γ射线诱导小鼠白细胞损伤修复动力学和早期适应性反应。

M T Mendiola-Cruz, P Morales-Ramírez
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引用次数: 6

摘要

研究了不同剂量γ射线照射下小鼠白细胞的损伤诱导和修复动力学,以及γ射线照射诱导的适应性反应。适应剂量为0.01 Gy,激发剂量为1.0 Gy, 60 min后测定小鼠的适应反应。单细胞凝胶电泳检测DNA损伤。结果表明,即使在暴露于辐射中,也存在一个早期有效的修复过程,能够减少80%的受损细胞。随后,受损细胞增加,这似乎代表了其他类型损伤修复过程中引起的断裂。这表明小鼠细胞具有修复这种损伤的基因适应性。结果表明,适应性预处理可将攻毒剂量引起的损伤细胞比例降低至1 / 3,并可减少后期修复过程中产生的损伤。这表明早期的适应性反应是由诱导保护DNA免受损伤诱导的过程引起的,即清除自由基的物质的合成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Damage-repair kinetics and early adaptive response induced by gamma rays in murine leukocytes in vivo.

The kinetics of damage induction and repair at different doses, and the adaptive response induced by gamma ray exposure were determined in murine leukocytes in vivo. The adaptive response was determined after an adaptive dose of 0.01 Gy and a challenge dose of 1.0 Gy administered 60 min later. DNA damage was measured by the single cell gel electrophoresis. Results indicate there is an early and efficient repair process that acts even during the exposure to radiation, which is able to reduce 80% of damaged cells. Later, an increase in damaged cells occurs, which seems to represent the breaks induced during the repair of other kinds of lesions. This suggests that mouse cells are genetically adapted to repair this kind of damage. It was found that the adaptive pretreatment reduces the percentage of damaged cells caused by the challenge dose to one third, and diminishes the damage produced during the late repair. This indicates that the early adaptive response is caused by the induction of a process that protects DNA from damage induction, i.e., synthesis of substances that scavenge free radicals.

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