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|Title:||Lack of high-dose radiation mediated prostate cancer promotion and low-dose radiation adaptive response in the TRAMP mouse model|
|Citation:||Radiation Research, 2013; 180(4):376-388|
|Publisher:||Radiation Research Soc|
|M. D. Lawrence, R. J. Ormsby, B. J. Blyth, E. Bezak, G. England, M. R. Newman, W. D. Tilley and P. J. Sykes|
|Abstract:||Cancer of the prostate is a highly prevalent disease with a heterogeneous aetiology and prognosis. Current understanding of the biological mechanisms underlying the responses of prostate tissue to ionizing radiation exposure, including cancer induction, is surprisingly limited for both high- and low-dose exposures. As population exposure to radiation increases, largely through medical imaging, a better understanding of the response of the prostate to radiation exposure is required. Low-dose radiation-induced adaptive responses for increased cancer latency and decreased cancer frequency have been demonstrated in mouse models, largely for hematological cancers. This study examines the effects of high- and low-dose whole-body radiation exposure on prostate cancer development using an autochthonous mouse model of prostate cancer: TRansgenic Adenocarcinoma of the Mouse Prostate (TRAMP). TRAMP mice were exposed to single acute high (2 Gy), low (50 mGy) and repeated low (5 × 50 mGy) doses of X rays to evaluate both the potential prostate cancer promoting effects of high-dose radiation and low-dose adaptive response phenomena in this prostate cancer model. Prostate weights and histopathology were examined to evaluate gross changes in cancer development and, in mice exposed to a single 2 Gy dose, time to palpable tumor was examined. Proliferation (Ki-67), apoptosis, DNA damage (γ-H2AX) and transgene expression (large T-antigen) were examined within TRAMP prostate sections. Neither high- nor low-dose radiation-induced effects on prostate cancer progression were observed for any of the endpoints studied. Lack of observable effects of high- or low-dose radiation exposure suggests that modulation of tumorigenesis in the TRAMP model is largely resistant to such exposures. However, further study is required to better assess the effects of radiation exposure using alternative prostate cancer models that incorporate normal prostate and in those that are not driven by SV40 large T antigen.|
|Keywords:||Animals; Mice, Transgenic; Mice; Adenocarcinoma; Prostatic Neoplasms; Disease Models, Animal; Disease Progression; Histones; Ki-67 Antigen; Antigens, Viral, Tumor; Whole-Body Irradiation; Dose-Response Relationship, Radiation; Radiation Tolerance; Female; Male; Carcinogenesis|
|Rights:||© 2013 by Radiation Research Society.|
|Appears in Collections:||Medicine publications|
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