Agricultural College, Shenyang Agricultural University, Shenyang 110866, PR China.
Department of Medicine, He University, Shenyang 110163, PR China.
Chemosphere. 2018 Jun;201:586-594. doi: 10.1016/j.chemosphere.2018.03.017. Epub 2018 Mar 3.
DNA mismatch repair (MMR) proteins have been implicated in sensing and correcting DNA damage, and in governing cell cycle progression in the presence of structurally anomalous nucleotide lesions induced by different stresses in mammalian cells. Here, Arabidopsis seedlings were grown hydroponically on 0.5 × MS media containing cadmium (Cd) at 0-4.0 mg L for 5 d. Flow cytometry results indicated that Cd stress induced a G2/M cell cycle arrest both in MLH1-, MSH2-, MSH6-deficient, and in WT roots, associated with marked changes of G2/M regulatory genes, including ATM, ATR, SOG1, BRCA1, WEE1, CYCD4; 1, MAD2, CDKA;1, CYCB1; 2 and CYCB1; 1. However, the Cd-induced G2/M phase arrest was markedly diminished in the MSH2- and MSH6-deficient roots, while a lack of MLH1 had no effect on Cd-induced G2 phase arrest relative to that in the wild type roots under the corresponding Cd stress. Expression of the above G2/M regulatory genes was altered in MLH1, MSH2 and MSH6-deficient roots in response to Cd treatment. Furthermore, Cd elicited endoreplication in MSH2- and MSH6-deficient roots, but not in MLH1-deficient Arabidopsis roots. Results suggest that MSH2 and MSH6 may act as direct sensors of Cd-mediated DNA damage. Taken together, we conclude that MSH2 and MSH6, but not MLH1, components of the MMR system are involved in the G2 phase arrest and endoreplication induced by Cd stress in Arabidopsis roots.
DNA 错配修复 (MMR) 蛋白参与感知和修复 DNA 损伤,并在哺乳动物细胞中不同应激诱导的结构异常核苷酸损伤存在的情况下调控细胞周期进程。在这里,拟南芥幼苗在含有 0-4.0mg/L 镉的 0.5×MS 培养基上进行水培,5d。流式细胞术结果表明,Cd 胁迫诱导 MLH1、MSH2、MSH6 缺陷和 WT 根中的 G2/M 细胞周期阻滞,与 G2/M 调控基因的显著变化相关,包括 ATM、ATR、SOG1、BRCA1、WEE1、CYCD4;1、MAD2、CDKA;1、CYCB1;2 和 CYCB1;1。然而,在 MSH2 和 MSH6 缺陷的根中,Cd 诱导的 G2/M 期阻滞明显减少,而 MLH1 的缺乏对 Cd 诱导的 G2 期阻滞相对于野生型根在相应的 Cd 胁迫下没有影响。上述 G2/M 调控基因的表达在 MLH1、MSH2 和 MSH6 缺陷的根中发生改变,以响应 Cd 处理。此外,Cd 在 MSH2 和 MSH6 缺陷的根中诱发内复制,而在 MLH1 缺陷的拟南芥根中则没有。结果表明,MSH2 和 MSH6 可能作为 Cd 介导的 DNA 损伤的直接传感器。综上所述,我们得出结论,MMR 系统的 MSH2 和 MSH6 组件而不是 MLH1 参与了 Cd 胁迫诱导的拟南芥根中的 G2 期阻滞和内复制。
