Targeted Genomic Sequencing of TSC1 and TSC2 Reveals Causal Variants in Individuals for Whom Previous Genetic Testing for Tuberous Sclerosis Complex Was Normal

IF 3.3 2区医学 Q2 GENETICS & HEREDITY

Human Mutation Pub Date : 2023-07-13 DOI:10.1155/2023/4899372

Hannah D. West, Mark Nellist, Rutger W. W. Brouwer, Mirjam C. G. N. van den Hout-van Vroonhoven, Luiz Gustavo Dufner de Almeida, Femke Hendriks, Peter Elfferich, Meera Raja, Peter Giles, Rosa M. Alfano, Angela Peron, Yves Sznajer, Liesbeth De Waele, Anna Jansen, Marije Koopmans, Anneke Kievit, Laura S. Farach, Hope Northrup, Julian R. Sampson, Laura E. Thomas, Wilfred F. J. van IJcken

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Abstract

Tuberous sclerosis complex (TSC) is caused by inactivating variants in TSC1 and TSC2. Somatic mosaicism, as well as the size and complexity of the TSC1 and TSC2 loci, makes variant identification challenging. Indeed, in some individuals with a clinical diagnosis of TSC, diagnostic testing fails to identify an inactivating variant. To improve TSC1 and TSC2 variant detection, we screened the TSC1 and TSC2 genomic regions using targeted HaloPlex custom capture and next-generation sequencing (NGS) in genomic DNA isolated from peripheral blood of individuals with definite, possible or suspected TSC in whom no disease-associated variant had been identified by previous diagnostic genetic testing. We obtained >95% target region coverage at a read depth of 20 and >50% coverage at a read depth of 300 and identified inactivating TSC1 or TSC2 variants in 83/155 individuals (54%); 65/113 (58%) with clinically definite TSC and 18/42 (43%) with possible or suspected TSC. These included 19 individuals with deep intronic variants and 54 likely cases of mosaicism (variant allele frequency 1-28%; median 7%). In 13 cases (8%), we identified a variant of uncertain significance (VUS). Targeted genomic NGS of TSC1 and TSC2 increases the yield of inactivating variants found in individuals with suspected TSC.

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TSC1和TSC2的靶向基因组测序揭示了先前结节性硬化症复合物基因检测正常的个体的因果变异

结节性硬化综合征（TSC）是由TSC1和TSC2中的失活变体引起的。体细胞嵌合体，以及TSC1和TSC2基因座的大小和复杂性，使变体识别具有挑战性。事实上，在一些临床诊断为TSC的个体中，诊断测试无法识别失活变体。为了改进TSC1和TSC2变体的检测，我们使用靶向HaloPlex定制捕获和下一代测序（NGS）在从患有明确、可能或疑似TSC的个体的外周血中分离的基因组DNA中筛选了TSC1和TSS2基因组区域，这些个体中先前的诊断基因测试未发现疾病相关变体。我们在20的读取深度下获得了>95%的靶区覆盖率，在300的读取深度上获得了>50%的覆盖率，并在83/155个个体中鉴定了失活的TSC1或TSC2变体（54%）；65/113（58%）有临床明确的TSC，18/42（43%）有可能或怀疑的TSC。其中包括19个具有深度内含子变异的个体和54个可能的嵌合体病例（变异等位基因频率1-28%；中位数7%）。在13例（8%）病例中，我们发现了一种意义不确定的变异（VUS）。TSC1和TSC2的靶向基因组NGS增加了在疑似TSC个体中发现的失活变体的产量。

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来源期刊

Human Mutation 医学-遗传学

CiteScore

8.40

自引率

5.10%

发文量

190

审稿时长

2 months

期刊介绍： Human Mutation is a peer-reviewed journal that offers publication of original Research Articles, Methods, Mutation Updates, Reviews, Database Articles, Rapid Communications, and Letters on broad aspects of mutation research in humans. Reports of novel DNA variations and their phenotypic consequences, reports of SNPs demonstrated as valuable for genomic analysis, descriptions of new molecular detection methods, and novel approaches to clinical diagnosis are welcomed. Novel reports of gene organization at the genomic level, reported in the context of mutation investigation, may be considered. The journal provides a unique forum for the exchange of ideas, methods, and applications of interest to molecular, human, and medical geneticists in academic, industrial, and clinical research settings worldwide.