Sensitivity to nitrogen mustard relates to the ability of processing DNA damage in Chinese hamster ovary cells.

P Møller, K Wassermann, J Damgaard, B A Nexø, H Wallin
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引用次数: 9

Abstract

The hallmark of the excision repair pathways is the removal of DNA adducts by excision of the damaged nucleotides. In the course of repair, transient DNA strand breaks occur, which can be measured by the Comet assay. We have investigated the processing of DNA damage, mediated by nitrogen mustard, in wild-type AA8 Chinese hamster ovary cells, and in UV5, UV20 and UV41 DNA repair deficient cell lines. Whereas DNA repair could not be detected by unscheduled DNA synthesis at nitrogen mustard doses below 10 microM, processing of nitrogen mustard-mediated DNA damage was observed by the Comet assay at a 100-times lower concentration. Wild-type Chinese hamster ovary AA8 cells were able to process nitrogen mustard-mediated DNA damage within 4-24 hr depending on the dose of nitrogen mustard (0.1-10 microM). None of the repair-deficient cell lines was able to completely process the DNA damage induced by 10 microM nitrogen mustard. At nitrogen mustard doses that conferred 10% colony forming ability, the repair-deficient cells had an altered processing of nitrogen mustard-mediated DNA damage: In the AA8, UV20, and UV41 cells, the amplitude of strand breaks peaked early (within 4 hr), the level of strand breaks in the nitrogen mustard exposed UV20 and UV41 cells did not return to the baseline of the unexposed reference culture, and the peak in strand breaks in the UV5 cell line occurred after 4 hr. Our results indicate that the single cell gel electrophoresis (Comet) assay is suitable for assessing repair capability of DNA alkylations.

对氮芥的敏感性与中国仓鼠卵巢细胞处理DNA损伤的能力有关。
切除修复途径的标志是通过切除受损的核苷酸来去除DNA加合物。在修复过程中,短暂的DNA链断裂发生,这可以通过彗星试验来测量。我们研究了氮芥介导的野生型AA8中国仓鼠卵巢细胞和UV5、UV20和UV41 DNA修复缺陷细胞系DNA损伤的处理过程。在低于10微米的氮芥剂量下,DNA修复无法通过非预定的DNA合成检测到,而在低浓度100倍的浓度下,彗星试验观察到氮芥介导的DNA损伤处理。野生型中国仓鼠卵巢AA8细胞能在4 ~ 24小时内处理氮芥介导的DNA损伤,这取决于氮芥的剂量(0.1 ~ 10 μ m)。修复缺陷细胞系均不能完全处理10 μ m氮芥诱导的DNA损伤。氮芥剂量,集落形成能力,授予10% repair-deficient细胞有一个改变处理氮mustard-mediated DNA损伤:在AA8 UV20,和UV41细胞,达到顶峰的振幅链断裂早期(4小时内),氮芥的暴露水平的链断裂UV20 UV41细胞没有回复未曝光的基准参考文化,在链断裂和峰值UV5细胞系发生后4小时。我们的研究结果表明,单细胞凝胶电泳(Comet)试验适合于评估DNA烷基化的修复能力。
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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