Department of Genetics, Harvard Medical School, Boston, MA 02115.
Howard Hughes Medical Institute, Harvard Medical School, Boston, MA 02115.
Proc Natl Acad Sci U S A. 2017 Jul 18;114(29):7689-7694. doi: 10.1073/pnas.1707741114. Epub 2017 Jul 5.
Genetic variants that cause haploinsufficiency account for many autosomal dominant (AD) disorders. Gene-based diagnosis classifies variants that alter canonical splice signals as pathogenic, but due to imperfect understanding of RNA splice signals other variants that may create or eliminate splice sites are often clinically classified as variants of unknown significance (VUS). To improve recognition of pathogenic splice-altering variants in AD disorders, we used computational tools to prioritize VUS and developed a cell-based minigene splicing assay to confirm aberrant splicing. Using this two-step procedure we evaluated all rare variants in two AD cardiomyopathy genes, lamin A/C () and myosin binding protein C (). We demonstrate that 13 and 35 variants identified in cardiomyopathy patients alter RNA splicing, representing a 50% increase in the numbers of established damaging splice variants in these genes. Over half of these variants are annotated as VUS by clinical diagnostic laboratories. Familial analyses of one variant, a synonymous VUS, demonstrated segregation with cardiomyopathy affection status and altered cardiac splicing. Application of this strategy should improve diagnostic accuracy and variant classification in other haploinsufficient AD disorders.
导致单倍体不足的遗传变异导致许多常染色体显性(AD)疾病。基于基因的诊断将改变经典剪接信号的变异归类为致病性,但由于对 RNA 剪接信号的理解不完美,其他可能创建或消除剪接位点的变异通常被临床归类为意义不明的变异(VUS)。为了提高对 AD 疾病中致病性剪接改变变异的识别,我们使用计算工具对 VUS 进行优先级排序,并开发了基于细胞的小型基因剪接测定法来确认异常剪接。使用这两步程序,我们评估了两个 AD 心肌病基因,核纤层蛋白 A/C () 和肌球蛋白结合蛋白 C () 中的所有罕见变异。我们证明,在心肌病患者中鉴定出的 13 个 和 35 个变异改变了 RNA 剪接,这代表这些基因中已建立的有害剪接变异数量增加了 50%。这些变异中有一半以上被临床诊断实验室注释为 VUS。对一个变异的家族分析,一个同义的 VUS,证明与心肌病发病状态和心脏剪接的改变有关。该策略的应用应提高其他单倍体不足的 AD 疾病的诊断准确性和变异分类。
