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International Journal of Hyperthermia Volume 8, 1992 - Issue 1
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Original Article

Effects of hyperthermia on natural killer cells: Inhibition of lytic function and microtubule organization

H. Yang Laboratory of Immunopharmacology, Department of Pharmacology, Faculty of Medicine, University of Ottawa, Ottawa, Ontario, Canada, K1H 8M5
,
W. Lauzon Laboratory of Immunopharmacology, Department of Pharmacology, Faculty of Medicine, University of Ottawa, Ottawa, Ontario, Canada, K1H 8M5
&
I. Lemaire Laboratory of Immunopharmacology, Department of Pharmacology, Faculty of Medicine, University of Ottawa, Ottawa, Ontario, Canada, K1H 8M5
Pages 87-97 | Published online: 09 Jul 2009

References

  • Aitchison W. A., Brown D. L. Duplication of the flagellar, apparatus and cytoskeletal microtubule system in the alga Polytomella. Cell Motility Cytoskel 1986; 6: 122–127
  • Bull J. M. C. An update on the anticancer effects of a combination of chemotherapy and hyperthermia. Cancer Research (Suppl.) 1984; 44: 4853s–4856s
  • Carpen O. The role of microtubules in human natural killer cell-mediated cytotoxicity. Cellular Immunology 1987; 106: 376–386
  • Chambers W. H., Vujanovic N. L., Deleo A. B., Olszowy M. W., Herberman R. B., Hiserodt J. C. Monoclonal antibody to a triggering structure expressed on rat natural killer cells and adherent lymphokine-activated killer cells. Journal of Experimental Medicine 1989; 169: 1373–1389
  • Cuturi M. C., Murphy M., Costa-Gionie M. P., Weinmann R., Perussia B., Trinchieri G. Independent regulation of tumor necrosis factor and lymphotoxin production by human peripheral blood lymphocytes. Journal of Experimental Medicine 1987; 165: 1581–1594
  • Dewey W. C. Interaction of heat with radiation and chemotherapy. Cancer Research (Suppl.) 1984; 44: 4714s–4720s
  • Figdor C. G., Kooyk Y., Keizer G. D. On the mode of action of LFA-1. Immunology Today 1990; 11: 277–280
  • Fukui H., Overton W. R., Herberman R. B., Reynolds C. W. Natural killer cell activity in the rat. VI. Characterization of rat large granular lymphocytes as effector cells in natural killer and antibody-dependent cellular cytotoxic activities. Journal of Leukaemia Biology 1987; 41: 130–142
  • Groscurth P. Cytotoxic effector cells of the immune system. Anatomical Embryology 1989; 180: 109–119
  • Hall E. J., Roizin-Towle L. Biological effects of heat. Cancer Research (Suppl.) 1984; 44: 4708s–4713s
  • Hanna N. Natural killer cell-mediated inhibition of tumor metastasis in vivo. Surveys of Synthetic Pathology Research 1983; 2: 68–81
  • Herberman R. B., Djeu J. Y., Kay H. D., Ortaldo J. R., Riccardi C., Bonnard G. D., Holden H. T., Fagnani R., Santoni A., Puccetti P. Natural killer cells: characteristics and regulation of activity. Immunological Reviews 1979; 44: 43–70
  • Herberman R. B., Reynolds C. W., Ortaldo J. R. Mechanism of cytotoxicity by natural killer (NK) cells. Annual Review of Immunology 1986; 4: 651–680
  • Inoue S., Ikhara S., Nakamura T., Good R. A., Hamashma Y. Two natural killer cell subpopulations distinguished by heat sensitivity. Journal of Clinical Immunology 1985; 5: 421–426
  • Joag S., Zychlinsky A., Young J. D. Mechanisms of lymphocyte-mediated lysis. Journal of Cellular Biochemistry 1989; 39: 239–252
  • Kalland T., Dahlquist I. Effects of in vitro hyperthermia on human natural killer cells. Cancer Research 1983; 43: 1842–1846
  • Kupfer A., Dennert G., Singer S. J. Polarization of the Golgi apparatus and the microtubule-organizing centre within cloned natural killer cells bound to their targets. Proceedings of the National Academy of Sciences, USA 1983; 80: 7224–7228
  • Lauzon W., Yang H., Lemaire I. Comparative analysis of natural killer function in lung, spleen and peripheral blood lymphocytes: evidence of differential characteristics. Regional Immunology 1990; 3: 145–150
  • Lemaire I., St-Jean M. Modulation of lung-associated natural killer, activity by resident and activated alveolar macrophages. Immunological Investigations 1990; 19: 27–40
  • Leyko W., Bartosz G. Membrane effects of ionizing radiation and hyperthermia. International Journal of Radiation Biology 1986; 49: 743–770
  • McKinnon K. P., Dunlevy J. R., Dawson J. R., Argon V. Cell-mediated cytotoxicity and the reorientation of effector cell granules towards the target cell are inhibited by the protonophore carbonylcyanide m-chlorophenyldrazone. Human Immunology 1988; 22: 81–95
  • Onsrud M. Effects of hyperthermia on human natural killer cells. Acta Pathologica, Microbiologica et Immunologica Scandinavica, Section C 1983; 91: 1–8
  • Ortaldo M J. R., Herberman R. B. Heterogeneity of natural killer cells. Annual Review of Immunology 1984; 2: 359–394
  • Prochazka G., Landon C., Dennert G. Transmembrane chloride flux is required for target cell lysis but not for Golgi reorientation in cloned cytolytic effector cells. Journal of Immunology 1988; 141: 1288–129
  • Pross H. F., Baines M. G., Rubin P., Shragge P., Patterson M. S. Spontaneous human lymphocyte-mediated cytotoxicity against tumor target cells. IX. The quantitation of natural killer cell activity. Journal of Clinical Immunology 1981; 1: 51–63
  • Robins H. I. Role of whole-body hyperthermia in the treatment of neoplastic disease: its current status and future prospects. Cancer Research (Suppl.) 1984; 44: 4878s–4883s
  • Schweitzer I., Brown D. L. Changes in organization and microtubule assembly activity of the centrosome during lymphocyte stimulation. Biology of the Cell 1984; 52: 147–160
  • Stewart J. R. Past clinical studies and future directions. Cancer Research (Suppl.) 1984; 44: 4902s–4904s
  • Wiltrout R. H., Herberman R. B., Zhang S. R., Chirigos M. A., Ortaldo J. R., Green K. M., Jr., Talmadge J. E. Role of organ-associated NK cells in decreased formation of experimental metastasis in lung and liver. Journal of Immunology 1985; 134: 4267–4275
  • Yang H., Mitchel R. E. J. Hyperthermic inactivation, recovery and induced thermotolerance of human natural killer cell lytic function. International Journal of Hyperthermia 1991; 7: 35–49
  • Young J. D. Killing of target cells by lymphocytes: a mechanistic view. Physiology Review 1989; 69: 250–314
  • Yron I., Erlich R., Efrati M., Shohat L., Witz I. P., Sahar E. Comparison of NK activity in mouse spleen and peripheral blood lymphocytes. Immunobiology 1988; 177: 449–459
  • Yoshioka A., Miyachi Y., Imamura S. Immunological effects of in vitro hyperthermia. Journal of Clinical and Laboratory Immunology 1989; 29: 95–97

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