReferencesRelatedInformation" @default.
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