Overcoming the divide between ataxias and spastic paraplegias: Shared phenotypes, genes, and pathways

Synofzik, Matthis; Schüle, Rebecca

doi:10.1002/mds.26944

Cited by 147 publications

(135 citation statements)

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“…Increasing availability of next-generation exome sequencing has allowed expansion of the clinical phenotype of various conditions. HSP and SCA are two such conditions in which next-generation sequencing has identified genes that manifest pathology along a continuum of the two disorders 3. This shared genetic background re-contextualises our traditional view of HSP and SCA as being separate clinical entities.…”

Section: Discussionmentioning

confidence: 94%

“…As more genes are identified in association with these conditions—largely via next-generation exome sequencing—we are seeing increasing genetic overlap between these disorders. This ‘ataxia–spasticity spectrum’ of gene disorders, as described by Synofzik and Schüle, comprises at least 69 genes, mostly inherited in an autosomal recessive manner 3 . CAPN1 is one of these genes that typically manifests as disorders on a spectrum of spasticity and ataxia, often with predominant features of both.…”

Section: Discussionmentioning

confidence: 99%

“…Additionally, there are seven identified families with CAPN1 mutations with an autosomal recessive variant of hereditary spastic paraplegia (HSP) 3. SCA and HSP have historically been regarded as distinct clinical entities but they are increasingly recognised to have overlapping phenotypes.…”

Section: Introductionmentioning

confidence: 99%

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CAPN1 mutations broadening the hereditary spastic paraplegia/spinocerebellar ataxia phenotype

et al. 2018

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Increasing availability of next-generation sequencing technologies has revealed several limitations of diagnosis-driven traditional clinicogenetic disease classifications, particularly among patients with an atypical or mixed phenotype. Hereditary spastic paraplegia (HSP) and spinocerebellar ataxia (SCA) are two such disease entities with an often overlapping presentation, in which next generation exome sequencing has played a key role in identification of genes causing disease along a continuum of ataxia and spasticity. We describe a patient who presented with features of both ataxia and spasticity, in whom initial diagnostic testing was inconclusive. Ultimately next generation exome sequencing identified homozygosity for a pathogenic variant in exon 13 of the CAPN1 gene c.1534C>T(p.Arg512Cys). This case supports consideration of a less discriminatory classification system among such patients, potentially allowing for more expedient diagnosis through testing of a larger gene panel along the ‘ataxia-spasticity spectrum’.

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Section: Discussionmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

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CAPN1 mutations broadening the hereditary spastic paraplegia/spinocerebellar ataxia phenotype

et al. 2018

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“…For example, the classification of autosomal recessive spinocerebellar ataxias's (SCAR) (for SCA‐recessive) is far from complete, mainly consisting of relatively newer entities (the most common recessive ataxia, Friedreich ataxia, is not included) and also contains unconfirmed entities. Moreover, this SCAR classification is partly paralleled and duplicated, yet with different numbers, by another autosomal recessive cerebellar ataxia (ARCA) classification, the ARCA classification (for a recent criticism of these autosomal recessive ataxia nomenclatures, see the review by Synofzik and Schule). These problems of existing incomplete, inconsistent, and partly parallel nomenclatures are not unique to recessive ataxias, as the classifications of other genetic movement disorders are similarly flawed .…”

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confidence: 99%

The genetic nomenclature of recessive cerebellar ataxias

et al. 2018

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The recessive cerebellar ataxias are a large group of degenerative and metabolic disorders, the diagnostic management of which is difficult because of the enormous clinical and genetic heterogeneity. Because of several limitations, the current classification systems provide insufficient guidance for clinicians and researchers. Here, we propose a new nomenclature for the genetically confirmed recessive cerebellar ataxias according to the principles and criteria laid down by the International Parkinson and Movement Disorder Society Task Force on Classification and Nomenclature of Genetic Movement Disorders. We apply stringent criteria for considering an association between gene and phenotype to be established. The newly proposed list of recessively inherited cerebellar ataxias includes 62 disorders that were assigned an ATX prefix, followed by the gene name, because these typically present with ataxia as a predominant and/or consistent feature. An additional 30 disorders that often combine ataxia with a predominant or consistent other movement disorder received a double prefix (e.g., ATX/HSP). We also identified a group of 89 entities that usually present with complex nonataxia phenotypes, but may occasionally present with cerebellar ataxia. These are listed separately without the ATX prefix. This new, transparent and adaptable nomenclature of the recessive cerebellar ataxias will facilitate the clinical recognition of recessive ataxias, guide diagnostic testing in ataxia patients, and help in interpreting genetic findings. © 2018 International Parkinson and Movement Disorder Society.

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“…Historically, the differentiation between HSPs and inherited ataxias has been the most challenging. The most common ataxia worldwide, SCA3, as well as other autosomal dominant ataxias (examples: SCA1, SCA2, SCA6, SCA7), are frequently accompanied by pyramidal signs, and spastic paraparesis can be the inaugural symptom 8,9,10 . In regard to the AR group, absent reflexes are a hallmark of its most frequent subtype, Friedreich's ataxia.…”

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confidence: 99%