代谢活化的加入增强了环磷酰胺诱导的同基因DT40突变细胞中的DNA损伤反应。

Incorporation of metabolic activation potentiates cyclophosphamide-induced DNA damage response in isogenic DT40 mutant cells.

作者信息

Hashimoto Kiyohiro, Takeda Shunichi, Swenberg James A, Nakamura Jun

机构信息

Department of Environmental Sciences and Engineering, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA, Drug Safety Research Laboratories, Pharmaceutical Research Division, Takeda Pharmaceutical Company Limited, 26-1, Muraoka-Higashi 2-Chome, Fujisawa, Kanagawa 251-8555, Japan.

Department of Radiation Genetics, Graduate School of Medicine, Kyoto University, Yoshidakonoe-cho, Sakyo-ku, Kyoto 606-8501, Japan.

出版信息

Mutagenesis. 2015 Nov;30(6):821-8. doi: 10.1093/mutage/gev042. Epub 2015 Jun 17.

DOI:10.1093/mutage/gev042

PMID:26085549

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4723676/

Abstract

Elucidating the DNA repair pathways that are activated in the presence of genotoxic agents is critical to understand their modes of action. Although the DT40 cell-based DNA damage response (DDR) assay provides rapid and sensitive results, the assay cannot be used on genotoxic compounds that require metabolic activation to be reactive. Here, we applied the metabolic activation system to a DDR and micronucleus (MN) assays in DT40 cells. Cyclophosphamide (CP), a well-known cross-linking agent requiring metabolic activation, was preincubated with liver S9 fractions. When DT40 cells and mutant cells were exposed to the preactivated CP, CP caused increased cytotoxicity in FANC-, RAD9-, REV3- and RAD18-mutant cells compared to isogenic wild-type cells. We then performed a MN assay on DT40 cells treated with preactivated CP. An increase in the MN was observed in REV3- and FANC-mutant cells at lower concentrations of activated CP than in the parental DT40 cells. These results demonstrated that the incorporation of metabolic preactivation system using S9 fractions significantly potentiates DDR caused by CP in DT40 cells and their mutants. In addition, our data suggest that the metabolic preactivation system for DDR and MN assays has a potential to increase the relevance of this assay to screening various compounds for potential genotoxicity.

摘要

阐明在存在基因毒性剂的情况下被激活的DNA修复途径对于理解它们的作用模式至关重要。尽管基于DT40细胞的DNA损伤反应（DDR）检测提供了快速且灵敏的结果，但该检测不能用于需要代谢激活才能具有反应性的基因毒性化合物。在此，我们将代谢激活系统应用于DT40细胞中的DDR和微核（MN）检测。环磷酰胺（CP）是一种需要代谢激活的著名交联剂，它与肝脏S9组分进行预孵育。当DT40细胞和突变细胞暴露于预激活的CP时，与同基因野生型细胞相比，CP在FANC-、RAD9-、REV3-和RAD18-突变细胞中引起了更高的细胞毒性。然后我们对用预激活的CP处理的DT40细胞进行了MN检测。在较低浓度的激活CP下，REV-3和FANC-突变细胞中观察到的微核数量比亲代DT40细胞中的更多。这些结果表明，使用S9组分的代谢预激活系统的加入显著增强了CP在DT40细胞及其突变体中引起的DDR。此外，我们的数据表明，用于DDR和MN检测的代谢预激活系统有可能提高该检测与筛选各种潜在基因毒性化合物的相关性。

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