Clinical potential of whole-genome data linked to mortality statistics in patients with breast cancer in the UK: a retrospective analysis

The Lancet Oncology Pub Date : 2025-10-07 DOI:10.1016/s1470-2045(25)00400-0

Daniella Black, Helen Ruth Davies, Gene Ching Chiek Koh, Lucia Chmelova, Marko Cubric, Georgia Chalivelaki Chan, Andrea Degasperi, Jan Czarnecki, Ping Jing Toong, Yasin Memari, James Whitworth, Salome Jingchen Zhao, Yogesh Kumar, Shadi Basyuni, Giuseppe Rinaldi, Scott Shooter, Vladyslav Dembrovskyi, Rosie Davies, Maria Chatzou Dunford, Ellen Copson, Serena Nik-Zainal

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引用次数: 0

Abstract

Background

Breast cancer is the most frequently diagnosed cancer in women. Survival is generally considered favourable, yet some patients remain at risk of early death. We aimed to assess whether comprehensive whole-genome sequencing (WGS) linked to mortality data could add prognostic value to existing clinical measures and identify patients who might respond to targeted therapeutics.

Methods

In this integrative, retrospective analysis, we analysed 2445 breast cancer tumours (any stage and molecular subtype) collected from 2403 patients recruited through 13 National Health Service Genomic Medicine Centres or hospitals in England affiliated to the 100 000 Genomes Project (100kGP) between 2012 and 2018. We linked 2208 (90%) cases with clinical data; mortality data were obtained for 1188 patients. Following high-depth WGS of tumour and matched normal DNA, we performed comprehensive WGS profiling seeking driver mutations, mutational signatures, and compound algorithmic scores for homologous recombination repair deficiency (HRD), mismatch repair deficiency, and tumour mutational burden. Data from 1803 additional patients with breast cancer from three independent cohorts were used to validate various findings. To evaluate the prognostic value of WGS features, we performed univariable and multivariable Cox regression on data from patients with stage I–III, ER-positive, HER2-negative breast cancer with a cancer-specific mortality endpoint (around 5-year follow-up).

Findings

Among 2445 tumours in the 100kGP breast cancer cohort, we observed genomic characteristics with immediate personalised medicine potential in 656 (26·8%), including features reporting HRD (298 [12·2%] total cases and 76 [6·3%] ER-positive, HER2-negative cases), highly individualised driver events, mutations underpinning resistance to endocrine therapy, and mutational signatures indicating therapeutic vulnerabilities. 373 (15·2%) cases had WGS features with potential for translational research, including compromised base excision repair and non-homologous end-joining dependency. Structural variation burden (hazard ratio 3·9 [95 CI% 2·4–6·2]; p<0·0001), high levels of APOBEC signatures (2·5 [1·6–4·1]; p<0·0001), and TP53 drivers (3·9 [2·4–6·2]; p<0·0001) were independently prognostic of customary clinical measures (age at diagnosis, stage, and grade) in patients with ER-positive, HER2-negative breast cancer. We developed a prognosticator for ER-positive, HER2-negative breast cancer capable of identifying patients who require either increased intervention or therapy de-escalation, validating the framework in the independent Swedish Cancerome Analysis Network-Breast (SCAN-B) dataset.

Interpretation

We show that breast cancer genomes are rich in predictive and prognostic value. We propose a two-step model for effective clinical application. First, the identification of candidates for targeted therapies or clinical trials using highly individualised genomic markers. Second, for patients without such features, the implementation of enhanced prognostication using genomic features alongside existing clinical decision-making factors.

Funding

National Institute of Health Research, Breast Cancer Research Foundation, Dr Josef Steiner Cancer Research Award 2019, Basser Gray Prime Award 2020, Cancer Research UK, Sir Jeffrey Cheah Early Career Fellowship, the Mats Paulsson Foundation, the Fru Berta Kamprads Foundation, and the Swedish Research Council.

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与英国乳腺癌患者死亡率统计相关的全基因组数据的临床潜力：回顾性分析

背景乳腺癌是女性中最常见的癌症。生存率通常被认为是有利的，但一些患者仍然有早期死亡的风险。我们的目的是评估与死亡率数据相关的全面全基因组测序（WGS）是否可以为现有的临床测量增加预后价值，并确定可能对靶向治疗有反应的患者。方法在这项综合回顾性分析中，我们分析了2012年至2018年间通过隶属于10万基因组计划（100kGP）的13个英国国家卫生服务基因组医学中心或医院招募的2403名患者中收集的2445例乳腺癌肿瘤（任何分期和分子亚型）。我们将2208例（90%）病例与临床资料联系起来；获得了1188例患者的死亡率数据。在对肿瘤和匹配的正常DNA进行高深度WGS之后，我们进行了全面的WGS分析，寻找驱动突变、突变特征和同源重组修复缺陷（HRD）、错配修复缺陷和肿瘤突变负担的复合算法评分。来自三个独立队列的1803名乳腺癌患者的数据被用来验证各种发现。为了评估WGS特征的预后价值，我们对具有癌症特异性死亡终点的I-III期、er阳性、her2阴性乳腺癌患者（约5年随访）的数据进行了单变量和多变量Cox回归。在100kGP乳腺癌队列中的2445例肿瘤中，我们观察到656例（26.8%）具有立即个体化治疗潜力的基因组特征，包括报告HRD的特征（298例[12.2%]，er阳性，her2阴性病例76例[6.3%]），高度个体化的驱动事件，支持内分泌治疗耐药的突变，以及表明治疗脆弱性的突变特征。373例（15.2%）WGS具有潜在的转化研究特征，包括受损的碱基切除修复和非同源末端连接依赖。结构变异负担（风险比3.9 [95 CI% 2.4 - 6.2]; p< 0.0001）、高水平的APOBEC特征（2.5 [1.6 - 4.1];p< 0.0001）和TP53驱动因子（3.9 [2.4 - 6.2];p< 0.0001）是er阳性、her2阴性乳腺癌患者的常规临床指标（诊断年龄、分期和分级）的独立预后因素。我们开发了一种er阳性、her2阴性乳腺癌的预后器，能够识别需要增加干预或减少治疗的患者，并在独立的瑞典癌症基因组分析网络-乳腺（SCAN-B）数据集中验证了该框架。我们发现乳腺癌基因组具有丰富的预测和预后价值。我们提出了一个有效临床应用的两步模型。首先，使用高度个性化的基因组标记确定靶向治疗或临床试验的候选对象。其次，对于没有这些特征的患者，利用基因组特征和现有的临床决策因素来增强预后的实施。资助：美国国立卫生研究院、乳腺癌研究基金会、2019年约瑟夫·施泰纳博士癌症研究奖、2020年Basser Gray Prime奖、英国癌症研究中心、杰弗里·谢赫爵士早期职业奖学金、Mats Paulsson基金会、Fru Berta Kamprads基金会和瑞典研究委员会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Lancet Oncology

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