Two Major Factors Involved in the Reverse Dose-rate Effect for Somatic Mutation Induction are the Cell Cycle Position and LET Value

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概要

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• To study mechanisms which could be involved in the reverse dose rate effect observed during mutation induction after exposure to high LET radiation, synchronized mouse L5178Y cells were exposed to carbon 290 MeV/n beams with different LET values at the G2/M, G1, G1/S or S phases in the cell cycle. The frequency of Hprt-deficient (6-thioguanine-resistant) mutant induction was subsequently determined. The results showed that after exposure to high LET value radiation (50.8 and 76.5 keV/μm), maximum mutation frequencies were seen at the G2/M phase, but after exposure to lower LET radiation (13.3 keV/μm), the highest mutation frequencies were observed at the G1 phase. The higher LET beam always produced higher mutation frequencies in the G2/M phase than in the G1 phase, regardless of radiation dose. These results suggest that cells in the G2/M phase is hyper-sensitive for mutation induction from high LET radiation, but not to mutation induction from low LET radiation. Molecular analysis of mutation spectra showed that large deletions (which could include almost entire exons) of the mouse Hprt gene were most efficiently induced in G2/M cells irradiated with high LET radiation. These entire exon deletions were not as frequent in cells exposed to lower LET radiation. This suggests that inappropriate recombination repair might have occurred in response to condensed damage in condensed chromatin in the G2/M phase. In addition, by using a hyper-sensitive mutation detection system (GM06318-10 cells), a reverse dose-rate effect was clearly observed after exposure to carbon beams with higher LET values (66 keV/μm), but not after exposure to beams with lower LET values (13.3 keV/μm). Thus, G2/M sensitivity towards mutation induction, and the dependence on radiation LET values could both be major factors involved in the reverse dose rate effect produced by high LET radiation.

• 日本放射線影響学会の論文
• 2009-09-16

著者

• Komatsu Kenshi

  Department Of Genome Repair Dynamics Radiation Biology Center Kyoto University

• Furusawa Yoshiya

  Research Center For Charged Particle Therapy National Institute Of Radiological Sciences

• Kamiya K

  Department Of Genome Repair Dynamics Radiation Biology Center Kyoto University

• Komatsu Kenshi

  Research Institute For Radiation Biology And Medicine Hiroshima University

• TAUCHI Hiroshi

  Department of Biological Science, Faculty of Science, Ibaraki University

• WAKU Hiroyuki

  Department of Biological Science, Faculty of Science, Ibaraki University

• MATSUMOTO Eigo

  Department of Biological Science, Faculty of Science, Ibaraki University

• YARA Sayaka

  Department of Biological Science, Faculty of Science, Ibaraki University

• OKUMURA Shino

  Department of Biological Science, Faculty of Science, Ibaraki University

• IWATA Yoshiyuki

  Research Center for Charged Particle Therapy, National Institute of Radiological Sciences

• EGUCHI KASAI

  Research Center for Radiation Protection, National Institute of Radiological Sciences

• TACHIBANA Akira

  Department of Biological Science, Faculty of Science, Ibaraki University

• EGUCHI-KASAI Kiyomi

  NIRS

• FUTAMI Yasuyuki

  Shizuoka Cancer Center

• Futami Yasuyuki

  茨城県立医療大学 放射線技術科学科

• Futami Yasuyuki

  Dvisin Of Accelerator Physics And Engineering National Institite Of Radiological Sciences Chiba Japa

• 神谷 研二

  広島大学原爆放射線医科学研究所 分子発がん

• Komatsu K

  Department Of Genome Repair Dynamics Radiation Biology Center Kyoto University

• Tauchi Hiroshi

  Department Of Biological Science Faculty Of Science Ibaraki University

• Tauchi Hiroshi

  Dep. Env. Sci. Fac. Sci. Ibaraki Univ.

• Komatsu Kenshi

  Dep. Of Genome Repair Dynamics Radiation Biology Center Kyoto Univ.

• Komatsu Kenshi

  Department Of Radiation Biology Research Institute For Radiation Biology And Medicine Hiroshima Univ

• Yara Sayaka

  Department Of Biological Science Faculty Of Science Ibaraki University

• Eguchi‐kasai K

  National Inst. Radiological Sci. Chiba Jpn

• Eguchi Kasai

  Research Center For Radiation Protection National Institute Of Radiological Sciences

• Kasai Kiyomi

  Division Of Radiobiology & Biodosimetry National Institute Of Radiological Sciences

• Waku Hiroyuki

  Department Of Biological Science Faculty Of Science Ibaraki University

• Okumura Shino

  Department Of Biological Science Faculty Of Science Ibaraki University

• Matsumoto Eigo

  Department Of Biological Science Faculty Of Science Ibaraki University

• Tauchi Hiroshi

  Dep. Of Biological Sci. Fac. Of Sci. Ibaraki Univ.

• Tauchi Hiroshi

  Div. Environ. Biol. Res. Inst. Rad. Biol. And Med. Hiroshima University

• Komatsu Kensi

  Div. Environ. Biol. Res. Inst. Rad. Biol. And Med. Hiroshima University

• Iwata Yoshiyuki

  Research Center For Charged Particle Therapy National Institute Of Radiological Sciences

• Kamiya Kenji

  広島大学原爆放射能医学研究所附属国際放射線情報センター

• Kamiya K

  Hiroshima Univ. Hiroshima Jpn

• Kamiya Kenji

  Department Of Experimental Oncology Research Institute For Radiation Biology And Medicine Hiroshima

• Tachibana Akira

  Department Of Biological Science Faculty Of Science Ibaraki University

• Tachibana Akira

  Department Of Bioengineering Graduate School Of Engineering Osaka City University

• Furusawa Y

  Research Center For Charged Particle Therapy National Institute Of Radiological Sciences

• Tauchi H

  Department Of Biological Science Faculty Of Science Ibaraki University

• Kamiya Kenji

  Dept. Develop. Biol. And Oncol. Res. Inst. Radiat. Biol. Med. Hiroshima Univ.

• Komatsu Kenshi

  Dept. Radiat. Biol. Res. Inst. For Radiat. Biol. Med. Hiroshimauniv.

• Komatsu Kenshi

  Div. Of Environ. Biol. Res. Inst. Rad. Biol. Med. Hiroshima University.

• Tauchi Hiroshi

  Tokyo Institute Of Technology Research Laboratory For Nuclear Reactors

• TACHIBANA Akira

  Department of Applied Chemistry & Bioengineering, Graduate School of Engineering, Osaka City University

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