PML亚型的表达和DNA断裂位置影响着PML核体同源重组的效率。

K. Attwood, Jayme Salsman, Dudley Chung, Sabateeshan Mathavarajah, C. Van Iderstine, G. Dellaire
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引用次数: 12

摘要

早幼粒细胞白血病核小体(PML NBs)是一种核亚结构域,通过染色质结构的变化,通过数量的增加来响应基因毒性应激。然而,PML蛋白和PML NBs在DNA修复的特定机制中的作用尚未得到充分表征。在这里,我们使用I-SceI染色体外和基于染色体的同源定向修复(HDR)检测直接检测了PML在同源重组(HR)中的作用,并通过CRISPR/ cas9介导的基因编辑检测了PML在HDR中的作用。我们确定PML缺失可以在染色体外HDR检测中抑制HR,但对CRISPR/ cas9介导的染色体HDR影响较小。PML的过表达也通过染色体报告基因抑制CRISPR HDR和i - scii诱导的HDR,并以同种异构体特异性的方式抑制。然而,PML过表达对染色体HDR报告基因的影响取决于报告基因的核内染色体定位。具体而言,与PML NB相关的TAP1基因位点的HDR比与PML NB无关的位点降低;然而,PML过表达可以降低非PML nb相关位点的HDR。因此,PML亚型的缺失和过表达都可以抑制HDR,而染色体断裂与PML NB的接近会影响HDR效率。
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PML isoform expression and DNA break location relative to PML nuclear bodies impacts the efficiency of homologous recombination.
Promyelocytic leukemia nuclear bodies (PML NBs) are nuclear subdomains that respond to genotoxic stress by increasing in number via changes in chromatin structure. However, the role of the PML protein and PML NBs in specific mechanisms of DNA repair has not been fully characterized. Here, we have directly examined the role of PML in homologous recombination (HR) using I-SceI extrachromosomal and chromosome-based homology-directed repair (HDR) assays, and in HDR by CRISPR/Cas9-mediated gene editing. We determined that PML loss can inhibit HR in an extrachromosomal HDR assay but had less of an effect on CRISPR/Cas9-mediated chromosomal HDR. Overexpression of PML also inhibited both CRISPR HDR and I-SceI-induced HDR using a chromosomal reporter, and in an isoform specific-manner. However, the impact of PML overexpression on the chromosomal HDR reporter was dependent on the intra-nuclear chromosomal positioning of the reporter. Specifically, HDR at the TAP1 gene locus, which is associated with PML NBs, was reduced compared to a locus not associated with a PML NB; yet, HDR could be reduced at the non-PML NB-associated locus by PML overexpression. Thus, both loss and overexpression of PML isoforms can inhibit HDR, and proximity of a chromosomal break to a PML NB can impact HDR efficiency.
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