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γ射线照射的急性淋巴细胞白血病前B细胞NALM-6中复杂DNA损伤的检测

Detection of complex DNA damage in gamma-irradiated acute lymphoblastic leukemia Pre-b NALM-6 cells.

作者信息

Holt Stewart M, Georgakilas Alexandros G

机构信息

Biology Department, East Carolina University, Greenville, NC, USA.

出版信息

Radiat Res. 2007 Nov;168(5):527-34. doi: 10.1667/RR0974.1.

DOI:10.1667/RR0974.1
PMID:17973547
Abstract

Bistranded complex DNA damage, i.e., double-strand breaks (DSBs) and non-DSB oxidative clustered DNA lesions, is hypothesized to challenge the repair mechanisms of the cell and consequently the genomic integrity. The oxidative clustered DNA lesions may be persistent and may accumulate in human cancer cells for long times after irradiation. To evaluate the detection and possible accumulation of oxidative clustered DNA lesions in leukemia cells exposed to doses equivalent to those used in radiotherapy, we measured the induction of DSBs and three different types of oxidative clustered DNA lesions in NALM-6 cells, a human acute lymphoblastic leukemia (ALL) pre-B cell line, after exposure to (137)Cs gamma rays. For the detection and measurement of DSBs and oxidative clustered DNA lesions, we used an adaptation of the neutral comet assay (single-cell gel electrophoresis) using E. coli repair enzymes (Endo IV, Fpg and Endo III) as enzymatic probes. We found a linear dose response for the induction of DSBs and oxidative clustered DNA lesions. Clustered DNA lesions were more prevalent than prompt DSBs. For each DSB induced by radiation, approximately 2.5 oxidative clustered DNA lesions were detected. To our knowledge, this is the first study to demonstrate the detection and linear induction of oxidative clustered DNA lesions with radiation dose in an ALL cell line. These results point to the biological significance of clustered DNA lesions.

摘要

双链复合DNA损伤,即双链断裂(DSB)和非DSB氧化簇状DNA损伤,被认为会挑战细胞的修复机制,进而影响基因组完整性。氧化簇状DNA损伤可能具有持久性,并且在辐射后可能在人类癌细胞中长时间累积。为了评估暴露于相当于放疗剂量的白血病细胞中氧化簇状DNA损伤的检测情况及可能的累积情况,我们在人急性淋巴细胞白血病(ALL)前B细胞系NALM-6细胞暴露于¹³⁷Csγ射线后,测量了DSB和三种不同类型氧化簇状DNA损伤的诱导情况。为了检测和测量DSB及氧化簇状DNA损伤,我们采用了一种改良的中性彗星试验(单细胞凝胶电泳),使用大肠杆菌修复酶(内切酶IV、Fpg和内切酶III)作为酶探针。我们发现DSB和氧化簇状DNA损伤的诱导呈现线性剂量反应。簇状DNA损伤比即时DSB更普遍。对于每一个由辐射诱导产生的DSB,大约能检测到2.5个氧化簇状DNA损伤。据我们所知,这是第一项在ALL细胞系中证明氧化簇状DNA损伤可被检测以及其诱导与辐射剂量呈线性关系的研究。这些结果表明了簇状DNA损伤的生物学意义。

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