在 G(0)-->G(1) 转换期间降低人原代 T 细胞中的 MCM 水平会导致第一个细胞周期中的基因组不稳定性。
Reducing MCM levels in human primary T cells during the G(0)-->G(1) transition causes genomic instability during the first cell cycle.
机构信息
King's College London, Department of Haematological Medicine, Leukaemia Sciences Laboratories, Rayne Institute, London, UK.
出版信息
Oncogene. 2010 Jul 1;29(26):3803-14. doi: 10.1038/onc.2010.138. Epub 2010 May 3.
Abstract
DNA replication is tightly regulated, but paradoxically there is reported to be an excess of MCM DNA replication proteins over the number of replication origins. Here, we show that MCM levels in primary human T cells are induced during the G(0)-->G(1) transition and are not in excess in proliferating cells. The level of induction is critical as we show that a 50% reduction leads to increased centromere separation, premature chromatid separation (PCS) and gross chromosomal abnormalities typical of genomic instability syndromes. We investigated the mechanisms involved and show that a reduction in MCM levels causes dose-dependent DNA damage involving activation of ATR & ATM and Chk1 & Chk2. There is increased DNA mis-repair by non-homologous end joining (NHEJ) and both NHEJ and homologous recombination are necessary for Mcm7-depleted cells to progress to metaphase. Therefore, a simple reduction in MCM loading onto DNA, which occurs in cancers as a result of aberrant cell cycle control, is sufficient to cause PCS and gross genomic instability within one cell cycle.
摘要
DNA 复制受到严格调控,但矛盾的是,据报道,MCM 复制蛋白的数量超过了复制起点的数量。在这里,我们表明,在 G(0)-->G(1) 过渡期间,原代人 T 细胞中的 MCM 水平被诱导,而在增殖细胞中并不过量。诱导水平至关重要,因为我们表明,减少 50%会导致着丝粒分离增加、过早染色单体分离 (PCS) 和典型的基因组不稳定性综合征的巨大染色体异常。我们研究了所涉及的机制,并表明 MCM 水平的降低会导致剂量依赖性的 DNA 损伤,涉及 ATR 和 ATM 以及 Chk1 和 Chk2 的激活。非同源末端连接 (NHEJ) 的 DNA 错误修复增加,并且 NHEJ 和同源重组对于 Mcm7 耗尽的细胞进入中期都是必要的。因此,由于细胞周期控制异常而在癌症中发生的 MCM 加载到 DNA 上的简单减少足以在一个细胞周期内导致 PCS 和巨大的基因组不稳定性。
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