Institut Curie, CNRS, INSERM, Orsay, France.
Université Paris Sud, Université Paris-Saclay, Orsay, France.
Cancer Res. 2017 Aug 15;77(16):4207-4216. doi: 10.1158/0008-5472.CAN-16-2693. Epub 2017 Jun 6.
Therapeutic strategies targeting DNA repair pathway defects have been widely explored, but often only benefit small numbers of patients. Here we characterized potential predictive biomarkers for treatment with AsiDNA, a novel first-in-class DNA repair inhibitor. We evaluated genetic instability and DNA repair defects by direct and indirect assays in 12 breast cancer cell lines to estimate the spontaneous occurrence of single-strand and double-strand breaks (DSB). For each cell line, we monitored constitutive PARP activation, spontaneous DNA damage by alkaline comet assay, basal micronuclei levels, the number of large-scale chromosomal rearrangements (LST), and the status of several DNA repair pathways by transcriptome and genome analysis. Sensitivity to AsiDNA was associated with a high spontaneous frequency of cells with micronuclei and LST and specific alterations in DNA repair pathways that essentially monitor DSB repair defects. A high basal level of micronuclei as a predictive biomarker for AsiDNA treatment was validated in 43 tumor cell lines from various tissues and 15 models of cell- and patient-derived xenografts. Micronuclei quantification was also possible in patient biopsies. Overall, this study identified genetic instability as a predictive biomarker for sensitivity to AsiDNA treatment. That micronuclei frequency can be measured in biopsies and does not reveal the same genetic instability as conventional genome assays opens new perspectives for refining the classification of tumors with genetic instability. .
针对 DNA 修复途径缺陷的治疗策略已经得到广泛探索,但通常仅能使少数患者受益。在这里,我们研究了 AsiDNA(一种新型的首创类 DNA 修复抑制剂)治疗的潜在预测性生物标志物。我们通过直接和间接检测 12 种乳腺癌细胞系中的遗传不稳定性和 DNA 修复缺陷,来评估单链和双链断裂(DSB)的自发发生情况。对于每个细胞系,我们通过碱性彗星试验监测组成型 PARP 激活、自发 DNA 损伤、基础微核水平、大规模染色体重排(LST)的数量以及通过转录组和基因组分析检测几种 DNA 修复途径的状态。AsiDNA 的敏感性与具有微核和 LST 的细胞的自发高频率以及基本上监测 DSB 修复缺陷的特定 DNA 修复途径改变有关。在来自不同组织的 43 种肿瘤细胞系和 15 种细胞和患者来源的异种移植模型中,验证了作为 AsiDNA 治疗预测性生物标志物的高基础微核水平。在患者活检中也可以进行微核定量。总的来说,这项研究确定了遗传不稳定性作为 AsiDNA 治疗敏感性的预测性生物标志物。微核频率可以在活检中测量,并且不会像常规基因组检测那样揭示出相同的遗传不稳定性,这为细化具有遗传不稳定性的肿瘤分类开辟了新的前景。
