神经母细胞瘤中的 DNA 修复和复制应激瘾

Kaat Durinck , Meredith S. Irwin
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引用次数: 0

摘要

神经母细胞瘤(NB)是一种儿科交感神经系统肿瘤。近 40% 的高危神经母细胞瘤患者的生存率仍然很低。高危神经母细胞瘤的靶向治疗方案有限,单一化合物策略往往因肿瘤异质性或适应性(表观遗传)反应或突变驱动的逃逸机制而失败。新型 NB 治疗方法越来越依赖于生物标志物筛选出的 I/II 期临床试验队列。需要同时开展密集的研究项目,以确定新的治疗弱点或药物靶向策略,并进一步为临床试验提供信息,优先考虑强效、低毒的组合疗法。虽然有几种有效的化疗方法是通过增加癌细胞的复制压力来发挥作用,但最近,一些直接针对 DNA 损伤反应(DDR)通路成分(如 ATR、CHK1 和 PARP 抑制剂)、毒性较低的新型小分子方法正在许多癌症的早期试验中接受评估。NB 测序研究发现,许多编码关键 DDR 通路蛋白的基因发生了重复性改变(拷贝数和突变),这表明这些基因易受特定类别的 DDR 靶向疗法的影响。在本综述中,我们总结了目前支持 DDR 和复制应激成瘾在 NB 中的作用的数据,包括影响 DDR 信号通路的基因改变。最后,我们回顾了针对 DDR 缺陷和/或复制成瘾 NB 的药物的机制、临床前证据和正在进行的试验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DNA repair and replicative stress addiction in neuroblastoma

Neuroblastoma (NB) is a pediatric tumor of the sympathetic nervous system. Survival remains poor for the almost 40 % of patients with high-risk NB. Targeted therapy options for high-risk NB are limited and single compound strategies often fail due to escape mechanisms, driven either by tumor heterogeneity or adaptive (epigenetic) responses or mutations. Novel NB therapeutic approaches rely increasingly on biomarker selected cohorts for phase I/II clinical trials. Parallel intensive research programs are needed to identify novel therapeutic vulnerabilities or drug targeting strategies and to further inform clinical trials and prioritize potent, less toxic combinations. While several effective chemotherapies work by increasing replication stress in cancer cells, recently, newer putatively less toxic small molecule-based approaches that directly target DNA damage response (DDR) pathway components such as ATR, CHK1 and PARP inhibitors are being evaluated in early phase trials for many cancers. NB sequencing studies have identified recurrent alterations (copy number and mutations) in many of these genes encoding critical DDR pathway proteins suggesting susceptibility to specific classes of DDR-targeting therapies. In this review, we summarize current data supporting the roles of DDR and replicative stress addiction in NB, including genetic alterations which impact DDR signaling pathways. Finally, we review the mechanisms, pre-clinical evidence and ongoing trials for drugs that target DDR-deficient and/or replication addicted NB.

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