@misc{oai:repo.qst.go.jp:00065834,
 author = {田中, 薫 and 王, 冰 and 二宮, 康晴 and 丸山, 耕一 and 劉, 強 and 藤田, 和子 and 笠井, 清美 and 根井, 充 and 田中 薫 and 王 冰 and 二宮 康晴 and 丸山 耕一 and 笠井 清美 and 根井 充},
 month = {Apr},
 note = {Radiation-induced adaptive response (AR) is a phenomenon that a priming low dose induces radioresistance against the subsequent challenge radiation at higher doses.  In a series of investigation, successful induction of AR by certain combinations of X-rays and heavy ions was demonstrated in mice using suppression of bone marrow death in thirty-day survival test as the criterion.  As increased number of endogenous spleen colonies (CFU-S, a measure of viable pluripotent hematopoietic stem cells) was closely related to the suppression of challenge radiation-induced lethality when X-rays were used as both the priming and challenge doses, in this work, as the first approach to exploration of the AR mechanisms with high LET heavy-ion irradiations (HIR) involved, the number of endogenous CFU-S was examined.  In addition to X-rays, accelerated HIR of carbon (15keV/μm) and iron (200KeV/μm) particles were used.  Female mice of C57BL/6J strain were irradiated with the priming and challenge doses at postnatal ages of 6 and 8 weeks, respectively.  Results showed that under AR-inducible conditions, i.e., X-rays+carbon, carbon+X-rays, carbon+carbon, significantly increased number of endogenous CFU-S was observed, while under AR-uninducible condition, i.e., X-rays+iron, no increase was detectable. These findings indicate that under AR-inducible conditions with high LET HIR involved, the increased number of endogenous CFU-S was also closely related to the suppression of challenge radiation-induced lethality. These findings would provide a new insight into further mechanistic study on high LET radiation-induced AR., H26年度HIMAC共同利用研究成果発表会},
 title = {成体マウスにおいて重粒子線によって誘導された適応応答の機構研究},
 year = {2015}
}