ATM中一种新的Alu元素插入诱导可疑HBOC患者外显子跳跃

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Janin Klein, A. Allister, Gunnar Schmidt, Annette Otto, Kai Heinecke, Jördis Bax-Knoche, C. Beger, Sarah Becker, S. Bartels, T. Ripperger, J. Bohne, T. Dörk, B. Schlegelberger, W. Hofmann, D. Steinemann
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引用次数: 0

摘要

绝大多数有遗传性癌症和/或卵巢癌(HBOC)综合征风险的患者在常规基因检测后仍然没有分子诊断。一种通常被诊断管道遗漏的基因组改变是移动元件插入(MEIs)。在这里,我们使用MEI检测工具Mobster重新分析了疑似HBOC患者的多基因面板数据。ATM内含子54中的一个新的Alu元件插入(ATM:c.8010+30_8010+31insAluYa5)被鉴定为7名患者的潜在促成因子。来自三个杂合携带者的患者来源的RNA的转录分析显示,在总ATM转录物中,外显子54跳过了38%。为了显示Alu元件插入和异常剪接模式之间的直接关联,用野生型或携带Alu元件的小基因构建体转染HEK293T和MCF7细胞。平均而言,在存在Alu元件插入的情况下,77%的质粒衍生的转录物缺乏外显子54,而野生型小基因表达的转录物仅为4.7%。这些结果有力地表明ATM:c.8010+30_8010+31insAluYa5是ATM外显子54跳跃的主要驱动因素。由于这种外显子缺失被预测会导致移码和过早终止密码子,突变转录物不太可能翻译成功能蛋白。基于其在对照人群中高达0.05%的估计频率,我们建议考虑疑似HBOC患者中的ATM:c.8010+30_8010+31insAluYa5,并通过未来的流行病学和功能分析阐明其在致癌作用中的作用。一般来说,在诊断测序管道中实施MEI检测工具可以提高诊断效率,因为MEI可能被低估了对遗传疾病的贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Alu Element Insertion in ATM Induces Exon Skipping in Suspected HBOC Patients
The vast majority of patients at risk of hereditary breast and/or ovarian cancer (HBOC) syndrome remain without a molecular diagnosis after routine genetic testing. One type of genomic alteration that is commonly missed by diagnostic pipelines is mobile element insertions (MEIs). Here, we reanalyzed multigene panel data from suspected HBOC patients using the MEI detection tool Mobster. A novel Alu element insertion in ATM intron 54 (ATM:c.8010+30_8010+31insAluYa5) was identified as a potential contributing factor in seven patients. Transcript analysis of patient-derived RNA from three heterozygous carriers revealed exon 54 skipping in 38% of total ATM transcripts. To manifest the direct association between the Alu element insertion and the aberrant splice pattern, HEK293T and MCF7 cells were transfected with wild-type or Alu element-carrying minigene constructs. On average, 77% of plasmid-derived transcripts lacked exon 54 in the presence of the Alu element insertion compared to only 4.7% of transcripts expressed by the wild-type minigene. These results strongly suggest ATM:c.8010+30_8010+31insAluYa5 as the main driver of ATM exon 54 skipping. Since this exon loss is predicted to cause a frameshift and a premature stop codon, mutant transcripts are unlikely to translate into functional proteins. Based on its estimated frequency of up to 0.05% in control populations, we propose to consider ATM:c.8010+30_8010+31insAluYa5 in suspected HBOC patients and to clarify its role in carcinogenesis through future epidemiological and functional analyses. Generally, the implementation of MEI detection tools in diagnostic sequencing pipelines could increase the diagnostic yield, as MEIs are likely underestimated contributors to genetic diseases.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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