Museo Storico della Fisica e Centro Studi e Ricerche Enrico Fermi, Rome, Italy.
Department of Biotechnological and Applied Clinical Sciences, L'Aquila University, L'Aquila, Italy.
Front Public Health. 2021 Jan 12;8:594789. doi: 10.3389/fpubh.2020.594789. eCollection 2020.
Low radiation doses can affect and modulate cell responses to various stress stimuli, resulting in perturbations leading to resistance or sensitivity to damage. To explore possible mechanisms taking place at an environmental radiation exposure, we set-up twin biological models, one growing in a low radiation environment (LRE) laboratory at the Gran Sasso National Laboratory, and one growing in a reference radiation environment (RRE) laboratory at the Italian National Health Institute (Istituto Superiore di Sanità, ISS). Studies were performed on pKZ1 A11 mouse hybridoma cells, which are derived from the pKZ1 transgenic mouse model used to study the effects of low dose radiation, and focused on the analysis of cellular/molecular end-points, such as proliferation and expression of key proteins involved in stress response, apoptosis, and autophagy. Cells cultured up to 4 weeks in LRE showed no significant differences in proliferation rate compared to cells cultured in RRE. However, caspase-3 activation and PARP1 cleavage were observed in cells entering to an overgrowth state in RRE, indicating a triggering of apoptosis due to growth-stress conditions. Notably, in LRE conditions, cells responded to growth stress by switching toward autophagy. Interestingly, autophagic signaling induced by overgrowth in LRE correlated with activation of p53. Finally, the gamma component of environmental radiation did not significantly influence these biological responses since cells grown in LRE either in incubators with or without an iron shield did not modify their responses. Overall, data presented here suggest the hypothesis that environmental radiation contributes to the development and maintenance of balance and defense response in organisms.
低辐射剂量会影响和调节细胞对各种应激刺激的反应,导致产生干扰,从而导致对损伤的抗性或敏感性。为了探索在环境辐射暴露下可能发生的机制,我们建立了两个生物模型,一个在格兰萨索国家实验室的低辐射环境(LRE)实验室中生长,另一个在意大利国家卫生研究所(Istituto Superiore di Sanità,ISS)的参考辐射环境(RRE)实验室中生长。研究对象是 pKZ1 A11 小鼠杂交瘤细胞,该细胞源自用于研究低剂量辐射影响的 pKZ1 转基因小鼠模型,研究集中在分析细胞/分子终点,如增殖和应激反应、细胞凋亡和自噬相关关键蛋白的表达。在 LRE 中培养长达 4 周的细胞与在 RRE 中培养的细胞相比,增殖率没有明显差异。然而,在 RRE 中进入过度生长状态的细胞中观察到 caspase-3 激活和 PARP1 切割,表明由于生长应激条件引发了细胞凋亡。值得注意的是,在 LRE 条件下,细胞通过向自噬转化来应对生长应激。有趣的是,LRE 中过度生长诱导的自噬信号与 p53 的激活相关。最后,环境辐射的γ成分并没有显著影响这些生物学反应,因为无论是在带有还是不带铁屏蔽的孵育箱中生长在 LRE 中的细胞都没有改变它们的反应。总的来说,这里呈现的数据提出了这样一个假设,即环境辐射有助于生物体的发育和平衡及防御反应的维持。
