a Department of Environmental and Radiological Health Sciences, College of Veterinary Medicine and Biomedical Sciences, Colorado State University, Fort Collins, Colorado, 80523.
Radiat Res. 2014 Oct;182(4):448-57. doi: 10.1667/RR13744.1. Epub 2014 Sep 24.
Potentially lethal damage (PLD) repair has been defined as that property conferring the ability of cells to recover from DNA damage depending on the postirradiation environment. Using a novel cyclin dependent kinase 1 inhibitor RO-3306 to arrest cells in the G2 phase of the cell cycle, examined PLD repair in G2 in cultured Chinese hamster ovary (CHO) cells. Several CHO-derived DNA repair mutant cell lines were used in this study to elucidate the mechanism of DNA double-strand break repair and to examine PLD repair during the G2 phase of the cell cycle. While arrested in G2 phase, wild-type CHO cells displayed significant PLD repair and improved cell survival compared with cells released immediately from G2 after irradiation. Both the radiation-induced chromosomal aberrations and the delayed entry into mitosis were also reduced by G2-holding PLD recovery. The PLD repair observed in G2 was observed in nonhomologous end-joining (NHEJ) mutant cell lines but absent in homologous recombination mutant cell lines. From the survival curves, G2-NHEJ mutant cell lines were found to be very sensitive to gamma-ray exposure when compared to G2/homologous recombination mutant cell lines. Our findings suggest that after exposure to ionizing radiation during G2, NHEJ is responsible for the majority of non-PLD repair, and conversely, that the homologous recombination is responsible for PLD repair in G2.
潜在致死性损伤 (PLD) 修复被定义为赋予细胞根据辐射后环境从 DNA 损伤中恢复的能力的特性。使用新型细胞周期蛋白依赖性激酶 1 抑制剂 RO-3306 将细胞阻滞在细胞周期的 G2 期,研究了培养的中国仓鼠卵巢 (CHO) 细胞中 G2 期的 PLD 修复。本研究使用了几种源自 CHO 的 DNA 修复突变体细胞系,以阐明 DNA 双链断裂修复的机制,并研究细胞周期 G2 期的 PLD 修复。当 G2 期被阻滞时,与从 G2 期立即释放后立即接受辐射的细胞相比,野生型 CHO 细胞显示出显著的 PLD 修复和改善的细胞存活。G2 期 PLD 恢复还减少了辐射诱导的染色体畸变和延迟进入有丝分裂。在 G2 期观察到的 PLD 修复在非同源末端连接 (NHEJ) 突变体细胞系中观察到,但在同源重组突变体细胞系中不存在。从生存曲线来看,与 G2/同源重组突变体细胞系相比,G2-NHEJ 突变体细胞系对 γ 射线暴露非常敏感。我们的研究结果表明,在 G2 期暴露于电离辐射后,NHEJ 负责大多数非 PLD 修复,相反,同源重组负责 G2 期的 PLD 修复。
