Molecular Diagnostics Laboratory, INRaSTES, National Center for Scientific Research "Demokritos", Athens, Greece.
Laboratory of Environmental Mutagenesis and Carcinogenesis, Institute of Biosciences and Applications, National Centre for Scientific Research "Demokritos", Athens, Greece.
Hum Mutat. 2019 May;40(5):631-648. doi: 10.1002/humu.23728. Epub 2019 Mar 9.
Genetic testing for cancer predisposition leads to the identification of a number of variants with uncertain significance. To some extent, variants of BRCA1/2 have been classified, in contrast to variants of other genes. CHEK2 is a typical example, in which a large number of variants of unknown clinical significance were identified and still remained unclassified. Herein, the CHEK2 variant assessment was performed through an in vivo, yeast-based, functional assay. In total, 120 germline CHEK2 missense variants, distributed along the protein sequence, and two large in-frame deletions were tested, originating from genetic test results in breast cancer families, or selected from the ClinVar database. Of these, 32 missense and two in-frame deletions behaved as non-functional, 73 as functional, and 15 as semi-functional, after comparing growth rates of each strain with positive and negative controls. The majority of non-functional variants were localized in the CHK2 kinase and forkhead-associated domains. In vivo results from the non-functional variants were in agreement with in silico predictions, and, where available, with strong breast cancer family history, to a great extent. The results of the largest, to date, yeast-based assay, evaluating CHEK2 variants, can complement and assist in the classification of rare CHEK2 variants with unclear clinical significance.
遗传性癌症易感性检测可鉴定出许多具有不确定意义的变体。在某种程度上,BRCA1/2 变体已经被分类,而其他基因的变体则不然。CHEK2 就是一个典型的例子,其中鉴定出了大量具有未知临床意义的变体,仍然未被分类。在此,通过基于酵母的体内功能测定对 CHEK2 变体进行了评估。共测试了分布在蛋白质序列上的 120 种胚系 CHEK2 错义变体和两种大型框内缺失,这些变体源自乳腺癌家族的基因检测结果,或从 ClinVar 数据库中选择。其中,32 种错义变体和两种框内缺失没有表现出功能,73 种表现出功能,15 种表现为半功能,通过比较每个菌株与阳性和阴性对照的生长速率来判断。大多数无功能变体位于 CHK2 激酶和 forkhead 相关结构域。无功能变体的体内结果在很大程度上与计算机预测结果以及具有强烈乳腺癌家族史的结果一致。迄今为止,最大的基于酵母的 CHEK2 变体评估试验的结果,可以补充和辅助具有不明确临床意义的罕见 CHEK2 变体的分类。
