Cesare Anthony J, Kaul Zeenia, Cohen Scott B, Napier Christine E, Pickett Hilda A, Neumann Axel A, Reddel Roger R
Cancer Research Unit, Children's Medical Research Institute, Westmead, New South Wales, Australia.
Nat Struct Mol Biol. 2009 Dec;16(12):1244-51. doi: 10.1038/nsmb.1725. Epub 2009 Nov 22.
Telomere dysfunction is typically studied under conditions in which a component of the six-subunit shelterin complex that protects chromosome ends is disrupted. The nature of spontaneous telomere dysfunction is less well understood. Here we report that immortalized human cell lines lacking wild-type p53 function spontaneously show many telomeres with a DNA damage response (DDR), commonly affecting only one sister chromatid and not associated with increased chromosome end-joining. DDR(+) telomeres represent an intermediate configuration between the fully capped and uncapped (fusogenic) states. In telomerase activity-positive (TA(+)) cells, DDR is associated with low TA and short telomeres. In cells using the alternative lengthening of telomeres mechanism (ALT(+)), DDR is partly independent of telomere length, mostly affects leading strand-replicated telomeres, and can be partly suppressed by TRF2 overexpression. In ALT(+) (but not TA(+)) cells, DDR(+) telomeres preferentially associate with large foci of extrachromosomal telomeric DNA and recombination proteins. DDR(+) telomeres therefore arise through different mechanisms in TA(+) and ALT(+) cells and have different consequences.
端粒功能障碍通常是在保护染色体末端的六亚基端粒保护蛋白复合体的一个组分被破坏的条件下进行研究的。自发性端粒功能障碍的本质尚不太清楚。在此我们报告,缺乏野生型p53功能的永生化人类细胞系自发地显示出许多具有DNA损伤反应(DDR)的端粒,通常仅影响一条姐妹染色单体,且与染色体末端连接增加无关。DDR(+)端粒代表了完全加帽和未加帽(融合性)状态之间的一种中间构型。在端粒酶活性阳性(TA(+))细胞中,DDR与低端粒酶活性和短端粒相关。在使用端粒替代延长机制(ALT(+))的细胞中,DDR部分独立于端粒长度,主要影响前导链复制的端粒,并且可以被TRF2过表达部分抑制。在ALT(+)(而非TA(+))细胞中,DDR(+)端粒优先与染色体外端粒DNA和重组蛋白的大焦点相关联。因此,DDR(+)端粒通过不同机制在TA(+)和ALT(+)细胞中产生,并具有不同的后果。
