利用同源重组缺陷治疗肉瘤:揭示软组织和骨肉瘤中的同源重组修复缺陷和治疗机会。

Lara Planas-Paz, Chantal Pauli
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引用次数: 0

摘要

背景:肿瘤中的同源重组缺陷(HRD)与预后不良和转移发展相关。确定 HRD 具有重要的临床意义,因为它可以用 PARP 抑制剂(PARPi)来治疗。HRD在肉瘤(一种罕见的间质来源异质性癌症)中的研究仍然很少:我们的目标是:(i) 采用跨功能策略,结合基因组、转录组和表型方法,在几个独立的肉瘤队列中研究 HRD 的预测性生物标志物;(ii) 评估 PARPi 和基于 DNA 损伤反应 (DDR) 的体外疗法的治疗潜力:我们利用癌症基因组图谱(TCGA)和治疗性有效治疗研究(TARGET)的数据集以及我们自己的骨和软组织肉瘤队列,对肉瘤进行了全面的基因组和转录组鉴定。我们在患者来源的肉瘤细胞模型中评估了 PARP1/2 和 WEE1 抑制作为单一疗法以及与化疗药物联合使用的体内外效果,以确定协同效应:首先,我们确定了一部分肉瘤的HRD基因组特征,这些特征与同源重组修复(HRR)通路基因的分子改变和染色体的高度不稳定性有关。其次,我们发现并验证了不同的 SARC-HRD 转录特征,这些特征可预测对 PARPi 的敏感性。最后,我们发现肉瘤细胞中 HRR 的功能缺陷与 PARPi 和 WEE1i 的功能依赖性有关,并支持将 RAD51 作为 PARPi 敏感性的预测性生物标记物用于临床:结论:我们提供了一种个性化的肿瘤学方法,有望改善肉瘤患者的治疗。我们鼓励对基因表达特征进行评估,以更好地识别可能从基于 DDR 的疗法中获益的患者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Leveraging homologous recombination deficiency for sarcoma : Unravelling homologous recombination repair deficiency and therapeutic opportunities in soft tissue and bone sarcoma.

Background: Homologous recombination deficiency (HRD) in tumors correlates with poor prognosis and metastases development. Determining HRD is of major clinical relevance as it can be treated with PARP inhibitors (PARPi). HRD remains poorly investigated in sarcoma, a rare and heterogeneous cancer of mesenchymal origin.

Objective: We aimed (i) to investigate predictive biomarkers of HRD in several independent sarcoma cohorts using a cross-functional strategy by combining genomic, transcriptomic and phenotypic approaches and (ii) to evaluate the therapeutic potential of PARPi and DNA damage response (DDR)-based therapies ex vivo.

Materials and methods: We performed a comprehensive genomic and transcriptomic characterization of sarcoma using datasets from The Cancer Genome Atlas (TCGA) and Therapeutically Applicable Research to Generate Effective Treatments (TARGET), and our own bone and soft tissue sarcoma cohorts. We evaluated PARP1/2 and WEE1 inhibition ex vivo in patient-derived sarcoma cell models as monotherapy and in combination with chemotherapeutic agents to identify synergistic effects.

Results: Firstly, we identified genomic traits of HRD in a subset of sarcomas associated with molecular alterations in homologous recombination repair (HRR) pathway genes and high chromosomal instability. Secondly, we identified and validated distinct SARC-HRD transcriptional signatures that predicted sensitivity to PARPi. Finally, we showed functional defects in HRR in sarcoma cells that were associated with functional dependency towards PARPi and WEE1i and support the clinical use of RAD51 as a predictive biomarker for PARPi sensitivity.

Conclusion: We provide a personalized oncological approach to potentially improve the treatment of sarcoma patients. We encourage the evaluation of gene expression signatures to enhance the identification of patients who might benefit from DDR-based therapies.

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