Windhofer Frank, Wu Wenqi, Wang Minli, Singh Satyendra K, Saha Janapriya, Rosidi Bustanur, Iliakis George
Institute of Medical Radiation Biology, University Duisburg-Essen Medical School, Essen, Germany.
Int J Radiat Oncol Biol Phys. 2007 Aug 1;68(5):1462-70. doi: 10.1016/j.ijrobp.2007.04.038.
Backup pathways of nonhomologous end joining (B-NHEJ) enable cells to repair DNA double-strand breaks (DSBs) when DNA-PK-dependent NHEJ (D-NHEJ) is compromised. Recent evidence implicates growth signaling in the regulation of D-NHEJ. This study was intended to determine whether the ability to repair DSBs by B-NHEJ also depends on growth state.
LIG4(-/-) and wild type (WT) mouse embryo fibroblasts (MEFs) were used. Repair of DSBs was measured by pulsed-field agarose gel electrophoresis. G1 cells were selected by centrifugal elutriation. A plasmid assay was used to measure DNA end-joining activity in whole cell extracts.
Wild-type MEFs efficiently repaired DSBs by D-NHEJ in either the exponential or plateau phase of growth. Because of their defect in ligase IV, which compromises D-NHEJ, LIG4(-/-) MEFs showed reduced repair capacity but were slowly able to rejoin a large proportion of DSBs via B-NHEJ. B-NHEJ was markedly reduced in the plateau phase of growth or at high radiation doses. Elutriated G1 cells from exponentially growing or plateau-phase LIG4(-/-) cultures showed a response similar to nonelutriated cells, ruling out that the effect simply reflects redistribution in the cell cycle. An in vitro assay, gauging the activity of B-NHEJ, showed a reduction in DNA end joining during the plateau phase that could be corrected by recombinant DNA ligase IIIalpha.
Suppression of growth signaling markedly compromises DSB repair by B-NHEJ. This effect is associated with a reduction in DNA ligase III mediated DNA end joining.
当依赖DNA-PK的非同源末端连接(D-NHEJ)受损时,非同源末端连接的备用途径(B-NHEJ)使细胞能够修复DNA双链断裂(DSB)。最近的证据表明生长信号参与D-NHEJ的调节。本研究旨在确定通过B-NHEJ修复DSB的能力是否也取决于生长状态。
使用LIG4(-/-)和野生型(WT)小鼠胚胎成纤维细胞(MEF)。通过脉冲场琼脂糖凝胶电泳测量DSB的修复情况。通过离心淘析选择G1期细胞。使用质粒测定法测量全细胞提取物中的DNA末端连接活性。
野生型MEF在生长的指数期或平台期均可通过D-NHEJ有效修复DSB。由于其连接酶IV缺陷,损害了D-NHEJ,LIG4(-/-)MEF显示出修复能力降低,但能够通过B-NHEJ缓慢重新连接大部分DSB。在生长的平台期或高辐射剂量下,B-NHEJ明显降低。从指数生长或平台期LIG4(-/-)培养物中淘析得到的G1期细胞显示出与未淘析细胞相似的反应,排除了该效应仅仅反映细胞周期中重新分布的可能性。一项评估B-NHEJ活性的体外测定显示,平台期DNA末端连接减少,而重组DNA连接酶IIIα可纠正这一现象。
生长信号的抑制显著损害了B-NHEJ对DSB的修复。这种效应与DNA连接酶III介导的DNA末端连接减少有关。
