缩短读长二代测序检测 5q-脊髓性肌萎缩症：一个诊断患者队列中的意外结果

Closing the Gap - Detection of 5q-Spinal Muscular Atrophy by Short-Read Next-Generation Sequencing and Unexpected Results in a Diagnostic Patient Cohort.

机构信息

Medical Genetics Center, Munich, Germany.

Institute of Neurogenomics, Helmholtz Center Munich, Neuherberg, Germany.

出版信息

J Neuromuscul Dis. 2023;10(5):835-846. doi: 10.3233/JND-221668.

DOI:10.3233/JND-221668

PMID:37424474

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10578226/

Abstract

BACKGROUND

The importance of early diagnosis of 5q-Spinal muscular atrophy (5q-SMA) has heightened as early intervention can significantly improve clinical outcomes. In 96% of cases, 5q-SMA is caused by a homozygous deletion of SMN1. Around 4 % of patients carry a SMN1 deletion and a single-nucleotide variant (SNV) on the other allele. Traditionally, diagnosis is based on multiplex ligation probe amplification (MLPA) to detect homozygous or heterozygous exon 7 deletions in SMN1. Due to high homologies within the SMN1/SMN2 locus, sequence analysis to identify SNVs of the SMN1 gene is unreliable by standard Sanger or short-read next-generation sequencing (srNGS) methods.

OBJECTIVE

The objective was to overcome the limitations in high-throughput srNGS with the aim of providing SMA patients with a fast and reliable diagnosis to enable their timely therapy.

METHODS

A bioinformatics workflow to detect homozygous SMN1 deletions and SMN1 SNVs on srNGS analysis was applied to diagnostic whole exome and panel testing for suggested neuromuscular disorders (1684 patients) and to fetal samples in prenatal diagnostics (260 patients). SNVs were detected by aligning sequencing reads from SMN1 and SMN2 to an SMN1 reference sequence. Homozygous SMN1 deletions were identified by filtering sequence reads for the ,, gene-determining variant" (GDV).

RESULTS

10 patients were diagnosed with 5q-SMA based on (i) SMN1 deletion and hemizygous SNV (2 patients), (ii) homozygous SMN1 deletion (6 patients), and (iii) compound heterozygous SNVs in SMN1 (2 patients).

CONCLUSIONS

Applying our workflow in srNGS-based panel and whole exome sequencing (WES) is crucial in a clinical laboratory, as otherwise patients with an atypical clinical presentation initially not suspected to suffer from SMA remain undiagnosed.

摘要

背景

5q-脊髓性肌萎缩症（5q-SMA）的早期诊断至关重要，因为早期干预可以显著改善临床结局。在 96%的病例中，5q-SMA 是由 SMN1 基因的纯合缺失引起的。约 4%的患者携带 SMN1 缺失和另一条等位基因上的单个核苷酸变异（SNV）。传统上，诊断基于多重连接探针扩增（MLPA）来检测 SMN1 中外显子 7 的纯合或杂合缺失。由于 SMN1/SMN2 基因座内的高度同源性，通过标准的 Sanger 或短读长下一代测序（srNGS）方法对 SMN1 基因的 SNV 进行序列分析是不可靠的。

目的

本研究旨在克服高通量 srNGS 的局限性，为 SMA 患者提供快速可靠的诊断，以便及时进行治疗。

方法

应用生物信息学工作流程检测 srNGS 分析中 SMN1 的纯合缺失和 SMN1 SNV，用于诊断性全外显子组和针对建议的神经肌肉疾病的面板检测（1684 例患者）以及产前诊断中的胎儿样本（260 例患者）。通过将来自 SMN1 和 SMN2 的测序reads 与 SMN1 参考序列对齐来检测 SNV。通过筛选用于“基因决定变异”（GDV）的 SMN1 序列reads 来鉴定 SMN1 纯合缺失。

结果

根据（i）SMN1 缺失和杂合 SNV（2 例）、（ii）SMN1 纯合缺失（6 例）和（iii）SMN1 复合杂合 SNVs（2 例），10 例患者被诊断为 5q-SMA。

结论

在临床实验室中，应用我们的 srNGS 面板和全外显子组测序（WES）工作流程至关重要，否则，最初未怀疑患有 SMA 的临床表现不典型的患者仍未得到诊断。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d1f/10578226/11cd9158de28/jnd-10-jnd221668-g001.jpg

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缩短读长二代测序检测 5q-脊髓性肌萎缩症：一个诊断患者队列中的意外结果

Closing the Gap - Detection of 5q-Spinal Muscular Atrophy by Short-Read Next-Generation Sequencing and Unexpected Results in a Diagnostic Patient Cohort.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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