Sequential radiation exposure: uncovering the potential of low dose ionizing radiation in mitigating high dose effects on immune cells.

Sadegh Masoudi, Mehdi Kalani, Ali Alavianmehr, Mohammad Amin Mosleh-Shirazi, Seyed Mohammad Javad Mortazavi, Shirin Farjadian
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Abstract

Purpose: The radioadaptive response refers to a phenomenon wherein exposure to a low dose of ionizing radiation (LDIR) can induce a protective response in cells or organisms, reducing the adverse effects of a subsequent higher dose of ionizing radiation (HDIR). However, it is possible to administer the low dose after the challenge dose. This study was conducted to determine the potential mitigating effect of LDIR administered after HDIR on mice immune cells.

Materials and methods: Alongside the conventional adaptive response setting, one group of mice was initially exposed to HDIR and subsequently treated with LDIR. Neutrophil activation was done using DHR-reducing assay and cell proliferation was evaluated through CFSE-dilution assay in helper (CD4+) and cytotoxic (CD8+) T cells. Cytokine production by these T cell subsets was also assessed by intracellular staining using flow cytometry.

Results: The results of this study revealed no change in neutrophil function between any of the mice groups compared to the untreated control group. Although significant changes were not detected in the proliferation of CD4+ T cells, decreased proliferation was observed in stimulated CD8+ T cells in the HDIR group. In contrast to IFN-ɣ, which showed no evident change in either of the T cell subsets after stimulation, IL-4 was rigorously dropped in stimulated CD4+ T cells in the HDIR group.

Conclusions: In summary, the results of this study indicated that the administration of LDIR to mice before HDIR was not able to reduce the detrimental effects of HDIR in our experimental setting. Instead, we observed a mitigating effect of LDIR when administered after the challenge dose. This suggests that not only the dose and duration but also the order of LDIR relative to HDIR affects its efficacy.

连续辐照:揭示低剂量电离辐射在减轻高剂量对免疫细胞影响方面的潜力。
目的:放射适应反应是指这样一种现象,即暴露于低剂量电离辐射(LDIR)可诱导细胞或生物体产生保护性反应,减少随后的高剂量电离辐射(HDIR)的不利影响。不过,可以在挑战剂量之后再施用低剂量。本研究旨在确定在高剂量电离辐射后施用低剂量电离辐射对小鼠免疫细胞的潜在缓解效应:除了传统的适应性反应设置,一组小鼠最初暴露于 HDIR,随后接受 LDIR 治疗。中性粒细胞活化是通过 DHR 还原试验进行的,细胞增殖是通过辅助性(CD4+)和细胞毒性(CD8+)T 细胞的 CFSE 稀释试验进行评估的。这些 T 细胞亚群产生的细胞因子也通过流式细胞术进行细胞内染色评估:研究结果表明,与未经处理的对照组相比,各组小鼠的中性粒细胞功能均无变化。虽然 CD4+ T 细胞的增殖未发现明显变化,但在 HDIR 组中,受刺激的 CD8+ T 细胞的增殖有所下降。IFN-ɣ在刺激后在两个 T 细胞亚群中均未显示出明显变化,与此形成对比的是,在 HDIR 组中,受刺激的 CD4+ T 细胞中的 IL-4 显著下降:总之,本研究结果表明,在我们的实验环境中,在 HDIR 之前给小鼠注射 LDIR 并不能减轻 HDIR 的有害影响。相反,我们观察到在挑战剂量后给予 LDIR 有缓解作用。这表明,不仅是剂量和持续时间,LDIR 相对于 HDIR 的顺序也会影响其疗效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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