Lovelock Paul K, Wong Ee Ming, Sprung Carl N, Marsh Anna, Hobson Karen, French Juliet D, Southey Melissa, Sculley Tom, Pandeya Nirmala, Brown Melissa A, Chenevix-Trench Georgia, Spurdle Amanda B, McKay Michael J
School of Molecular and Microbial Sciences, University of Queensland, Brisbane, Australia.
Breast Cancer Res Treat. 2007 Sep;104(3):257-66. doi: 10.1007/s10549-006-9415-5. Epub 2006 Oct 25.
Assays to determine the pathogenicity of unclassified sequence variants in disease-associated genes include the analysis of lymphoblastoid cell lines (LCLs). We assessed the ability of several assays of LCLs to distinguish carriers of germline BRCA1 and BRCA2 gene mutations from mutation-negative controls to determine their utility for use in a diagnostic setting.
Post-ionising radiation cell viability and micronucleus formation, and telomere length were assayed in LCLs carrying BRCA1 or BRCA2 mutations, and in unaffected mutation-negative controls.
Post-irradiation cell viability and micronucleus induction assays of LCLs from individuals carrying pathogenic BRCA1 mutations, unclassified BRCA1 sequence variants or wildtype BRCA1 sequence showed significant phenotypic heterogeneity within each group. Responses were not consistent with predicted functional consequences of known pathogenic or normal sequences. Telomere length was also highly heterogeneous within groups of LCLs carrying pathogenic BRCA1 or BRCA2 mutations, and normal BRCA1 sequences, and was not predictive of mutation status.
Given the significant degree of phenotypic heterogeneity of LCLs after gamma-irradiation, and the lack of association with BRCA1 or BRCA2 mutation status, we conclude that the assays evaluated in this study should not be used as a means of differentiating pathogenic and non-pathogenic sequence variants for clinical application. We suggest that a range of normal controls must be included in any functional assays of LCLs to ensure that any observed differences between samples reflect the genotype under investigation rather than generic inter-individual variation.
用于确定疾病相关基因中未分类序列变异致病性的检测方法包括对淋巴母细胞系(LCLs)的分析。我们评估了几种LCLs检测方法区分种系BRCA1和BRCA2基因突变携带者与突变阴性对照的能力,以确定它们在诊断环境中的实用性。
对携带BRCA1或BRCA2突变的LCLs以及未受影响的突变阴性对照进行电离辐射后细胞活力、微核形成和端粒长度检测。
携带致病性BRCA1突变、未分类BRCA1序列变异或野生型BRCA1序列个体的LCLs经辐射后细胞活力和微核诱导检测显示,每组内均存在显著的表型异质性。反应与已知致病性或正常序列的预测功能后果不一致。在携带致病性BRCA1或BRCA2突变以及正常BRCA1序列的LCLs组中,端粒长度也高度异质,且不能预测突变状态。
鉴于γ射线照射后LCLs存在显著程度的表型异质性,且与BRCA1或BRCA2突变状态缺乏关联,我们得出结论,本研究中评估的检测方法不应作为区分致病性和非致病性序列变异以供临床应用的手段。我们建议,在LCLs的任何功能检测中都必须纳入一系列正常对照,以确保样本间观察到的任何差异反映的是所研究的基因型而非个体间的一般差异。
