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Original Article

Variation in heat sensitivity through the cell cycle of M10 and Burkitt P3HR-1 cells

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Pages 463-473 | Received 05 Nov 1991, Accepted 14 Jan 1992, Published online: 09 Jul 2009

References

  • Anderson E. C., Petersen D. F., Tobey R. A. Density invariance of cultured mammalian cells with stage of mitotic cycle. Biophysical Journal 1970; 10: 630–645
  • Anderson R. L., Tao T. W., Hahn G. M. Membrane lipids of B16 melanoma cells and heat-resistant variants. International Journal of Radiation Biology 1988; 54: 813–823
  • Baba Y., Yasunaga T., Uozumi H., Takahashi M., Sawada S. Radiation and thermal characteristics of mouse lymphoma cells and their radiosensitive mutant. Radiation Medicine 1988; 6: 232–239
  • Barker C. J., Bowler K. Lipid composition of the membranes from cells of two rat tumors and its relationship to tumor thermosensitivity. Radiation Research 1991; 125: 48–55
  • Bhuyan B. K., Day K. J., Edgerton C. E., Ogunbase O. Sensitivity of different cell lines and of different phases in the cell cycle to hyperthermia. Cancer Research 1977; 37: 3780–3784
  • Coss R. A., Dewey W. C. Heat sensitization of G1 and S phase cells by procaine HCl. II: toxicity and probability of dividing following treatment. International Journal of Hyperthermia 1988; 6: 687–697
  • Dewey W. C., Westra A., Miller H. H., Nagasawa H. Heat induced lethality and chromosomal damage in synchronous Chinese hamster ovary cells treated with 5-bromodeoxyuridine. International Journal of Radiation Biology 1971; 20: 505–520
  • Dewey W. C., Sapareto S. A., Betten D. A. Hyperthermic radiosensitization of synchronous Chinese hamster cells: Relationship between lethality and chromosomal aberrations. Radiation Research 1978; 76: 48–59
  • Henderson S. D., Kimler B. F., Scanlan M. F. Interaction of hyperthermia and radiation on the survival of synchronous 9L cells. Radiation Research 1982; 92: 146–159
  • Kashiwado K. Comparison of radiosensitivity and thermosensitivity among three types of cultured mammalian cells and detection of heat-induced cell killing by eosin staining method. Medical Journal of Hiroshima University 1988; 36: 1081–1092 (in Japanese)
  • Kim S. H., Kim J. H., Hahn E. W. The enhanced killing of irradiated HeLa cells in synchronous culture by hyperthermia. Radiation Research 1976; 66: 337–345
  • King G. A., Archambeau J. O., Klevecz R. R. Survival and phase response following ionizing radiation and hyperthermia in synchronous V79 and EMT6 cells. Radiation Research 1980; 12: 290–300
  • Malyapa R. S., Sawada S. Cell-cycle dependence of heat-induced interphase death in mouse L5178Y cells. Radiation Research 1991; 125: 134–140
  • Massicotti-Nolan P., Glofcheski D. J., Kruuv J., Lepock J. R. Relationship between hyperthermic cell killing and protein denaturation by alcohols. Radiation Research 1981; 87: 284–299
  • Meistrich M. L., Meyn R. E., Barlogie B. Synchronization of mouse L-P59 cells by centrifugal elutriation separation. Experimental Cell Research 1977; 105: 169–177
  • Mitchell B. F., Tupper J. T. Synchronization of mouse 3T3 and SV40 3T3 cells by way of centrifugal elutriation. Experimental Cell Research 1977; 106: 351–355
  • Nicolson G. L., Smith J. R., Poste G. Effects of local anaesthetics on cell morphology and membrane associated cytoskeletal organization in BALB/3T3 cells. Journal of Cell Biology 1976; 68: 395–402
  • Pan D. A., Sullivan-Tailyour G., Hulbert A. J. Membrane fatty acid changes during the cell cycle of CV-1 cells. Experimental Cell Research 1990; 191: 141–143
  • Papahadjopoulos D. Studies on the mechanism of action of anaesthetics with phospholipid model membranes. Biochimica et Biophysica Acta 1972; 265: 169–186
  • Raaphorst G. P., Broski A. P., Assam E. I. Sensitivity to heat, radiation and heat plus radiation of Chinese hamster cells synchronized by mitotic selection, thymidine block or hydroxyurea. Journal of Thermal Biology 1985; 10: 177–181
  • Read R. A., Fox M. H., Bedford J. S. The cell cycle dependence of thermotolerance. II. CHO cells heated at 45°C. Radiation Research 1984; 98: 491–505
  • Roti Roti J. L., Wilson C. F. The effects of alcohols, procaine, and hyperthermia on the protein content of nuclei and chromatin. International Journal of Radiation Biology 1984; 46: 25–33
  • Sato K., Hieda N. Isolation and characterization of a mutant mouse lymphoma cell sensitive to methyl methanesulfonate and X-rays. Radiation Research 1979; 78: 167–171
  • Sawada S. Interphase death; main cause of cell killing by hyperthermia in L5178Y cells. Hyperthermic Oncology 1988, T. Sugahara, M. Saito. Taylor & Francis. 1988; Vol. 1: 27–29, Summary Papers
  • Sefton B. M., Buss J. E. The covalent modification of eukaryotic proteins with lipid. Journal of Cell Biology 1987; 104: 1449–1453
  • Sinclair W. K. Cyclic X-ray responses in mammalian cells in vitro. Radiation Research 1968; 33: 620–643
  • Terasima T., Tolmach L. J. Changes in X-ray sensitivity of HeLa cells during the division cycle. Nature 1961; 190: 1210–1211
  • Vidair C. A., Dewey W. C. Two distinct modes of hyperthermic cell death. Radiation Research 1988; 116: 157–171
  • Westra A., Dewey W. C. Variation in sensitivity to heat shock during the cell-cycle of Chinese hamster cell in vitro. International Journal of Radiation Biology 1971; 19: 467–477
  • Wong R. S. L., Borelli M. J., Thompson L. L., Dewey W. C. Mechanism of killing Chinese hamster ovary cells heated in G1: Effects on DNA synthesis and blocking in G2. Radiation Research 1989; 118: 295–310
  • Wong R. S. L., Dewey W. C. Molecular mechanisms for enhancement of hyperthermic damage by procaine HCl and low pH treatments. Tumor Biology and Therapy, J. J. Broerse, G. W. Barendsen, H. B. Kal, A. J. van der Kogel. Martinus Nijhoff, Amsterdam 1983; D6–60, abstract
  • Yatvin M. B. The influence of membrane lipid composition and procaine on hyperthermic death of cells. International Journal of Radiation Biology 1977; 32: 513–521

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