Abstract
New advances in genomic technology are being introduced at a greater speed and are revolutionizing the field of genetics for both complex and Mendelian diseases. For instance, during the past few years, genome-wide association studies (GWAS) have identified a large number of significant associations between genomic loci and movement disorders such as Parkinson’s disease and progressive supranuclear palsy. GWAS are carried out through the use of high-throughput SNP genotyping arrays, which are also used to perform linkage analyses in families previously considered statistically underpowered for genetic analyses. In inherited movement disorders, using this latter technology, it has repeatedly been shown that mutations in a single gene can lead to different phenotypes, while the same clinical entity can be caused by mutations in different genes. This is being highlighted with the use of next-generation sequencing technologies and leads to the search for genes or genetic modifiers that contribute to the phenotypic expression of movement disorders. Establishing an accurate genome–epigenome–phenotype relationship is becoming a major challenge in the post-genomic research that should be facilitated through the implementation of both functional and cellular analyses. In this review, we summarize the latest genetic discoveries made by the use of NGS technologies and purpose future directions and challenges to truly understand the pathophysiology of MDs.
Highlights
We summarize the latest genetic discoveries made by the use of next-generation sequencing (NGS) technologies and purpose future directions and challenges to truly understand the pathophysiology of Movement disorders (MDs)
Next-generation sequencing technologies enable a comprehensive analysis of the entire genome and exome and as such have dramatically progressed the field of biological and biomedical research, especially in Mendelian diseases
Linkage analysis was performed years before the gene identification but the causal gene did not come to light until the use of NGS technologies
Summary
Movement disorders (MDs) are a group of diseases and syndromes affecting the ability to produce and control movement. Spastic paraplegias are a group of MDs characterized by progressive spasticity in the lower limbs They are classified as pure when consisting mainly of spasticity, abnormal reflexes, and motor deficits, or complex when a wide range of neurological symptoms are present (Salinas et al, 2008). They can arise from mutations in at least 23 genes, with more still being discovered, as 48 SPG loci have already been reported. A mutation in the vacuolar protein sorting 35 (VPS35), p.Asp620Asn, identified by two independent groups in PD patients (Vilarino-Guell et al, 2011; Zimprich et al, 2011), has both been replicated and failed to be replicated in recent studies
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