Abstract
Normal lymphocytes have very low levels of de novo purine biosynthesis and are highly dependent on the purine salvage pathway. The discovery that several immunodeficiencies are linked to deficiencies in some of the enzymes of this metabolic pathway (Giblett et al. 1972) have focused attention on the previously unknown relationship between nucleotide metabolism and lymphocyte differentiation and function.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Astaldi AA, Leupers CJM, Schellekens PTA (1981) Adenosine induces immunological mat-uration of thymocytes. Immunobiology. 159: 93
Barton RW, Goldschneider I (1978) 5′nucleotidase activity on subpopulations of rat lymphocytes. J Immunol 121: 2329–2334
Barton RW, Martiniuk F, Hirschorn R, Goldschneider I (1979) The distribution of adenosine deaminase among lymphocyte populations in the rat. J Immunol 122: 216–220
Bastian JF, Ruedi JM, McPherson GA, Colembesky HE, O’Connor RD, Thompson LF (1984) Lymphocyte ecto 5′nucleotidase in infancy: increasing activity in peripheral blood B cells precedes their ability to synthesize IgG in vitro. J Immunol 132: 1767–1772
Bonnafous JC, Dornand J, Mani JC (1979a) Adenosine induced cAMP increase in pig lymphocytes is not related to adenylate cyclase stimulation. Biochim Biophys Acta 587: 180–191
Bonnafous JG, Dornand J, Mani JC (1979b) Hormone like action of adenosine in mouse thymocytes and splenocytes. Evidence for the existence of membrane adenosine coupled to adenylate cyclase. FEBS Lett 107: 95–99
Bonnafous JC, Dornand J, Favero J, Mani JC (1982) Lymphocyte membrane adenosine receptors coupled to adenylate cyclase. Properties and occurence in various lymphocyte subclasses. J Recept Res 2: 347–366
Bonnafous JC, Dornand J, Favero J, Mani JC (1983) Role of adenosine in lymphocyte mat-uration: possible involvement of adenosine receptors coupled to adenylate cyclase. In: Parker JW, O’Brien RL (eds) Intercellular communication in leucocyte function. Wiley, New York, pp 437–440
Boss GB, Thompson LF, Spieglberg HL, Pichler WJ, Seegmiller JE (1980) Age dependency of lymphocyte 5 Nucleotidase. J Immunol 125: 679–682
Carraway C, Carraway KL (1976) ConcanavalinA perturbation of membrane enzymes of mammary gland. J Supramol Struct 4: 121–126
Chen SS, Tung JJ, Gillis S, Good RA, Hadden JW (1983) Changes in surface antigens of im-mature thymocytes under the influence of T cell growth factor and thymic factors. Proc Natl Acad Sci USA 80: 5980–5984
Chiba P, Kraupp M, Rumpold H, Muller MM (1984) Uptake of AMP into K562 and HL-60 leukemic cell lines. In: DeBruyn CHM, Simmonds HA, Muller MM (eds) Advances in experimental medicine and biology, vol 165B. Plenum, New York, pp 273–278
Cohen A, Dosh HM, Gelfand EW (1981) Induction of ecto 5 Nucleotidase activity in human thymocytes. Clin Immunol Immunopathol 18: 287–290
De Pierre JW, Karnovsky ML (1974) Ectoenzymes of the guinea pig polynuclear leukocyte I. Evidence for an ecto adenosine monophosphatase, adenosine triphosphatase, and p- nitrophenylphosphatase. J Biol Chem 249: 7111–7120
Dornand J, Mani JC, Mousseron-Canet M, Pau B (1974) Propriétés d’une ATPase Ca+ ou Mg2+ dépendante des membranes plasmiques de lymphocytes. Effet de la concanavalineA surles ATPases membranaires. Biochimiè(Paris) 56: 851–857
Dornand J, Reminiac C, Mani JC (1977) Activité 5′AMPase des membranes plasmiques de lymphocytes. Effet de la concanavalineA. Biochimie (Paris) 59: 425–432
Dornand J, Bonnafous JC, Mani JC (1978a) Purification and properties of 5′nucleotidase from lymphocyte plasma membranes. Eur J Biochem 87: 459–465
Dornand J, Bonnafous JC, Mani JC (1978b) Effects of ConA and other lectins on pure 5′nucleto- tidase isolated from lymphocyte plasma membranes. Biochem Biophys Res Commun 82: 685–692
Dornand J, Bonnafous JC, Gavach C, Mani JC (1979) 5′Nucleotidase-facilitated transport by mouse lymphocytes. Biochimie (Paris) 61: 973–978
Dornand J, Bonnafous JC, Mani JC (1980a) 5′Nucleotidase of two populations of mouse thymocytes separated by PNA agglutination. FEBS Lett 118: 225–228
Dornand J, Bonnafous JC, Mani JC (1980b) 5′Nucleotidase-adenylate cyclase relationships in mouse thymocytes. A réévaluation of the effects of concanavalinA on cyclic AMP levels. FEBS Lett 110: 30–34
Dornand J, Bonnafous JC, Favero J, Mani JC (1982a) Ecto-5 Nucleotidase and adenosine de-aminase activities of lymphoid cells. Biochem Med 28: 144–156
Dornand J, Bonnafous JC, Favero J, Mani JC (1982b) Purine production in mature and immature human lymphocytes. FEBS Lett 142: 88–92
Dornand J, Bonnafous JC, Favero J, Gartner A, Dauthuille I, Poncelet P, Caxayon P, Pau B, Mani JC (1984a) An immunofluorescent technic for the determination of cell surface 5Nucleotidase. In: Rosenfeld C, Serrou B, Vaillet P (eds) Fluorescent technic and membrane markers in cancer and immunology: membrane dynamics, cellular characterization and cell sorting pp 349–354
Dornand J, Bonnafous JC, Favero J, Gartner A, Mani JC (1984b) The proposed 5′nucleotidase inhibitor in human cells is an artefact. Biochim Biophys Acta 804: 398–403
Edwards NL, Magilavy DB, Cassidy JT, Fox IH (1978) Lymphocyte ecto-5′Nucleotidase deficiency in agammaglobulinemia. Science (Wash DC) 201: 628–630
Ganeshagunu K, Lee N, Llewellin P, Prentice HG, Hoffrand AV, Catovsky D, Habeshaw JA, Robinson J, Greaves MF (1981) Adenosine deaminase concentrations in leukemia and lymphoma: relation to cell phenotypes. Leuk Res 5: 215–222
Giblett ER, Anderson JE, Cohen F, Pollara B, Meurvissen HJ (1972) Adenosine deaminase deficiency in two patients with severely impaired cellular immunity. Lancet 2: 1067–1069
Gregory SH, Kern M (1979) The heterogeneous distribution of 5′nucleotidase among rabbit lymphocytes. J Immunol 123: 1978–1982
Gutensohn W, Gurtler LG, Siegert W, Eichler E, Ernst S (1980) Ectoenzymes on the surface of cells from human lymphoblastoid lines: 5′-nucleotidase and phosphatase. Blut 41: 411–420
Gutensohn W, Thiel E (1981) High levels of 5′-nucleotidase activity in blastic chronic mye-logenous leukemia with common ALL-antigen. Leuk Res 5: 505–510
Gutensohn W, Wunsch B, Rhodt H (1983) Independent expression of the surface markers 5′nucleotidase and CALLA on leukemic cells. Blut 46: 119–207
Johnson SM, Noerth MS, Asherson GL, Allsop J, Watts RWE, Webster ADB (1977) Lymphocyte purine 5′nucleotidase deficiency in primary hypogammaglobulinemia. Lancet i: 168–170
Koya M, Kanoth T, Sawada H, Uchina H, Ueda K (1981) Adenosine deaminase and ecto 5′ nucleotidase activities in various leukemias with special reference to blast crisis of chronic myeloid leukemia. Blood 58: 1107–1111
Pazmino N, McEwan R, Ihle J (1977) Distribution of terminal deoxynucleotidyl transferase in bovine serum albumin gradient fractionated thymocytes and bone marrow cells of normal and leukemic mice. J Immunol 119: 494–499
Petitou M, Tuy F, Rosenfeld C, Mishal Z, Paintrand M, Jasmin C, Mathe G, Inbar M (1978) Decreased microviscosity of membrane lipid in leukemic cells: two possible mechanism. Proc Natl Acad Sci USA 75: 2306–2310
Phuc LH, Papiernik M, Berrih S, Duval D (1981) Thymic involution in pregnant mice. Clin Exp Immunol 44: 247–252
Quagliata F, Conklyn M, Sibler R (1974) Studies on the lymphocyte 5′nucleotidase in chronic lymphocyte leukemia, infectious mononucleosis, normal subpopulations, and phytohemag- glutinin stimulated cells. Cancer Res 34: 3197–3202
Reaman GH, Blatt J, Poplack DG (1981) Lymphoblast purine pathway enzymes in B cell acute lymphoblastic leukemia. Blood 58: 330–332
Reisner Y, Linker Israeli M, Sharon N (1976) Separation of mouse thymocytes into the two subpopulations by the use of the peanut agglutinin. Cell Immunol 25: 129–134
Roelants GE, London J, Major-Withey KS, Serrano B (1979) Peanut agglutinin II- Characterization of the Thy-I, Tla and Ig phenotypes of peanut agglutinin positive cells in adult, embryonic and nude mice using double immunofluorescence. Eur J Immunol 9: 139–145
Rowe M, De Gast CG, Platts-Mills TAE, Asherson GL, Webster ADB, Johnson SM (1979) 5′ nucleotidase of B and T lymphocytes isolated from human peripheral blood. Clin Exp Immunol 36: 97–101
Rowe M, De Gast CG, Platts-Mills TAE, Asherson GL, Webster ADB, Johnson SM (1980) Lym-phocyte 5′nucleotidase deficiency in primary hypogammaglobulinemia and cord blood. Clin Exp Immunol 39: 337–343
Smith GP, Shah T, Webster ADB, Peters TJ (1981) Studies on the kinetic properties and subcellular localization of adenosine diphosphatase activity in human peripheral blood lymphocytes. Clin Exp Immunol 46: 321–326
Sun AS, Holland JF, Ohnuma T, Slankard-Chahinian (1982) 5′nucleotidase activity in permanent human lymphoid cell lines. Biochim Biophys Acta 714: 530–535
Sun AS, Holland JF, Lin K, Ohnuma T (1983) Implications of a 5′nucleotidase inhibitor in human leukemic cells for cellular aging and cancer. Biochim Biophys Acata 762: 577–584
Thompson LF, Boss GR, Spiegelberg HL, Jansen IV, O’Connor RD, Waldmann TA, Hamburger RN, Seegmiller JE (1979) Ecto-5′nucleotidase activity in T and B lymphocytes from normal subjects and patients with congenital X-linked agammaglobulinemia. J Immunol 123: 2475–2478
Uusitalo RJ, Karnovsky MJ (1977) Surface localization of 5′nucleotidase on the mouse lympho-cytes. J Histochem Cytochem 25: 87–96
Webster ADB, Shah T, Peters TJ (1984) Lymphocyte ecto-5′nucleotidase in immunodeficiency and leukemia. In: De Bruyn CHMM, Simmonds HA, Muller MM (eds) Advances in experimental medicine and biology, vol 165 A. Plenum, New York, pp 67–72
Wortmann RL, Mitchell BS, Edwards NL, Fox IM (1979) Biochemical basis for differential deoxyadenosine toxicity to T and B lymphoblasts: Role for 5′nucleotidase. Proc Natl Acad Sci USA 76: 2434–2437
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1986 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Dornand, J., Bonnafous, J.C., Gartner, A., Favero, J., Mani, J.C. (1986). Study of Ecto-5′-Nucleotidase, Ecto-ATPase, and Adenosine Deaminase Activities in Relation to Lymphoid Cell Differentiation. In: Kreutzberg, G.W., Reddington, M., Zimmermann, H. (eds) Cellular Biology of Ectoenzymes. Proceedings in Life Sciences. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-70664-6_7
Download citation
DOI: https://doi.org/10.1007/978-3-642-70664-6_7
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-70666-0
Online ISBN: 978-3-642-70664-6
eBook Packages: Springer Book Archive