Pan-cancer Analysis of Homologous Recombination Deficiency in Cell Lines.

IF 2 Q3 ONCOLOGY Cancer research communications Pub Date : 2024-11-01 DOI:10.1158/2767-9764.CRC-24-0316
Anne E Dodson, Sol Shenker, Pamela Sullivan, Sumeet U Nayak, Chris Middleton, Michael McGuire, Edmond Chipumuro, Yuji Mishina, Erica R Tobin, Louise Cadzow, Andrew A Wylie, Dipen Sangurdekar
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Abstract

Homologous Recombination Deficiency (HRD) drives genomic instability in multiple cancer types and renders tumors vulnerable to certain DNA damaging agents such as PARP inhibitors. Thus, HRD is emerging as an attractive biomarker in oncology. A variety of in silico methods are available for predicting HRD; however, few of these methods have been applied to cell lines in a comprehensive manner. Here we utilized two of these methods, "CHORD" and "HRDsum" scores, to predict HRD for 1,332 cancer cell lines and 84 non-cancerous cell lines. Cell lines with biallelic mutations in BRCA1 or BRCA2, which encode key components of the homologous recombination pathway, showed the strongest HRD predictions, validating the two methods in cell lines. A small subset of BRCA1/2-wildtype cell lines were also classified as HRD, several of which showed evidence of epigenetic BRCA1 silencing. Similar to HRD in patient samples, HRD in cell lines was associated with p53 loss, was mutually exclusive with microsatellite instability and occurred most frequently in breast and ovarian cancer types. In addition to validating previously identified associations with HRD, we leveraged cell line-specific datasets to gain new insights into HRD and its relation to various genetic dependency and drug sensitivity profiles. We found that in cell lines, HRD was associated with sensitivity to PARP inhibition in breast cancer, but not at a pan-cancer level. By generating large-scale, pan-cancer datasets on HRD predictions in cell lines, we aim to facilitate efforts to improve our understanding of HRD and its utility as a biomarker.

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细胞系同源重组缺陷的泛癌症分析
同源重组缺陷(HRD)导致多种癌症类型的基因组不稳定,并使肿瘤易受 PARP 抑制剂等某些 DNA 损伤药物的影响。因此,HRD 正在成为肿瘤学中一种有吸引力的生物标记物。目前有多种硅学方法可用于预测HRD,但其中很少有方法能全面应用于细胞系。在这里,我们利用其中的两种方法--"CHORD "和 "HRDsum "评分--预测了1332个癌症细胞系和84个非癌症细胞系的HRD。编码同源重组途径关键成分的 BRCA1 或 BRCA2 发生双重复突变的细胞系显示出最强的 HRD 预测能力,从而验证了这两种方法在细胞系中的有效性。一小部分BRCA1/2野生型细胞系也被归类为HRD,其中一些细胞系显示了表观遗传学BRCA1沉默的证据。与患者样本中的 HRD 相似,细胞系中的 HRD 与 p53 缺失有关,与微卫星不稳定性互斥,最常发生在乳腺癌和卵巢癌类型中。除了验证之前确定的与HRD的关联外,我们还利用细胞系特异性数据集,对HRD及其与各种遗传依赖性和药物敏感性特征的关系有了新的认识。我们发现,在细胞系中,HRD 与乳腺癌患者对 PARP 抑制剂的敏感性有关,但在泛癌症水平上则无关。通过生成关于细胞系中 HRD 预测的大规模泛癌症数据集,我们旨在促进我们对 HRD 及其作为生物标记物的效用的理解。
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