F1 hybrid resistance: Long-term systemic effects sensitive to irradiation and age (original) (raw)
References
Clark, E. A. and Harmon, R. C.: Genetic control of natural cytotoxicity and hybrid resistance. Adv. Cancer Res. 31: 227–285, 1980 Google Scholar
Cudkowicz, G. and Stimpfling, J. H.: Deficient growth of C57BL marrow cells transplanted in Fl hybrid mice. Association with the histocompatibility-2 locus. Immunology 7: 291–306, 1964 Google Scholar
Cudkowicz, G. and Bennett, M.: Peculiar immunobiology of bone marrow allografts. I. Graft rejection of irradiated responder mice. J. Exp. Med. 134: 83–102, 1971a Google Scholar
Cudkowicz, G. and Bennett, M.: Peculiar immunobiology of bone marrow allografts. II. Rejection of parental grafts by resistant Fl hybrid mice. J. Exp. Med. 134: 1513–1528, 1971b Google Scholar
Cudkowicz, G., Landy, M., and Shearer, G. M.: Natural Resistance against Foreign Cells, Tumors and Microbes. Academic Press, New York, 1978 Google Scholar
Cudkowicz, G. and Warner, J. F.: Natural resistance of irradiated 129-strain mice to bone marrow allografts: genetic control by the H-2K region. Immunogenetics 8: 13–26, 1979 Google Scholar
Datta, S. K., Gallagher, M. T., Trentin, J. J., Kiessling, R., and Wigzell, H.: Apparent identity of mechanisms of genetic resistance to marrow transplantation and to natural killer cell activity. Biomedicine 31: 62–66, 1979 Google Scholar
Fitzgerald, P. A. and Bennett, M.: Immunosenescence: loss of natural killer cell function, responses to syngeneic tumor cells, and hybrid resistance in vivo and in vitro. Fed. Proc. 39: 2818, 1980 Google Scholar
Fowler, J. H. and Nash, D. J.: Erythropoiesis in the spleen and bone marrow of the pregnant mouse. Dev. Biol. 18: 331–353, 1968 Google Scholar
Goodman, J. W., Martin, F. B., and Congdon, C. C.: Histology of poor growth of parental marrow cells in F1 hybrid mice: absence of cellular immune response. Arch. Pathol. 89: 226–234, 1970 Google Scholar
Goodman, J. W. and Shinpock, S. G.: Further studies of the relationship of the thymus to hemopoiesis. Transplantation 13: 203–211, 1972 Google Scholar
Harrison, D. E.: Normal function of transplanted marrow cell lines from aged mice. J. Gerontol. 30: 279–285, 1975 Google Scholar
Harrison, D. E. and Astle, C. M.: Population of lymphoid tissues in cured W-anemic mice by donor cells. Transplantation 22: 42–46, 1976 Google Scholar
Harrison, D. E., Astle, C. M., and DeLaittre, J. A.: Loss of proliferative capacity in immunohemopoietic stem cells caused by serial transplantation rather than aging. J. Exp. Med. 147: 1526–1531, 1978 Google Scholar
Harrison, D. E.: Competitive repopulation: a new assay for long term stem cell functional capacity. Blood 55: 77–81, 1980 Google Scholar
Heberman, R. B. and Holden, H. T.: Natural cell-mediated immunity. Adv. Cancer Res. 27: 305–377, 1978 Google Scholar
Kiessling, R., Hochman, P. S., Haller, O., Shearer, G. M., Wigzell, H., and Cudkowicz, G.: Evidence for a similar or common mechanism for natural killer cell activity and resistance to hemopoietic grafts. Eur. J. Immunol. 7: 655–663, 1977 Google Scholar
Klein, G., Klein, G. O., Kärre, K., and Kiessling, R.: ‘Hybrid resistance’ against parental tumors: one or several genetic patterns? Immunogenetics 7: 391–404, 1978 Google Scholar
Lotzová, E.: Resistance to parental, allogeneic and xenogeneic hemopoietic grafts in irradiated mice. A review. Exp. Hematol. 5: 200–220, 1976 Google Scholar
Lotzova, E. and Cudkowicz, G.: Hybrid resistance to parental WB/Re bone marrow grafts. Transplantation 13: 256–264, 1972 Google Scholar
McCulloch, E. A. and Till, J. E.: Repression of colony-forming ability of C57BL hematopoietic cells transferred into non-isologous hosts. J. Cell. Comp. Physiol. 61: 301–308, 1963 Google Scholar
Popp, R. A.: Regression of grafted marrow in homologous irradiated mouse chimeras. J. Natl. Cancer Inst. 26: 629–640, 1961 Google Scholar
Popp, R. A.: Inheritance of factors affecting the ability of bone marrow of (C57BL × 101)F2 mice to establish permanent grafts in irradiated Fr mice. J. Natl. Cancer Inst. 33: 7–17, 1964 Google Scholar
Popp, R. A. and Cudkowicz, G.: Independence of deficient early growth and later regression of (C57BL × 101)F2 marrow grafts in (C57BL x 101)F1 hybrid mice. Transplantation 3: 155–160, 1965 Google Scholar
Rauchwerger, J. M., Gallagher, M. T., Monie, H. J., and Trentin, J. J.: Xenogeneic resistance to rat bone marrow transplantation. Biomedicine 24: 20–25, 1976 Google Scholar
Rauchwerger, J. M., Gallagher, M. T., Monie, H. J., and Trentin, J. J.: Relative radioresistance of xenogeneic and hybrid resistance to bone marrow transplantation. Transplantation 23: 158–160, 1977 Google Scholar
Russell, E. S. and Bernstein, S. E.: Proof of whole-cell implant in therapy of W-series anemia. Arch. Biochem. Biophys. 125: 594–597, 1968 Google Scholar
Snell, G. D.: Histocompatibility genes of the mouse. II. Production and analysis of isogenic resistant lines. J. Natl. Cancer Inst. 21: 843–877, 1958 Google Scholar
Snell, G. D. and Stimpfling, J. H.: Genetics of tissue transplantation. In E. L. Green (ed.) Biology of the Laboratory Mouse, pp. 457–491, McGraw-Hill, New York, 1966 Google Scholar
Snell, G. D., Dausset, J., and Nathenson, S.: Histocompatibility, pp. 154–167, Academic Press, New York, 1976 Google Scholar
Snell, G. D.: Recent advances in histocompatibility immunogenetics. Adv. Genetics 20: 291–355, 1979 Google Scholar
Till, J. E. and McCulloch, E. A.: A direct measure of the radiation sensitivity of normal mouse marrow cells. Radiat. Res. 14: 213–222, 1961 Google Scholar
Whitney, J. B.: Simplified typing of mouse hemoglobin (Hbb) phenotypes using cystamine. Biochem. Genet. 16: 677–672, 1978 Google Scholar
Vriesendrop, H. M., Löwenberg, B., Visser, T. P., Knann, S., and van Bekkam, D. W.: Influence of genetic resistance and silica particles on survival after bone marrow transplantation. Transplant. Proc. 8: 483–489, 1976 Google Scholar