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Leukemia & Lymphoma Volume 8, 1992 - Issue 1-2
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Original Article

Expression and Functional Role of CD54/Intercellular Adhesion Molecule-1 (ICAM-1) on Human Blood Cells

Michele Maio Division of Experimental Oncology 2, Immunology Section, C.R.O., Aviano, Italy
&
Luigi Del Vecchio Blood Transfusion Center, Cardarelli Hospital, Naples, Italy
Pages 23-33 | Received 15 Mar 1992, Published online: 01 Jul 2009

References

  • Foon K. A., Todd R. F., III. Immunologic classification of leukemia and lymphoma. Blood 1986; 68: 1–31
  • Springer T. A., Dustin M. L., Kishimoto T. K., Marlin S. D. The lymphocyte function-associated LFA 1, CD2, and LFA-3 molecules: cell adhesion receptors of the immune system. Ann. Rev. Immunol. 1987; 5: 223–252
  • Dustin M. L., Springer T. A. Role of lymphocyte adhesion receptors in transient interactions and cell locomotion. Annu. Rev. Immunol 1991; 9: 27–66
  • Yong K., Khwaja A. Leucocyte cellular adhesion molecules. Blood Rev. 1990; 4: 211–225
  • Johnson J. P., Shaw S. Cluster report: CD54. Leucocyte Typing IV, W. B. Knapp, W. R. Dorken, E. P. Gilks Rieber, R. E. Schmidt, H. Stein, A. E. G. von der Borne. Oxford University Press, Oxford 1989; 681–683
  • Staunton D. E., Marlin S. D., Stratowa G., Dustin M. L., Springer T. A. Primary structure of 1CAM-1 demonstrates interaction between members of the immunoglobulin and integrin supergene families. Cell 1988; 52: 925–933
  • Rothlein R., Dustin M. L., Marlin S. D., Springer T. A. A human intercellular adhesion molecule (ICAM-1) distinct from LFA-1. J. Immunol. 1986; 137: 1270–1274
  • Dustin M. L., Rothlein R., Bhan A. K., Dinarello C. A., Springer T. A. Induction by IL 1 and interferon-?: tissue distribution, biochemistry, and function of a natural adherence molecule (ICAM-1). J. Immunol 1986; 137: 245–254
  • Boyd A. W., Wawryk S. O., Burns G. F., Fecondo J. V. Intercellular adhesion molecule 1 (ICAM-1) has a central role in cell-cell contact-mediated immune mechanisms. Proc. Natl. Acad. Sci. USA 1988; 85: 3095–3099
  • Dustininger M. L.K. H., Tuck D. T., Springer T. A. Adhesion of T lymphoblasts to epidermal keratinocytes is regulated by interferon y and is mediated by intercellular adhesion molecule 1 (ICAM-1). J. Exp. Med 1988; 167: 1323–1340
  • Dougherty G. J., Murdoch S., Hogg N. The function of human intercellular adhesion molecule-1 (ICAM-1) in the generation of an immune response. Eur. J. Immunol 1988; 18: 35–39
  • Makgoba M. W., Sanders M. E., Ginther Luce G. E., Dustin M. L., Springer T. A., Clarke E. A., Mannoni P., Shaw S. ICAM-1 a ligand for LFA-1-dependent adhesion of B., T and myeloid cells. Nature 1988; 331: 86–88
  • Dustin M. L., Springer T. A. Lymphocyte function-associated antigen-1 (LFA-1) interaction with intercellular adhesion molecule-1 (ICAM-1) is one of at least three mechanisms for lymphocyte adhesion to cultured endothelial cells. J. Cell Biol 1988; 107: 321–331
  • Maio M., Tessitori G., Pinto A., Temponi M., Colombatti A., Ferrone S. Differential role of distinct determinants of intercellular adhesion molecule-1 in immunologic phenomena. J. Immunol 1989; 143: 181–188
  • Johnston S. C., Dustin M. L., Hibbs M. L., Springer T. A. On the species specificity of the interaction of LFA-1 with intercellular adhesion molecules. J. Immunol 1990; 145: 1181–1187
  • Diamond M. S., Staunton D. E., de Fougerolles A. R., Stacker S. A., Garcia-Aguilar J., Hibbs M. L., Springer T. A. ICAM-1 (CD54): a counter-receptor for Mac-1 (CD1 lb/CD18). J. Cell Biol 1990; 111: 3129–3139
  • Marlin S. D., Springer T. A. Purified intercellular adhesion molecule-1 (ICAM-1) is a ligand for lymphocyte function-associated antigen 1 (LFA-1). Cell 1987; 51: 813–819
  • Staunton D. E., Dustin M. L., Erickson H. P., Springer T. A. The arrangement of the immunoglobulin-like domains of ICAM-1 and the binding sites for LFA-1 and rhinovirus. Cell 1990; 61: 243–254
  • Dustin M. L., Springer T. A. T-cell receptor cross-linking transiently stimulates adhesiveness through LFA-1. Nature 1989; 341: 619–624
  • Buckle A. M., Hogg N. Human memory T cells express intercellular adhesion molecule-1 which can be increased by interleukin 2 and interferon-. Eur. J. Immunol 1990; 20: 337–341
  • Sanders M. E., Makgoba M. W., Shaw S. Human naive and memory T-cells: reinterpretation of helper-inducer and suppressor-inducer subsets. Immunol Today 1988; 9: 195–203
  • Bagnasco M., Pesce G., Pronzato C., Canonica G. W. Functional involvement of the LFA-1/ICAM-1 adhesion system in the autologous mixed lymphocyte reaction. Cell Immunol 1990; 128: 362–369
  • Van Seventer G. A., Shimizu Y., Horgan K. J., Shaw S. The LFA-1 ligand ICAM-1 provides an important costimulatory signal for T cell receptor-mediated activation of resting T cells. J. Immunol 1990; 144: 4579–4586
  • Geissler D., Gaggl S., Most J., Greil R., Herold M., Dierich M. A monoclonal antibody directed against the human intercellular adhesion molecule (ICAM-1) modulates the release of tumor necrosis factor-α, interferon-γ and interleukin 1. Eur. J. Immunol 1990; 20: 2591–2596
  • Clark E. A., Ledbetter J. A., Holly R. C., Dinndorf P. A., Shu G. Polypeptides on human B lymphocytes associated with cell activation. Hum. Immunol 1986; 16: 100–113
  • Altmann D. M., Hogg N., Trowsdale J., Wilkinson D. Cotransfection of ICAM-1 and HLA-DR reconstitutes human antigen-presenting cell function in mouse L cells. Nature 1989; 338: 512–514
  • Dang L. H., Michalek M. T., Takei F., Benaceraff B., Rock K. L. Role of ICAM-1 in antigen presentation demonstrated by ICAM-1 defective mutants. J. Immunol 1990; 144: 4082–4091
  • Tohma S., Hirohata S., Lipsky P. E. The role of CD 11a/CD 18-CD54 interactions in human T cell-dependent B cell activation. J. Immunol 1991; 146: 492–499
  • Sanders V. M., Vitetta E. S. B cell-associated LFA-1 and T cell-associated ICAM-1 transiently cluster in the area of contact between interacting cells. Cell Immunol 1991; 132: 45–55
  • Shaw S., Ginther Luce G. E., Quinones R., Gress R. E., Springer T. A., Sanders M. E. Two antigen-independent adhesion pathways used by human cytotoxic T-cell clones. Nature 1986; 323: 262–264
  • Makgoba M. W., Sanders M. E., Ginther Luce G. E., Gugel E. A., Dustin M. L., Springer T. A., Shaw S. Functional evidence that intercellular adhesion molecule-1 (ICAM-1) is a ligand for LFA-1-dependent adhesion in T cell-mediated cytotoxicity. Eur. J. Immunol 1988; 18: 637–640
  • Makgoba M. W., Sanders M. E., Shaw S. The CD2-LFA-3 and LFA-1-ICAM pathways: relevance to T-cell recognition. Immunol. Today 1989; 10: 417–422
  • Symington F. W., Santos E. B. Lysis of human keratinocytes by allogenic HLA class I-specific cytotoxic T cells. J. Immunol 1991; 146: 2169–2175
  • Robertson M. J., Caligiuri M. A., Manley T. J., Levine H., Ritz J. Human natural killer cell adhesion molecules. Differential expression after activation and participation in cytolysis. J. Immunol 1990; 145: 3194–3201
  • Timonen T., Gahmberg C. G., Patarroyo M. Participation of CDlla-c/CD18, CD2 and RGD-binding receptors in endogenous and interleukin-2-stimuIated NK activity of CD3-negative large granular lymphocytes. Int. J. Cancer 1990; 46: 1035–1040
  • Figdor C. G., van Kooyk Y., Keizer G. D. On the mode of action of LFA-1. Immunol. Today 1990; 11: 277–280
  • Del Vecchio L., Cirillo D., Lo Pardo C., Pace E., Schiavone E. M., Tremiterra E., Vacca C. Involvement of B-cell associated antigens as defined by Workshop mAb in homotypic B-lymphocyte adhesion. Leucocyte Typing IV, W. Knapp, B. Dorken, W. R. Gilks, E. P. Rieber, R. E. Schmidt, H. Stein, A. E. G. Kr von der Borne. Oxford University Press, Oxford 1989; 681–683
  • Mourad W., Geha R. S., Chatila T. Engagement of major histocompatibility complex class II molecules induces sustained, lymphocyte function-associated molecule 1-dependent cell adhesion. J. Exp. Med. 1990; 172: 1513–1516
  • Lauener R. P., Geha R. S., Vercelli D. Engagement of the monocyte surface antigen CD 14 induces lymphocyte function-associated antigen-1/intercellular adhesion molecule-1-dependent homotypic adhesion. J. Immunol 1990; 145: 1390–1394
  • Arkin S., Naprstek B., Guarini L., Ferrone S., Lipton J. M. Expression of intercellular adhesion molecule-1 (CD54) on hematopoietic progenitors. Blood 1991; 77: 948–953
  • Papayannopoulou T., Brice M., Broudy V. C., Zsebo K. M. Isolation of c-kit receptor-expressing cells from bone marrow, peripheral blood, and fetal liver: functional properties and composite antigenic profile. Blood 1991; 78: 1403–1412
  • Gordon M. Y., Clarke D., Atkinson J., Greaves M. F. Hemopoietic progenitor cell binding to the stromal microenvironment in vitro. Exp. Hematol 1990; 18: 837–842
  • Liesveld J. L., Winslow J. M., Kempski M. C., Ryan D. H., Brennan J. K., Abboud C. N. Adhesive interactions of normal and leukemic human CD34+ myeloid progenitors: role of marrow stromal, fibroblast, and cytomatrix components. Exp. Hematol 1991; 19: 63–70
  • Linch D. C., Lipton J. M., Nathan D. G. Identification of three accessory cell populations in human bone marrow with erythroid burst promoting properties. J. Clin. Invest. 1985; 75: 1278–1284
  • Lord K. A., Hoffman-Liebermann B., Liebermann D. A. Complexity of the immediate early response of myeloid cells to terminal differentiation and growth arrest includes ICAM-1, Jun-B and histone variants. Oncogene 1990; 5: 387–396
  • Boyd A. W., Dunn S. M., Fecondo J. V., Culvenor J. G., Duhrsen U., Burns G. F., Wawryk S. O. Regulation of expression of a human intercellular adhesion molecule (ICAM-1) during lymphohematopoietic differentiation. Blood 1989; 73: 1896–1903
  • Johnson J. P., Shaw S. Cluster report: CD54. Leucocyte Typing IV, W. Knapp, B. Dorken, W. R. Gilks, E. P. Rieber, R. E. Schmidt, H. Stein, A. E. G. Kr von der Borne. Oxford University Press, Oxford 1989; 681–683
  • Walsh G. M., Hartnell A., Moqbel R., Cromwell O., Nagy L., Bradley B., Furitsu T., Ishizaka T., Barry Kay A. Receptor expression and functional status of cultured human eosinophils derived from umbilical cord blood mononuclear cells. Blood 1990; 76: 105–111
  • Valent P., Besemer J., Kishi K., Kaltenbrunner R., Kuhn B., Maurer D., Lechner K., Bettelheim P. IL-3 promotes basophilic differentiation of KU812 cells through high affinity binding sites. J. Immunol 1990; 145: 1885–1889
  • Valent P., Besemer J., Kishi K., Di Padova F., Geissler K., Lechner K., Bettelheim P. Human basophils express interleukin-4 receptors. Blood 1990; 76: 1734–1738
  • Horton M. A., Rimmer E. F., Valent P., Bettelheim P. The use of the myeloid workshop panel for the identification of surface-membrane and cytoplasmic antigens expressed in human mast cells. Leucocyte Typing IV, W. Knapp, B. Dorken, W. R. Gilks, E. P. Rieber, R. E. Schmidt, H. Stein, A. E. G. Kr von der Borne. Oxford University Press, Oxford 1990; 681–683
  • Gaidano G., Bergui L., Schena M., Gaboli M., Cremona O., Marchisio P. C., Caligaris-Cappio F. Integrin distribution and cytoskeleton organization in normal and malignant monocytes. Leukemia 1990; 4: 682–687
  • Harvey J. E., Jones D. B. Distribution of LCA protein subspecies and the cellular adhesion molecules LFA-1, ICAM-1 and p150,95 within human foetal thymus. Immunology 1990; 70: 203–209
  • Nonoyama S., Nakayama M., Shiohara T., Yata J. Only dull CD3+ thymocytes bind to thymic epithelial cells. The binding is elicited by both CD2/LFA-3 and LFA-1/ICAM-1 interactions. Eur. J. Immunol 1989; 19: 1631–1635
  • Singer K. H., Denning S. M., Whichard L. P., Haynes B. F. Thymocyte LFA-1 and thymic epithelial cell ICAM-1 molecules mediate binding of activated human thymocytes to thymic epithelial cells. J. Immunol 1990; 144: 2931–2939
  • Fine J. S., Kruisbeek A. M. The role of LFA-1/ICAM-1 interactions during murine T lymphocyte development. J. Immunol 1991; 147: 2852–2859
  • Smith M. E. F., Thomas J. A. Cellular expression of lymphocyte function associated antigens and the intercellular adhesion molecule-1 in normal tissue. J. Clin. Pathol 1990; 43: 893–900
  • Schriever F., Freedman A. S., Freeman G., Messner E., Lee G., Daley J., Nadler L. M. Isolated human follicular dendritic cells display a unique antigenic phenotype. J. Exp. Med. 1989; 169: 2043–2058
  • King P. D., Katz D. R. Mechanism of dendritic cell function. Immunol. Today 1990; 11: 206–211
  • Van Riet I., De Waele M., Remels L., Lacor P., Schots R., Van Camp B. Expression of cytoadhesion molecules (CD56, CD54, CD18 and CD29) by myeloma plasma cells. Br. J. Haematol 1991; 79: 421–427
  • Maio M., Pinto A., Carbone A., Zagonel V., Gloghini A., Marotta G., Cirillo D., Colombatti A., Ferrara F., Del Vecchio L., Ferrone S. Differential expression of CD54/intercellular adhesion molecule-1 in myeloid leukemias and in lymphoproliferative disorders. Blood 1990; 76: 783–790
  • Civin C. I., Strauss L. C., Brovall C., Fackler M. J., Schwartz J. F., Shaper J. H. Antigenic analysis of hematopoiesis. HI. A hematopoietic progenitor cell surface antigen defined by a monoclonal antibody raised against KG-la cells. J. Immunol 1984; 133: 157–165
  • Del Vecchio L., Lo Pardo C., Pane N., Fusco C., Tremiterra E., Selleri C., Notaro R., De Renzo A., Rotoli B. Contribution of DAF and ICAM-1 to the immunological characterization of A ML. Haematologica 1991; 76s4: 82
  • Pessano S., Palumbo A., Ferrero D., Pagliardi G. L., Bottero L., Kai Lai S., Meo P., Carter C., Hubbell H., Lange B., Rovera G. Subpopulation heterogeneity in human acute myeloid leukemia determined by monoclonal antibodies. Blood 1984; 64: 275–281
  • Del Vecchio L., Maio M. Expression of CD54 on T-cell acute lymphoblastic leukemia identifies a patient subset characterized by high immaturity and specific clinico-hematological properties. 1992, (Submitted)
  • Stauder R., Greil R., Schulz T. F., Thaler J., Gattringer C., Radaskiewicz T., Dierich M. P., Huber H. Expression of leucocyte function-associated antigen-1 and 7F7-antigen, an adhesion molecule related to intercellular adhesion molecule-1 (ICAM-1) in non-Hodgkin lymphomas and leukaemias: possible influence on growth pattern and leukaemic behaviour. Clin. Exp. Immunol 1989; 77: 234–238
  • Cozzi M., Gloghini A., Volpe R., Carbone A. Immunohisto-cytochemical correlation of DAP IV-CD 26 reactivity with immunologic markers of lymphocyte activation in human lymphoid tissues. Br. J. Haematol 1990; 75: 325–332
  • Horst E., Meijer C. J. L. M., Radaszkiewicz T., Ossekoppele G. J., Van Krieken J. H. J.M., Pals S. T. Adhesion molecules in the prognosis of diffuse large-cell lymphoma: expression of a lymphocyte homing receptor (CD44), LFA-1 (CD1 la/18), and ICAM-1 (CD54). Leukemia 1990; 4: 595–599
  • Horst E., Radaszkiewicz T., Hooftman-den Otter A., Pieters R., van Dongen J. J. M., Meijer C. J. L. M., Pals S. T. Expression of the leucocyte integrin LFA-1 (CDlla/ CD 18) and its ligand ICAM-1 (CD54) in lymphoid malignancies is related to lineage derivation and stage of differentiation but not to tumor grade. Leukemia 1991; 5: 848–853
  • Hamilton M. S., Ball J., Bromidge E., Franklin I. M. Surface antigen expression of human neoplastic plasma cells includes molecules associated with lymphocyte recirculation and adhesion. Br. J. Haematol 1991; 78: 60–65
  • Billaud M., Calender A., Seigneurin J. M., Lenoir G. M. LFA-1, LFA-3, and ICAM-1 expression in Burkitt's lymphoma. The Lancet 1987; 2: 1327–1328
  • Gregory C. D., Murray Edwards R. J. C. F., Rickinson A. B. Down regulation of cell adhesion molecules LFA-3 and ICAM-1 in Epstein-Barr virus-positive Burkitt's lymphoma underlies tumor cell escape from virus-specific T cell surveillance. J. Exp. Med 1988; 167: 1811–1824
  • Young L., Alfieri C., Hennessy K., Evans H., O'Hara C., Anderson K. C., Ritz J., Shapiro R. S., Richinson A., Kieff E., Cohen J. I. Expression of Epstein-Barr virus transformation-associated genes in tissues of patients with EBV lymphoproliferative disease. New Engl J. Med. 1989; 321: 1080–1085
  • Billaud M., Rousset F., Calender A., Cordier M., Aubry J. P., Laisse V., Lenoir G. M. Low expression of lymphocyte function-associated antigen (LFA)-1 and LFA-3 adhesion molecules is a common trait in Burkitt's lymphoma associated with and not associated with Epstein-Barr virus. Blood 1990; 75: 1827–1833
  • Schwarting R., Stein H. Cluster report: CD71. Leucocyte Typing IV, W. Knapp, B. Dorken, W. R. Gilks, E. P. Rieber, R. E. Schmidt, H. Stein, A. E. G. Kr von der Borne. Oxford University Press, Oxford 1989; 681–683
  • Dorken B., Moller P., Pezzutto R., Schwartz-Albiez R., Moldenhauer G. B-cell antigens: CD38. Leucocyte Typing IV, W. Knapp, B. Dorken, W. R. Gilks, E. P. Rieber, R. E. Schmidt, H. Stein, A. E. G. Kr von der Borne. Oxford University Press, Oxford 1989; 681–683

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