DNA Damage Response Deficiency Enhances Neuroblastoma Progression and Sensitivity to Combination PARP and ATR Inhibition

Madeline N Hayes, Sarah Cohen-Gogo, Lynn Kee, Alex Weiss, Mehdi Layeghifard, Yagnesh Ladumor, Ivette Valencia-Sama, Anisha Rajaselvam, David R Kaplan, Anita Villani, Adam Shlien, Daniel R Morgenstern, Meredith S Irwin
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Abstract

Next generation sequencing of neuroblastoma (NB) tumors have revealed frequent somatic and germline genetic alterations in genes encoding proteins involved in DNA damage response (DDR) pathways. Despite being well-studied in many adult cancers, roles for DDR disruption in pediatric solid tumors remains poorly understood. To address this, patient-relevant loss-of-function mutations in DDR pathway components including Brca2, Atm, and Palb2 were incorporated into an established zebrafish MYCN transgenic model (Tg(dbh:EGFP-MYCN)). These mutations were found to enhance NB formation and metastasis in vivo, and result in upregulation of proliferation, cell cycle checkpoint and DNA damage repair transcriptional signatures, revealing potential molecular vulnerabilities in DDR-deficient NB. Zebrafish DDR-deficient NB and human NB cells with DDR protein knock-down were sensitive to the poly(ADP-ribose)-polymerase (PARP) inhibitor olaparib, and this effect was further enhanced by inhibition of the ataxia telangiectasia and rad3 related (ATR) kinase. Altogether, our data supports a functional role for DDR-deficiency in NB in vivo and therapeutic potential for combination PARP + ATR inhibition in NB patients with alterations in DDR genes.
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DNA损伤应答缺陷会增强神经母细胞瘤的进展以及对PARP和ATR联合抑制剂的敏感性
神经母细胞瘤(NB)肿瘤的新一代测序发现,编码参与DNA损伤应答(DDR)通路的蛋白质的基因经常发生体细胞和种系遗传改变。尽管对许多成人癌症进行了深入研究,但人们对 DDR 干扰在小儿实体瘤中的作用仍知之甚少。为了解决这个问题,研究人员将与患者相关的 DDR 通路元件(包括 Brca2、Atm 和 Palb2)功能缺失突变纳入到一个已建立的斑马鱼 MYCN 转基因模型(Tg(dbh:EGFP-MYCN))中。研究发现,这些突变会增强体内 NB 的形成和转移,并导致增殖、细胞周期检查点和 DNA 损伤修复转录特征的上调,从而揭示了 DDR 缺失型 NB 潜在的分子漏洞。斑马鱼DDR缺陷NB和敲除DDR蛋白的人类NB细胞对多(ADP-核糖)聚合酶(PARP)抑制剂奥拉帕利(olaparib)敏感,而抑制共济失调毛细血管扩张症和rad3相关(ATR)激酶可进一步增强这种效应。总之,我们的数据证明了DDR缺陷在体内NB中的功能性作用,以及PARP+ATR联合抑制DDR基因改变的NB患者的治疗潜力。
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