Advanced search
Publication Cover
International Journal of Radiation Biology Volume 85, 2009 - Issue 1
Submit an article Journal homepage
335
Views
44
CrossRef citations to date
0
Altmetric
Adaptive Response, HRS/IRR and Bystander Effect

Radiation-induced adaptive response is not seen in cell lines showing a bystander effect but is seen in lines showing HRS/IRR response

Lorna A. Ryan Medical Physics and Applied Radiation Sciences Department, McMaster University, Hamilton; Juravinski Cancer Centre, Hamilton, Ontario, Canada
,
Colin B. Seymour Medical Physics and Applied Radiation Sciences Department, McMaster University, Hamilton; Juravinski Cancer Centre, Hamilton, Ontario, Canada
,
Michael C. Joiner Department of Radiation Oncology, Karmanos Cancer Institute, Wayne State University, Detroit, Michigan, USA
&
Carmel E. Mothersill Medical Physics and Applied Radiation Sciences Department, McMaster University, Hamilton; Juravinski Cancer Centre, Hamilton, Ontario, CanadaCorrespondence[email protected]
Pages 87-95 | Received 13 Apr 2007, Accepted 29 Oct 2008, Published online: 03 Jul 2009

References

  • Azzam E I, de Toledo S M, Raaphorst G P, Mitchel R E. Low-dose ionizing radiation decreases the frequency of neoplastic transformation to a level below the spontaneous rate in C3H 10T1/2 cells. Radiation Research 1996; 146: 369–373
  • Azzam E I, Raaphorst G P, Mitchel R E. Radiation-induced adaptive response for protection against micronucleus formation and neoplastic transformation in C3H 10T1/2 mouse embryo cells. Radiation Research 1994; 138: S28–31
  • Boukamp P, Stanbridge E J, Foo D Y, Cerutti P A, Fusenig N E. C-Ha-ras oncogene expression in immortalised human keratinocytes (HaCAT) alters growth potential in vivo but lacks correlation with malignancy. Cancer Research 1990; 50: 2840–2847
  • Brenner D J, Doll R, Goodhead D T, Hall E J, Land C E, Little J B, Lubin J H, Preston D L, Preston R J, Puskin J S, Ron E, Sachs R K, Samet J M, Setlow R B, Zaider M. Cancer risks attributable to low doses of ionizing radiation: assessing what we really know. Proceedings of the National Academy of Sciences USA 2003; 100: 13761–13766
  • Cregan S P, Brown D L, Mitchel R E. Apoptosis and the adaptive response in human lymphocytes. International Journal of Radiation Biology 1999; 75: 1087–1094
  • de Toledo S M, Asaad N, Venkatachalam P, Li L, Howell R W, Spitz D R, Azzam E I. Adaptive responses to low-dose/low-dose-rate gamma rays in normal human fibroblasts: The role of growth architecture and oxidative metabolism. Radiation Research 2006; 166: 849–857
  • Iyer R, Lehnert B E. Alpha-particle-induced increases in the radioresistance of normal human bystander cells. Radiation Research 2002a; 157: 3–7
  • Iyer R, Lehnert B E. Low dose, low-LET ionizing radiation-induced radioadaptation and associated early responses in unirradiated cells. Mutation Research 2002b; 503: 1–9
  • Joiner M C, Denekamp J, Maughan R L. The use of ‘top-up’ experiments to investigate the effect of very small doses per fraction in mouse skin. International Journal of Radiation Biology 1986; 49: 565–580
  • Joiner M C, Johns H. Renal damage in the mouse: the response to very small doses per fraction. Radiation Research 1988; 114: 385–398
  • Joiner M C, Lambin P, Malaise E P, Robson T, Arrand J E, Skov K A, Marples B. Hypersensitivity to very-low single radiation doses: its relationship to the adaptive response and induced radioresistance. Mutation Research 1996; 358: 171–183
  • Joiner M C, Marples B, Lambin P, Short S C, Turesson I. Low-dose hypersensitivity: Current status and possible mechanisms. International Journal of Radiation Oncology and Biology and Physics 2001; 49: 379–389
  • Kadhim M A, Moore S R, Goodwin E H. Interrelationships amongst radiation-induced genomic instability, bystander effects, and the adaptive response. Mutation Research 2004; 568: 21–32
  • Kurihara Y, Rienkjkarn M, Etoh H. Cytogenetic adaptive response of cultured fish cells to low doses of X-rays. Journal of Radiation Research (Tokyo) 1992; 33: 267–274
  • Lambin P, Fertil B, Malaise E P, Joiner M C. Multiphasic survival curves for cells of human tumor cell lines: Induced repair or hypersensitive subpopulation?. Radiation Research 1994; 138(Suppl.)S32–36
  • Little J B. Cellular radiation effects and the bystander response. Mutation Research 2006; 597: 113–118
  • Liu Z, Mothersill C E, McNeill F E, Lyng F M, Byun S H, Seymour C B, Prestwich W V. A dose threshold for a medium transfer bystander effect for a human skin cell line. Radiation Research 2006; 166: 19–23
  • Maguire P, Mothersill C, Seymour C, Lyng F M. Medium from irradiated cells induces dose-dependent mitochondrial changes and BCL2 responses in unirradiated human keratinocytes. Radiation Research 2005; 163: 384–390
  • Marples B, Joiner M C. The response of Chinese hamster V79 cells to low radiation doses: evidence of enhanced sensitivity of the whole cell population. Radiation Research 1993; 133: 41–51
  • Marples B, Joiner M C. The elimination of low-dose hypersensitivity in Chinese hamster V79-379A cells by pretreatment with X rays or hydrogen peroxide. Radiation Research 1995; 141: 160–169
  • Marples B, Wouters B G, Collis S J, Chalmers A J, Joiner M C. Low-dose hyper-radiosensitivity: a consequence of ineffective cell cycle arrest of radiation-damaged G2-phase cells. Radiation Research 2004; 161: 247–255
  • Marples B, Wouters B G, Joiner M C. An association between the radiation-induced arrest of G2-phase cells and low-dose hyper-radiosensitivity: A plausible underlying mechanism. Radiation Research 2003; 160: 38–45
  • Matsumoto H, Takahashi A, Ohnishi T. Radiation-induced adaptive responses and bystander effects. Biological Sciences in Space 2004; 18: 247–254
  • Mothersill C, Seymour C. Radiation-induced bystander effects and adaptive responses – the Yin and Yang of low dose radiobiology. Mutation Research 2004; 568: 121–128
  • Mothersill C, Seymour C B. Medium from irradiated human epithelial cells but not human fibroblasts reduces the clonogenic survival of unirradiated cells. International Journal of Radiation Biology 1997; 71: 421–427
  • Mothersill C, Seymour C B. Cell-cell contact during gamma irradiation is not required to induce a bystander effect in normal human keratinocytes: Evidence for release during irradiation of a signal controlling survival into the medium. Radiation Research 1998; 149: 256–262
  • Mothersill C, Seymour C B. Bystander and delayed effects after fractionated radiation exposure. Radiation Research 2002; 158: 626–633
  • Mothersill C, Seymour C B, Joiner M C. Relationship between radiation-induced low-dose hypersensitivity and the bystander effect. Radiation Research 2002; 157: 526–532
  • Mothersill C, Seymour R J, Seymour C B. Bystander effects in repair-deficient cell lines. Radiation Research 2004; 161: 256–263
  • Olivieri G, Bodycote J, Wolff S. Adaptive response of human lymphocytes to low concentrations of radioactive thymidine. Science 1984; 223: 594–597
  • Parkins C S, Fowler J F. The linear quadratic fit for lung function after irradiation with X-rays at smaller doses per fraction than 2 Gy. British Journal of Cancer 1986, Suppl. 7: 320–323
  • Pirisi L, Batova A, Jenkins G R, Hodam J R, Creek K E. Increased sensitivity of human keratinocytes immortalized by human papillomavirus type 16 DNA to growth controls by retinoids. Radiation Research 1992; 52: 187–193
  • Preston R J. The LNT model is the best we can do – today. Journal of Radiological Protection 2003; 23: 263–268
  • Preston R J. Radiation biology: Concepts for radiation protection. Health Physics 2005; 88: 545–556
  • Prise K M, Folkard M, Michael B D. A review of the bystander effect and its implications for low-dose exposure. Radiation Protection Dosimetry 2003; 104: 347–355
  • Puck T T, Marcus P I. Action of X-rays on mammalian cells. Journal of Experimental Medicine 1956; 103: 653–666
  • Raaphorst G P, Boyden S. Adaptive response and its variation in human normal and tumour cells. International Journal of Radiation Biology 1999; 75: 865–873
  • Redpath J L, Liang D, Taylor T H, Christie C, Elmore E. The shape of the dose-response curve for radiation-induced neoplastic transformation in vitro: Evidence for an adaptive response against neoplastic transformation at low doses of low-LET radiation. Radiation Research 2001; 156: 700–707
  • Scott B R. A biological-based model that links genomic instability, bystander effects, and adaptive response. Mutation Research 2004; 568: 129–143
  • Shadley J D, Afzal V, Wolff S. Characterization of the adaptive response to ionizing radiation induced by low doses of X rays to human lymphocytes. Radiation Research 1987; 111: 511–517
  • Short S C, Bourne S, Martindale C, Jackson J S. DNA damage responses at low radiation doses. Radiation Research 2005; 164: 292–302
  • Short S C, Joiner M C. Cellular response to low-dose irradiation. Clinical oncology (Royal College of Radiologists [Great Britain]) 1998; 10: 73–77
  • Smith D M, Raaphorst G P. Adaptive responses in human glioma cells assessed by clonogenic survival and DNA strand break analysis. International Journal of Radiation Biology 2003; 79: 333–339
  • Tapio S, Jacob V. Radioadaptive response revisited. Radiation and Environmental Biophysics 2007; 46: 1–12
  • Ulsh B A, Miller S M, Mallory F F, Mitchel R E, Morrison D P, Boreham D R. Cytogenetic dose-response and adaptive response in cells of ungulate species exposed to ionizing radiation. Journal of Environmental Radioactivity 2004; 74: 73–81
  • Wolff S. The adaptive response in radiobiology: evolving insights and implications. Environmental Health Perspectives 1998; 106(Suppl. 1)277–283
  • Wolff S, Afzal V, Wiencke J K, Olivieri G, Michaeli A. Human lymphocytes exposed to low doses of ionizing radiations become refractory to high doses of radiation as well as to chemical mutagens that induce double-strand breaks in DNA. International Journal of Radiation Biology 1988; 53: 39–47
  • Wykes S M, Piasentin E, Joiner M C, Wilson G D, Marples B. Low-dose hyper-radiosensitivity is not caused by a failure to recognize DNA double-strand breaks. Radiation Research 2006; 165: 516–524
  • Zhou H, Randers-Pehrson G, Geard C R, Brenner D J, Hall E J, Hei T K. Interaction between radiation-induced adaptive response and bystander mutagenesis in mammalian cells. Radiation Research 2003; 160: 512–516

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:

Order Reprints Request Corporate Permissions

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:

Request Academic Permissions

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.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.