Clinical Research Directory

Long-read Genome Sequencing for the Molecular Diagnosis of Dystonia

Dystonia is a motor disorder caused by involuntary, intermittent, or sustained muscle contractions, leading to abnormal movements or postures. It can affect any body region and often results in significant functional disability and healthcare burden. Although its familial nature was recognized early on, the advent of high-throughput DNA sequencing has dramatically increased the identification of dystonia-associated genes. Dystonia now encompasses all modes of inheritance-autosomal dominant (e.g., TOR1A, KMT2B), autosomal recessive, X-linked, and mitochondrial-and over 100 genes have been implicated. Many forms involve structural variants (SVs) or copy number variations (CNVs), which are challenging to detect using standard short-read sequencing (srWGS). Molecular diagnosis is essential, ending the diagnostic odyssey and enabling genetic counseling, prognosis, reproductive planning, and-in some cases-targeted therapies. For instance, GNAO1-related dystonia may respond to deep brain stimulation, while dopa-responsive dystonia benefits from levodopa. Despite advances, srWGS has key limitations, especially for detecting repeat expansions, SVs, and phasing alleles. This likely explains the low diagnostic yield in dystonia compared to other neurological disorders, with over 70% of cases remaining unsolved. Long-read sequencing (lrWGS), such as Oxford Nanopore technology, overcomes many of these challenges by reading native DNA fragments thousands of bases long. It enables comprehensive detection of SNVs, indels, SVs, CNVs, methylation changes, and repeat expansions-including known and newly discovered pathogenic expansions (e.g., in NOTCH2NLC). It also allows phasing without parental samples, which is crucial in recessive cases. The investigators propose that lrWGS could significantly increase the diagnostic yield in dystonia, improving patient care, enabling appropriate genetic counseling, and paving the way for personalized treatment strategies.