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PURPOSE

Side effects related to radiation exposures are based primarily on the assumption that the detrimental effects of radiation occur in directly irradiated cells. However, several studies have reported over the years of radiation-induced non-targeted/ abscopal effects in vivo that challenge this paradigm. There is evidence that Cyclooxygenase-2 (COX2) plays an important role in modulating non-targeted effects, including DNA damages in vitro and mutagenesis in vivo. While most reports on radiation-induced non-targeted response utilize x-rays, there is little information available for heavy ions.

METHODS AND MATERIALS

Adult female transgenic gpt delta mice were exposed to an equitoxic dose of either carbon or argon particles using the Heavy Ion Medical Accelerator in Chiba (HIMAC) at the National Institute of Radiological Sciences (NIRS) in Japan. The mice were stratified into 4 groups of 5 animals each: Control; animals irradiated under full shielding (Sham-irradiated); animals receiving whole body irradiation (WBIR); and animals receiving partial body irradiation (PBIR) to the lower abdomen with a 1 x 1 cm2 field. The doses used in the carbon ion group (4.5 Gy) and in argon particle group (1.5 Gy) have a relative biological effectiveness equivalent to a 5 Gy dose of x-rays. 24 hours after irradiation, breast tissues in and out of the irradiated field were harvested for analysis. Induction of COX2, 8-hydroxydeoxyguanosine (8-OHdG), phosphorylated histone H2AX (γ-H2AX), and apoptosis-related cysteine protease-3 (Caspase-3) antibodies were examined in the four categories of breast tissues using immunohistochemical techniques. Analysis was performed by measuring the intensity of more than 20 individual microscopic fields and comparing the relative fold difference.

RESULTS

In the carbon ion group, the relative fold increase in COX2 expression was 1.01 in sham-irradiated group (p > 0.05), 3.07 in PBIR (p < 0.05) and 2.50 in WBIR (p < 0.05), respectively, when compared with controls. The relative fold increase in 8-OHdG expression was 1.29 in sham-irradiated (p > 0.05), 11.31 in PBIR (p < 0.05) and 11.79 in WBIR (p < 0.05), respectively, when compared with controls. A similar increase in γ-H2AX expression was found in that, compared to controls, the increase was 1.41 fold in sham-irradiated (p > 0.05), 8.41 in PBIR (p < 0.05) and 10.59 in WBIR (p < 0.05). Results for the argon particle therapy group showed a similar magnitude of changes in the various biological endpoints examined. There was no statistical significance observed in Caspase-3 expression among the 4 groups.

CONCLUSIONS

Our data show that both carbon and argon ions induced non-targeted, out of field induction of COX2 and DNA damages in breast tissues. These effects may pose new challenges to evaluate the risks associated with radiation exposure and understanding radiation-induced side effects.

PURPOSE

METHODS AND MATERIALS

RESULTS

CONCLUSIONS

目的

与辐射暴露相关的副作用主要基于这样一种假设，即辐射的有害影响发生在直接受照射的细胞中。然而，多年来有几项研究报告了体内辐射诱导的非靶向/远隔效应，这对这一范例提出了挑战。有证据表明，环氧化酶-2（COX2）在调节非靶向效应中起重要作用，包括体外DNA损伤和体内诱变。虽然大多数关于辐射诱导的非靶向反应的报告使用的是X射线，但关于重离子的信息很少。

方法和材料

成年雌性转基因gpt delta小鼠在日本国立放射科学研究所（NIRS）的千叶重离子医学加速器（HIMAC）下，接受等毒性剂量的碳或氩粒子照射。小鼠被分为4组，每组5只动物：对照组；在完全屏蔽下照射的动物（假照射）；接受全身照射（WBIR）的动物；以及接受下腹部1×1平方厘米区域局部照射（PBIR）的动物。碳离子组（4.5 Gy）和氩粒子组（1.5 Gy）使用的剂量具有与5 Gy剂量X射线相当的相对生物效应。照射后24小时，采集照射野内外的乳腺组织进行分析。使用免疫组织化学技术在四类乳腺组织中检测COX2、8-羟基脱氧鸟苷（8-OHdG）、磷酸化组蛋白H2AX（γ-H2AX）和凋亡相关半胱天冬酶-3（Caspase-3）抗体的诱导情况。通过测量20多个单独显微镜视野的强度并比较相对倍数差异进行分析。

结果

在碳离子组中，与对照组相比，假照射组COX2表达的相对倍数增加为1.01（p>0.05），PBIR组为3.07（p<0.05），WBIR组为2.50（p<0.05）。与对照组相比，假照射组8-OHdG表达的相对倍数增加为1.29（p>0.05），PBIR组为11.31（p<0.05），WBIR组为11.79（p<0.05）。发现γ-H2AX表达有类似增加，与对照组相比，假照射组增加1.41倍（p>0.05），PBIR组为8.41（p<0.05），WBIR组为10.59（p<0.05）。氩粒子治疗组的结果显示，在所检测的各种生物学终点上变化幅度相似。4组之间Caspase-3表达未观察到统计学意义。