Combined effects of radiation and simulated microgravity on intestinal tumorigenesis in C3B6F1 ApcMin/+ mice

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Kenshi Suzuki , Chizuru Tsuruoka , Takamitsu Morioka , Hitomi Seo , Mari Ogawa , Ryosuke Kambe , Tatsuhiko Imaoka , Shizuko Kakinuma , Akihisa Takahashi
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Abstract

Explorations of the Moon and Mars are planned as future manned space missions, during which humans will be exposed to both radiation and microgravity. We do not, however, know the health effects for such combined exposures. In a ground-based experiment, we evaluated the combined effects of radiation and simulated microgravity on tumorigenesis by performing X-irradiation and tail suspension in C3B6F1 ApcMin/+ mice, a well-established model for intestinal tumorigenesis. Mice were irradiated at 2 weeks of age and underwent tail suspension for 3 or 11 weeks using a special device that avoids damage to the tail. The tail suspension treatment significantly reduced the thymus weight after 3 weeks but not 11 weeks, suggesting a transient stress response. The combination of irradiation and tail suspension significantly increased the number of small intestinal tumors less than 2 mm in diameter as compared with either treatment alone. The combined treatment also increased the fraction of malignant tumors among all small intestinal tumors as compared with the radiation-only treatment. Thus, the C3B6F1 ApcMin/+ mouse is a useful model for assessing cancer risk in a simulated space environment, in which simulated microgravity accelerates tumor progression when combined with radiation exposure.

Abstract Image

辐射和模拟微重力对 C3B6F1 ApcMin/+ 小鼠肠道肿瘤发生的联合影响
月球和火星探索计划是未来的载人太空任务,在此期间人类将暴露于辐射和微重力。然而,我们还不知道这种双重暴露对健康的影响。在一项地面实验中,我们通过对 C3B6F1 ApcMin/+ 小鼠(一种成熟的肠道肿瘤发生模型)进行 X 射线照射和尾部悬吊,评估了辐射和模拟微重力对肿瘤发生的综合影响。小鼠在2周大时接受辐照,并使用一种避免损伤尾部的特殊装置进行为期3周或11周的尾部悬吊。尾悬吊处理在 3 周后胸腺重量明显减少,但在 11 周后并未减少,这表明这是一种短暂的应激反应。与单独使用其中一种疗法相比,照射和尾悬吊疗法联合使用可显著增加直径小于2毫米的小肠肿瘤的数量。与单纯的放射治疗相比,联合治疗还增加了所有小肠肿瘤中恶性肿瘤的比例。因此,C3B6F1 ApcMin/+ 小鼠是评估模拟太空环境中癌症风险的有用模型。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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