Department of Medical & Molecular Genetics, King's College London, Faculty of Life Sciences & Medicine, London, United Kingdom.
Department of Genetics and Genome Biology at the University of Leicester, Leicester, United Kingdom.
PLoS One. 2021 Dec 2;16(12):e0260852. doi: 10.1371/journal.pone.0260852. eCollection 2021.
Establishing a universally applicable protocol to assess the impact of BRCA1 variants of uncertain significance (VUS) expression is a problem which has yet to be resolved despite major progresses have been made. The numerous difficulties which must be overcome include the choices of cellular models and functional assays. We hypothesised that the use of induced pluripotent stem (iPS) cells might facilitate the standardisation of protocols for classification, and could better model the disease process. We generated eight iPS cell lines from patient samples expressing either BRCA1 pathogenic variants, non-pathogenic variants, or BRCA1 VUSs. The impact of these variants on DNA damage repair was examined using a ɣH2AX foci formation assay, a Homologous Repair (HR) reporter assay, and a chromosome abnormality assay. Finally, all lines were tested for their ability to differentiate into mammary lineages in vitro. While the results obtained from the two BRCA1 pathogenic variants were consistent with published data, some other variants exhibited differences. The most striking of these was the BRCA1 variant Y856H (classified as benign), which was unexpectedly found to present a faulty HR repair pathway, a finding linked to the presence of an additional variant in the ATM gene. Finally, all lines were able to differentiate first into mammospheres, and then into more advanced mammary lineages expressing luminal- or basal-specific markers. This study stresses that BRCA1 genetic analysis alone is insufficient to establish a reliable and functional classification for assessment of clinical risk, and that it cannot be performed without considering the other genetic aberrations which may be present in patients. The study also provides promising opportunities for elucidating the physiopathology and clinical evolution of breast cancer, by using iPS cells.
建立一个普遍适用的方案来评估 BRCA1 意义不明变异体(VUS)表达的影响是一个尚未解决的问题,尽管已经取得了重大进展。必须克服的众多困难包括细胞模型和功能测定的选择。我们假设诱导多能干细胞(iPS)的使用可能有助于分类方案的标准化,并能更好地模拟疾病过程。我们从表达 BRCA1 致病性变异体、非致病性变异体或 BRCA1 VUS 的患者样本中生成了 8 个 iPS 细胞系。使用γH2AX 焦点形成测定、同源重组(HR)报告测定和染色体异常测定来检查这些变异体对 DNA 损伤修复的影响。最后,所有细胞系都在体外进行了向乳腺谱系分化的能力测试。虽然从两个 BRCA1 致病性变异体获得的结果与已发表的数据一致,但其他一些变异体表现出差异。最引人注目的是 BRCA1 变异体 Y856H(分类为良性),出乎意料的是,它表现出 HR 修复途径的缺陷,这一发现与 ATM 基因中存在另一个变异体有关。最后,所有细胞系都能够首先分化为乳腺球体,然后进一步分化为表达腔面或基底特异性标志物的更高级乳腺谱系。这项研究强调,仅进行 BRCA1 基因分析不足以建立一个可靠和功能性的分类来评估临床风险,并且在不考虑患者中可能存在的其他遗传异常的情况下,不能进行这种分析。该研究还为使用 iPS 细胞阐明乳腺癌的病理生理学和临床演变提供了有希望的机会。
