将肌肉RNA测序技术应用于临床以诊断肌肉疾病。

Translating Muscle RNAseq Into the Clinic for the Diagnosis of Muscle Diseases.

作者信息

Segarra-Casas Alba, Domínguez-González Cristina, Natera-de Benito Daniel, Kapetanovic Solange, Hernández-Laín Aurelio, Estévez-Arias Berta, Llansó Laura, Ortez Carlos, Jou Cristina, Martí-Carrera Itxaso, López-Márquez Arístides, Rodríguez Maria José, González-Mera Laura, Nedkova Velina, Fernández-Torrón Roberto, Rodríguez-Santiago Benjamín, Jimenez-Mallebrera Cecília, Juntas-Morales Raul, López-de Munain Adolfo, Surrallés Jordi, Nascimento Andrés, Gallardo Eduard, Olivé Montse, Gallano Pia, González-Quereda Lidia

机构信息

Join Research Unit on Genomic Medicine Universitat Autonòma de Barcelona-IR SANT PAU, Barcelona, Spain.

Genetics Department, Institut de Recerca Sant Pau (IR SANT PAU), Hospital de la Santa Creu i Sant Pau, Barcelona, Spain.

出版信息

Ann Clin Transl Neurol. 2025 Jul;12(7):1465-1479. doi: 10.1002/acn3.70078. Epub 2025 May 25.

DOI:10.1002/acn3.70078

PMID:40413734

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12257123/

Abstract

OBJECTIVE

Approximately half of patients with hereditary myopathies remain without a definitive genetic diagnosis after DNA next-generation sequencing (NGS). Here, we implemented transcriptome analysis of muscle biopsies as a complementary diagnostic tool for patients with muscle disease but no definitive genetic diagnosis after exome sequencing.

METHODS

In total, 70 undiagnosed cases with suspected genetic muscular dystrophies or congenital myopathies were included in the study. Muscle RNAseq comprised the analysis of aberrant splicing, aberrant expression, and monoallelic expression. In addition, existing NGS data or variant calling from RNAseq were reanalyzed, and genome sequencing was performed in selected cases. Four aberrant splicing open-source tools were compared and assessed.

RESULTS

RNAseq established a diagnosis in 10/70 patients (14.3%) by identifying aberrant transcripts produced by single nucleotide variants (7/10) or copy number variants (3/10). Reanalysis of NGS data allowed the diagnosis in 9/70 individuals (12.9%). Based on this cohort, FRASER was the tool that reported more splicing outlier events per sample while showing the highest accuracy (81.26%).

CONCLUSIONS

We demonstrate the utility of RNAseq in identifying causative variants in muscle diseases. Evaluation of four aberrant splicing tools allowed efficient identification of most pathogenic splicing events, obtaining a manageable number of candidate events for manual inspection, demonstrating feasibility for translation into a clinical setting. We also show how the integration of omic technologies reduces the turnaround time to identify causative variants.

摘要

目的

在进行DNA二代测序（NGS）后，约半数遗传性肌病患者仍未得到明确的基因诊断。在此，我们开展了肌肉活检的转录组分析，作为对经外显子组测序后仍未得到明确基因诊断的肌肉疾病患者的补充诊断工具。

方法

本研究共纳入70例疑似遗传性肌营养不良或先天性肌病但未确诊的病例。肌肉RNA测序包括对异常剪接、异常表达和单等位基因表达的分析。此外，对现有的NGS数据或RNA测序的变异检测结果进行重新分析，并对部分病例进行基因组测序。对四种异常剪接的开源工具进行了比较和评估。

结果

通过识别由单核苷酸变异（7/10）或拷贝数变异（3/10）产生的异常转录本，RNA测序在10/70例患者（14.3%）中明确了诊断。对NGS数据的重新分析使9/70例个体（12.9%）得以确诊。基于该队列，FRASER是每个样本报告更多剪接异常事件且准确性最高（81.26%）的工具。

结论

我们证明了RNA测序在识别肌肉疾病致病变异方面的效用。对四种异常剪接工具的评估能够有效识别大多数致病性剪接事件，获得数量可控的候选事件以供人工检查，证明了转化应用于临床的可行性。我们还展示了组学技术的整合如何缩短识别致病变异的周转时间。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ed3c/12257123/682f2f7ef04f/ACN3-12-1465-g003.jpg

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将肌肉RNA测序技术应用于临床以诊断肌肉疾病。

Translating Muscle RNAseq Into the Clinic for the Diagnosis of Muscle Diseases.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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