脉冲暴露于电离辐射引起细胞放射敏感性的快速变化。

V Ponette, N Giocanti, H Tourbez, J Balosso, C Hennequin, V Favaudon
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引用次数: 0

摘要

利用线性电子加速器,在反复切碎模式下工作,对3种哺乳动物细胞系的分离剂量辐射恢复进行了时间分辨研究。在这项研究中,连续辐射暴露的时间间隔从几分之一秒到几分钟不等。初级脉冲带来细胞放射敏感性的快速、同步振荡,产生四相、w形的时间依赖性曲线,其第一阶段是通过细胞存活率的大幅下降来完成的。只有最后一个阶段与伽马射线照射确定的亚致死损伤修复相关。在3个细胞系中观察到相同的特征。然而,整个过程的动力学从一个细胞系到另一个细胞系变化很大。第一阶段仅在中国仓鼠V79成纤维细胞中持续了1 s,在人鳞癌SQ20B细胞中持续了6 s,在人结肠癌LoVo细胞中长达25 s。这第一阶段的相对振幅随着第一次和第二次辐射剂量在探测范围内的增大而增大。据推测,辐射的细胞毒性电位的快速振荡可能是由多种机制引起的,如对放射性诱导病变的分子识别、染色质结构的改变或磷脂依赖转导途径的差异激活。
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Pulse exposure to ionizing radiation elicits rapid changes in cellular radiosensitivity.

A linear electron accelerator, operated in a recurrent chopped mode, was used for time-resolved investigation of split-dose radiation recovery in 3 mammalian cell lines in vitro. The time intervals separating the sequential radiation exposures in this study ranged from fractions of a second to a few minutes. The primary pulse brought about rapid, synchronous oscillations of cellular radiosensitivity giving rise to a tetraphasic, W-shaped time-dependent profile whose first phase was accomplished by a large decrease of cell survival. Only the last phase correlated with sub-lethal damage repair determined by gamma-ray irradiation. The same profile was observed for the 3 cell lines investigated. However, the kinetics of the whole process varied extensively from one cell line to another. The first phase lasted 1 s only for Chinese hamster V79 fibroblasts, 6 s for human squamous carcinoma SQ20B cells, and as much as 25 s for human colon adenocarcinoma LoVo cells. The relative amplitude of this first phase grew with both the first and second radiation doses in the range explored. It is hypothesized that rapid oscillation of the cytotoxic potential of radiation may result from various mechanisms such as molecular recognition of radio-induced lesions, changes in chromatin structure, or differential activation of phospholipid-dependent transduction pathways.

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