7
Views
5
CrossRef citations to date
0
Altmetric
Research Article

High split-dose recovery in hypersensitive human fibroblasts: a case of induced radioresistance?

Pages 225-239 | Published online: 03 Jul 2009

References

  • ALSBEIH, M. G. A., FERTIL, B., BADIE, C. and MALAISE, E. P., 1995, The fi component of human cell survival curves and its relationship with split-dose recovery. International Journal of Radiation Biology, 67, 453–460.
  • ARLETT C. F., COLE, J. and GREEN, M. H. L., 1989, Radiosensitive individuals in the population. In: Low Dose Radiation: Biological Bases of Risk Assessment. Edited by: K. F. Bayer-stock and J. W. Stather (Taylor 8c Francis, London), pp. 240–252.
  • ARLETT, C. F., GREEN, M. H. L., PRIESTLEY, A., HARCOURT, S. A. and MAYNE L. V., 1988, Comparative human cellular radiosensitivity. I. The effect of SV40 transformation and immortalization on the gamma-irradiation sur-vival of skin derived fibroblasts from normal indivi-duals and from ataxia-telangiectasia patients and heterozygotes. International Journal of Radiation Biology, 54, 911–928.
  • AZZAM, E. I., DE TOLEDO, S. M., RAAPHORST, G. P. and MITCHEL, R. E. J., 1992, Radiation-induced radioresistance in a normal human skin fibroblast cell line. In: Low Dose Irradiation and Biological Defense Mechanisms. Edited by: T. Sugahara, L. A. Sagan and T. Aoyama (Elsevier, Amsterdam), pp. 291–294.
  • BADIE, C., MARIS, G., FoRAY, N., ALSBEIH, G., CEDERVALL, B., CHAVAUDRA, N., PANTELLIAS, G., ARLETT, C. and MALAISE, E. P., 1995b, Induction and rejoining of DNA double strand breaks and interphase chromo-some breaks in two hypersensitive and one normal human fibroblast cell lines after exposure to X-rays. Radiation Research, 144, 26–35.
  • BADIE, C. ILIAKIS, G., FORAY, N., ALSBEIH, G., PANTELLIAS, G. E., ORAYAsu, R., CDRoNG, N., RUSSELL, N. S., BEGG, A. C., ARLETT, C. F. and MALAISE, E. P., 1995a, Defective repair of DNA double strand breaks and chromosome damage in fibroblasts from a radiosensitive leukemia patient. Cancer Research, 55, 1232–1234.
  • BOOTHMAN, D. A., MAJMUDAR, G. and JOHNSON, T., 1994, Immedi-ate X-ray-inducible responses from mammalian cells. Radiation Research, 138, S44—S46.
  • BRYANT, P. E. and PARKER, J., 1979, Changes in sensitivity of HeLa cells after split doses of X-rays. International Journal of Radiation Biology, 35, 189–192.
  • CROOIJMANS, R. P. M. A., SCHWACHGFER, J. H. M. and HOOGENHOUT, J., 1991, The influence of pre-irradiation on the survival of two head and neck squamous cell carcinoma lines. Anticancer Research, 11, 297–300.
  • DESCHAVANNE, P. J., CHAVAUDRA, N., FERTIL, B. and MALAISE, E. P., 1984, Abnormal sensitivity of some Cockayne's syn-drome cell strains to UV- and y-rays. Association with a reduced ability to repair potentially lethal damage. Mutation Research, 131, 61–70.
  • DESCHAVANNE, P. J., DEBIEU, D., FERTIL, B. and MALAISE, E. P., 1986, Re-evaluation of in vitro radiosensitivity of human fibroblasts of different genetic origins. International Journal of Radiation Biology, 50, 279–293.
  • DESCHAVANNE, P. J., FERTIL, B., LACHET, B. and MALAISE, E. P., 1980, Radiosensitivity and repair of radiation damage in human HF19 fibroblasts. International Journal of Radiation Biology, 38, 167–177.
  • ELKIND, M. M. and SUTTON, H., 1959, X-ray damage and recovery in mammalian cells in culture. Nature, 184, 1293–1295.
  • FERTIL, B., DERTINGER, H., COURDI, A. and MALAISE, E. P., 1984, Mean inactivation dose: A useful concept for inter-comparison of human cell survival curves. Radiation Research, 99, 73–84.
  • FERTIL, B. and MALAISE, E. P., 1985, Intrinsic radiosensitivity of human cell lines is correlated with radioresponsiveness of human tumors: analysis of 101 published survival curves. InternationalJournal of Radiation Oncology, Biology and Physics, 11, 1699–1707.
  • FREEMAN, M. L., SIERRA, E. and HALL, E. J., 1983, The repair of sublethal damage in diploid human fibroblasts: a comparison between human and rodent cell lines. Radiation Research, 95, 382–391.
  • GREEN, M. H. L., ARLETT, C. F., COLE, J., HARCOURT, S. A., PRIESTLEY, A., WAUGH, A. P. W., STEPHENS, G., BEARE, D. M., BROWN, N. A. P. and SHUN-SHIN, G. A., 1991, Comparative human cellular radiosensitivity. III. y-Radiation survival of cultured skin fibroblasts and resting T-lymphocytes from the peripheral blood of the same individual. International Journal of Radiation Biology, 59, 749–765.
  • HOLMES, A., MCMILLAN, T. J., PEACOCK, J. H. and STEEL, G. G., 1990, The radiation dose-rate effect in two human neuroblastoma cell lines. British Journal of Cancer, 62, 791–795.
  • KIMLER, B. F., PARK, C. H., YAKAR, D. and MiEs, R. M., 1984, Lack of recovery from radiation-induced sublethal damage in human haematopoietic cells. British Journal of Cancer, 49, (suppl. VI), 221–225.
  • LAMBIN, P., FERTIL, B., MALAISE, E. P. and JOINER, M. C., 1994, Multiphasic survival curves for cells of human tumor cell lines: induced repair or hypersensitive subpopu-lation? Radiation Research, 138, S32—S36.
  • LAMBIN, p., MARPLES, B., FERTIL, B., MALAISE, E. P. and JOINER, M. C., 1993, Low dose radiation response of human tumour cell lines of different intrinsic radiosensitivity. In: Pre-diction of Response in Radiotherapy: Radiosensitivity and Repopulation. Edited by: B. R. Paliwal, T. J. Kinsella and J. F. Fowler (Institute of Physics, New York), pp. 311–319.
  • LEHNERT, S., RYBKA, W. B., SUISSA, S. and GIAMBATTISTO, D., 1986, Radiation response of haematopoietic cell lines of human origin. International Journal of Radiation Biology, 49, 423–431.
  • LEHNERT, S., 1995, Gene induction and adaptive responses in irradiated cells: Mechanisms and clinical implication (Extended Abstracts). Radiation Research, 141, 108–123.
  • LOCHART, R. Z., JR, ELKIND, M. M. and MOSES, W. B., 1961, Radiation response of mammalian cells grown in cul-ture. II. Survival and recovery characteristics of several subcultures of Hela S3 cells after X irradiation. Journal of the National Cancer Institute, 27, 1393–1404.
  • MALAISE, E. P., DESCHAVANNE, P. J. and FERTIL, B., 1989, The relationship between potentially lethal damage repair and intrinsic radiosensitivity of human cells. Interna-tional Journal of Radiation Biology, 56, 597–604.
  • MARPLES, B. and JOINER, M. C., 1993, The response of Chinese hamster V79 cells to low radiation doses: evidence of enhanced sensitivity of the whole cell population. Radiation Research, 133, 41–51.
  • MCMILLAN, T. J., EADY, J. J., PEACOCK, J. H. and STEEL, G. G., 1992, Cellular recovery in two sub-lines of the L5178Y murine leukaemic lymphoblast cell line differing in their sensitivity to ionizing radiation. International Jour-nal of Radiation Biology, 61, 49–56.
  • MEYERS, M., MCCAFFREY, J., ODEGAARD, E. and BOOTHMAN, D. A., 1995, X-ray-induced transcripts and altered cell cycle regulation are involved in adaptive survival response in human cells. Radiation Research, 141, abstract 119–120.
  • NGO, F. Q. H., YOUNGMAN, K., SUSUKI, S., KOUMOUDOUROS, I. and Iilmus, G., 1986, Evidence for reduced capacity for damage accumulation and repair in plateau-phase C3H10T1/2 cells following multiple-dose irradiation with y-rays. Radiation Research, 106, 380–395.
  • PEACOCK, J. H., CASSONI, A. M., MCMILLAN, T. J. and STEEL, G. G., 1988, Radiosensitive human tumour cell lines may not be recovery deficient. International Journal of Radiation Biology, 54, 945–953.
  • PEACOCK, J. H., EADY, J. J., EDWARDS, S. M., HOLMES, A., MCMILLAN, T. J. and STEEL, G. G., 1989, Initial damage or repair as the major determinant of cellular radio-sensitivity? International Journal of Radiation Biology, 56, 543–547.
  • PEACOCK, J. H., EADY, J. J., EDWARDS S. M., MCMILLAN, T. J. and STEEL, G. G., 1992, The intrinsic a /fl ratio for human tumour cells: is it a constant? International Journal of Radiation Biology, 61,479–487.
  • PLOWMAN, P. N., BRIDGES, B. A., ARLETT, C. F., HINNEY, A. and KINGSTON, J. E., 1990, An instance of clinical radiation morbidity and cellular radiosensitivity, not associated with ataxia-telangiectasia. British Journal of Radiology, 63, 624–628.
  • SEYMOUR, C. B. and MOTHERSILL, C., 1989, Lethal mutations, the survival curve shoulder and split-dose recovery. International Journal of Radiation Biology, 56, 999–1010.
  • SHADLEY, J. D. and Dfid, G., 1992, Cytogenetic and survival adaptive response in G1 phase human lymphocytes. Mutation Research, 265, 273–281.
  • SHADLEY, J. D. and DAI, G., 1993, Evidence that the adaptive response of human lymphocytes to ionizing radiation acts on lethal damage in nonaberrant cells. Mutation Research, 301, 171–176.
  • SINGH, B., ARRAND, J. E. and JOINER, M. C., 1994, Hypersensitive response of normal human lung epithelial cells at low radiation doses. InternationalJournal of Radiation Biology, 65, 457–464.
  • STEEL, G. G., MCMILLAN, T. J. and PEACOCK, J. H., 1989, The picture has changed in the 1980s. International Journal of Radiation Biology, 56, 525–537.
  • STEEL, G. G. and PEACOCK, J. H., 1989, Why are some human tumours more radiosensitive than others? Radiotherapy and Oncology, 15, 63–72.
  • VAN DER MAAZEN, R. W., KLEIBOER, B. J., VERHAGEN, I. and VAN DER KOGEL, A. J., 1993, Repair capacity of adult rat glial progenitor cells determined by an in vitro or in vivo fractionated irradiation. International Journal of Radiation Biology, 63, 661–666.
  • WOUTERS, B. G. and SKARSGARD, L. D., 1994, The response of a human tumor cell line to low radiation doses: evidence of enhanced sensitivity. Radiation Research, 138, S76–80.
  • YANG, X., DARLING, J. L., MCMILLAN, T. J., PEACOCK, J. H. and STEEL, G. G., 1990, Radiosensitivity, recovery and dose rate effect in three human glioma cell lines. Radio-therapy and Oncology, 19, 49–56.
  • YANG, X., DARLING, J. L., MCMILLAN, T. J., PEACOCK, J. H. and STEEL, G. G., 1991, Heterogeneity of radio-sensitivity in a human glioma cell lines. Inter-national Journal of Radiation Oncology, Biology and Physics, 22, 103–108.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.