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International Journal of Hyperthermia Volume 4, 1988 - Issue 6
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Original Article

Heat sensitization of G1 and S phase cells by procaine HCl. II: toxicity and probability of dividing following treatment

R. A. Coss Department of Radiation Oncology and Nuclear Medicine, Laboratory of Experimental Radiation Oncology, Thomas Jefferson University, Philadelphia, Pennsylvania, 19107, USA
&
W. C. Dewey Department of Radiation Oncology, Radiation Oncology Research Laboratory, University of California, CED-200, San Francisco, California, 94143, USA
Pages 687-697 | Received 23 Jun 1987, Accepted 02 Mar 1988, Published online: 09 Jul 2009

References

  • Barrau M. D., Blackburn G. R., Dewey W. C. Effects of heat on the centrosomes of Chinese hamster ovary cells. Cancer Research 1978; 38: 2290–2294
  • Bianchi C. P. Cellular pharmacology of contraction of skeletal muscle. Cellular Pharmacology of Excitable Tissue, T. Narahashi. Thomas, Springfield 1975; 485–519
  • Borrelli M. J., Wong R. S. L., Dewey W. C. A direct correlation between hyperthermia-induced membrane blebbing and survival in synchronous G1 CHO cells. Journal of Cellular Physiology 1986; 126: 181–190
  • Coss R. A., Dewey W. C. Heat sensitization of G1 and S-phase cells by procaine hydrochloride. Radiation Research 1982; 92: 615–617
  • Coss R. A., Dewey W. C. Mechanism of heat sensitization of G1 and S-phase cells by procaine HCl. Tumor Biology and Therapy, J. J. Broerse, G. W. Barendsen, H. B. Kal, A. J. Vander Kogel. Martinus Nijhoff, Amsterdam 1983; D6–05, (extended abstract)
  • Coss R. A., Dewey W. C., Bamburg J. R. The effects of hyperthermia alone and in conjunction with procaine on CHO cells. Journal of Cell Biology 1978; 79: 72a
  • Coss R. A., Dewey W. C., Bamburg J. R. Effects of hyperthermia (41·5°) on Chinese hamster ovary cells analyzed in mitosis. Cancer Research 1979; 39: 1911–1918
  • Coss R. A., Dewey W. C., Bamburg J. R. Effects of hyperthermia on dividing Chinese hamster ovary cells and on microtubules. in vitro. Cancer Research 1982; 42: 1059–1071
  • Dewey W. C., Freeman M. J., Raaphorst G. P., Clark E. P., Wong R. S. L., Highfield D. P., Spiro I. J., Tomasovic S. P., Denman D. L., Coss R. A. Cell biology of hyperthermia and radiation. Radiation Biology in Cancer Research, R. E. Meyn, H. R. Withers. Raven Press, New York 1980; 589–621
  • Dewey W. C., Highfield D. P., Freeman M. L., Coss R. A., Wong R. S. L., Barrau M. D. Cell biology of hyperthermia and radiation. Radiation Research, S. Okada, M. Imamura, T. Terashima, H. Yamaguchi. Toppan, Tokyo 1979; 832–840
  • Dewey W. C., Westra A., Miller H. H., Nagasawa. Heat-induced lethality and chromosomal damage in synchronized Chinese hamster cells treated with 5-bromodeoxyuridine. International Journal of Radiation Biology 1971; 20: 505–520
  • Goldstein A. Biostatistics: An Introductory Text. Macmillan, New York 1964; 135–146
  • Hahn G. M. Hyperthermia and Cancer. Plenum Press, New York 1982
  • Highfield D. P., Holahan E. V., Holahan P. K., Dewey W. C. Hyperthermic survival of Chinese hamster ovary cells as a function of cellular population density at the time of plating. Radiation Research 1984; 97: 139–153
  • Holahan E. V., Bushnell K. M., Highfield D. P., Dewey W. C. The effects of cold storage of mitotic cells on hyperthermic killing and hyperthermic radiosensitization during G] and S. Radiation Research 1982; 92: 568–573
  • Holahan E. V., Highfield D. P., Holahan P. K., Dewey W. C. Hyperthermic killing and hyperthermic radiosensitization in Chinese hamster ovary cells: effects of pH and thermal tolerance. Radiation Research 1984; 97: 108–131
  • Jorritsma J. B. M., Kampinga H. H., Konings A. W. T. Role of DNA polymerases in the mechanisms of damage by heat and heat plus radiation in mammalian cells. Hyperthermic Oncology 1984, J. Overgaard. Taylor & Francis, London, Philadelphia 1984; Vol. 1: 61–64, Summary Papers
  • Jostes R. F., Bushnell K. M., Dewey W. C. X-ray induction 8-azaquanine-resistant mutants in synchronous Chinese hamster ovary cells. Radiation Research 1980; 83: 146–161
  • Kal H. B., Hahn G. M. Kinetic responses of murine sarcoma cells to radiation, and hyperthermia in vivo and. in vitro. Cancer Research 1976; 36: 1923–1929
  • Kase K., Hahn G. M. Differential heat response of normal and transformed human cells in tissue culture. Nature (London) 1975; 255: 228–230
  • Lakshminarayanaiah N., Bianchi C. P. Local anaesthetics. Handbook on Pharmacology of Aging, P. B. Goldberg, J. Roberts. CRC Press, Boca Raton 1983; 127–153
  • Lee Y. J., Dewey W. C. Comparison between thermotolerance induced by heat or arsenite with heat protection induced by cycloheximide: evidence for three different pathways. Abstracts of the 35th Annual Meeting of the Radiation Research Society and the 7th Annual Meeting of the North American Hyperthermia Group. 1987; 9, (abstract)
  • Lepock J. R., Massicotti-Nolan P., Rule G. S., Kruuv J. Lack of a correlation between hyperthermic cell killing, thermotolerance, and membrane lipid fluidity. Radiation Research 1981; 87: 300–313
  • Massicotti-Nolan P., Glofcheski D. J., Kruuv J., Lepock. Relationship between hyperthermic cell killing and protein denaturation by alcohols. Radiation Research 1981; 87: 284–299
  • 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
  • Papahadjopoulos D. Studies on the mechanism of action of local anaesthetics with phospholipid model membranes. Biochimica et Biophysica Acta 1972; 265: 169–186
  • 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
  • Rice G. C., Gray J. W., Dean P. N., Dewey W. C. Fluorescence-activated cell sorting analysis of the induction and expression of acute thermal tolerance within the cell cycle. Cancer Research 1984; 44: 2368–2376
  • 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
  • Sapareto S. A., Hopwood L. E., Dewey W. C., Raju M. R., Gray J. W. Effects of hyperthermia on survival and progression of Chinese hamster ovary cells. Cancer Research 1978; 38: 393–400
  • Sefton B. M., Buss J. E. The covalent modification of eukaryotic proteins with lipid. Journal of Cell Biology 1987; 104: 1449–1453
  • Spiro I. J., Denman D. L., Dewey W. C. Effect of hyperthermia on CHO DNA polymerases α and β. Radiation Research 1982; 89: 134–149
  • Spiro I. J., Denman D. L., Dewey W. C. Effect of hyperthermia on isolated DNA polymerase. Radiation Research 1983; 95: 68–77
  • Van Dongen G., Van der Zande L., Schamhart D., Van Wijk R. Comparative studies on the heat-induced thermotolerance of protein synthesis and cell division in synchronized mouse neuroblastoma cells. International Journal of Radiation Biology 1984; 46: 759–769
  • Wallace D. F. H. Action of hyperthermia and ionizing radiation on plasma membranes. Cancer Therapy by Hyperthermia and Radiation, C. Streffer, D. Van Beuningen, F. Dietzel, E. Rottinger, J. E. Robinson, E. Scherer, S. Seeber, K.-R. Trott. Urban & Schwarzenberg, Baltimore, Munich 1978; 19–28
  • Westra A., Dewey W. C. Variation in sensitivity to heat shock during the cell-cycle of Chinese hamster cells. in vitro. International Journal of Radiation Biology 1971; 19: 467–477
  • 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
  • Yau T. M. Procaine-mediated modification of membranes and the response to X-irradiation and hyperthermia in mammalian cells. Radiation Research 1979; 80: 523–541
  • Zielke-Temme B., Hopwood L. Time-Lapse cinemicrographic observations of heated G1-phase Chinese hamster ovary cells. I. Division probabilities and generation times. Radiation Research 1982a; 92: 320–331
  • Zielke-Temme B., Hopwood L. Time-lapse cinemicrographic observations of heated G1phase Chinese hamster ovary cells. II. Cell death, fusion and multipolar divisions. Radiation Research 1982b; 92: 332–342

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