References
- Bradley T. R., Metcalf D. The growth of mouse bone marrow cells in vitro. Australian Journal of Experimental Biology and Medicine Science 1966; 44: 297–300
- Broxmeyer H. E., Ralph P., Bognacki J., Kincade P. W., De Souza M. A subpopulation of human polymorphonuclear neutrophils contains an active form of lactro-ferrin capable of binding to human monocytes and inhibiting production of granulocyte-macrophage colony stimulating activity. Journal of Immunology 1980; 125: 903–909
- Dexter T. M., Allen T. D., Lajtha L. G. Conditions controlling the proliferation of haemopoietic stem cells in vitro. Journal of Cellular Physiology 1977; 91: 335–344
- Dexter T. M., Spooncer E. Loss of immunoreactivity in long-term bone marrow cultures. Nature 1978; 275: 135–136
- Dexter T. M., Spooncer E., Toksoz D., Lajtha L. G. The role of cells and their products in the regulation of in vitro stem cell proliferation and granulocyte development. Journal of Supramolecular Structure 1980; 13: 513–524
- Eliason J. F., Testa N. G., Dexter T. M. Erythropoietin stimulated erythropoiesis in long-term bone marrow cultures. Nature 1979; 281: 382–384
- Gartner S., Kaplan H. S. Long-term culture of human bone marrow cells. Proceedings of the National Academy of Sciences, U.S.A. 1980; 77: 4756–4758
- Gerweck L. E., Delaney T. F. Persistence of thermotolerance in slowly proliferating plateau-phase cells. Radiation Research 1984; 97: 367–372
- Gerweck L. E., Jennings M., Richards B. Influence of pH on the response of cells to single and split-dose hyperthermia. Cancer Research 1980; 40: 4019–4024
- Golden E. M., Leeper D. B. The effect of low pH on thermotolerance induction using fractionated 45°C hyperthermia. Radiation Research 1981; 85: 472–479
- Heard J. M., Fichelson S., Waret B. Role of colony stimulating activity in murine long-term bone marrow cultures: evidence for production and consumption by adherent cells. Blood 1982; 59: 761–767
- Jones-Villenueve E. V., Rusthoven J. J., Miller R. G., Phillips R. A. Differentiation of Thy-1 bearing cells from progenitors in long-term bone marrow cultures. Journal of Immunology 1980; 124: 597
- Laemmli U. K. Cleavage of structure proteins during assembly of the head of bacteriophage T4. Nature 1975; 227: 680–685
- Li G. C., Hahn G. M. Induction and decay of thermotolerance; influence of environmental temperature. Proceedings of 7th International Congress of Radiation Research, J. J. Broerse, G. W. Barendsen, H. B. Kal, A. J. Vander Kogel. Martinus Nijhoff, Amsterdam 1983; D6–33
- Mivechi N. F. Heat sensitivity, thermotolerance and profile of protein synthesis of human bone marrow progenitors. Cancer Research 1988; 48: 3630–3633
- Mivechi N. F. Heat sensitivity, thermotolerance and profile of heat shock protein synthesis of human myelogenous leukemias. Cancer Research 1989, (In press)
- Mivechi N. F., Li G. C. Thermotolerance and profile of protein synthesis in murine bone marrow cells after heat shock. Cancer Research 1985; 45: 3843–3849
- Mivechi N. F., Li G. C. Lack of development of thermotolerance in early progenitors of murine bone marrow cells. Cancer Research 1986; 46: 198–202
- Mivechi N. F., Li G. C. Lack of effect of thermotolerance on radiation response and thermal radiosensitization of murine bone marrow progenitors. Cancer Research 1987; 47: 1538–1541
- Moriyama Y., Narita M., Sato K., Urushiyama M., Koyama S., Hirosawa H., Kishi K., Takahashi M., Takai K., Shibata A. Application of hyperthermia to the treatment of human acute leukemia: purging human leukemic progenitor cells by heat. Blood 1986; 67: 802–804
- Nielsen D. S., Overgaard J. Importance of preheating temperature and time for the induction of thermotolerance in a solid tumor in vivo. British Journal of Cancer 1982; 46: 894–903
- Oblon D. J., Broxmeyer H. E., Vellis K. Acidic isoferritin inhibitory activity: a normal granulopoietic regulator within long-term mouse bone marrow cultures. Leukemia Research 1983; 7: 581–590
- O'Farrell P. H. High-resolution two-dimensional polyacry 1 amide gel electrophoresis of proteins. Journal of Biological Chemistry 1975; 250: 4007–4021
- Read R. A., Fox M. H., Bedford J. S. The cell cycle dependence of thermotolerance of CHO cells heated at 45°C. Radiation Research 1984; 98: 491–505
- Robins H. I., Steeves R. A., Clark A. W., Martin P. A., Miller K., Dennis W. H. Differential sensitivity of AKR murine leukemia and normal bone marrow cells to hyperthermia. Cancer Research 1983; 49: 4951–4955
- Robins I. H., Steeves R. A., Schmitt C. L., Peterson C., Martin P. A. A hyperthermia study of differential sensitivity and thermotolerance in AKR murine leukemia and normal bone marrow cells. International Journal of Radiation Oncology, Biology and Physics 1988; 14: 979–982
- Shadduck R. K., Waheed A., Greenberger J. S., Dexter T. M. Production of colony stimulating factor in long-term bone marrow cultures. Journal of Cellular Physiology 1983; 114: 48
- Stanley E. R., Heard P. M. Factors regulating macrophage production and growth: purification and some properties of the colony stimulating factor from medium conditioned by mouse L-cells. Journal of Biological Chemistry 1977; 258: 4305–4312
- Symonds R. P., Wheldon T. E., Clarke B., Bailey G. A comparison of the response to hyperthermia of murine haemopoietic stem cells (CFU-S) and LI210 leukemia cells: enhanced killing of leukemic cells in presence of normal marrow cells. British Journal of Cancer 1981; 44: 682–691
- Symonds R. P., Wheldon T. E. The elimination of Ieukemic cells from autologous marrow by hyperthermia. International Journal of Radiation Oncology, Biology and Physics 1984; 8: 2033–2034
- Urano M., Rice L., Montoya V. Studies on fractionated hyperthermia in experimental animal systems. n. Response of murine tumors to two or more doses. International Journal of Radiation Oncology, Biology and Physics 1982; 8: 227–233