1. Expanding the phenotype of AFG3L2 mutations: Late-onset autosomal recessive spinocerebellar ataxia.
- Author
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Chiang, Han-Lin, Fuh, Jong-Ling, Tsai, Yu-Shuen, Soong, Bing-Wen, Liao, Yi-Chu, and Lee, Yi-Chung
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SPINOCEREBELLAR ataxia , *CEREBELLAR ataxia , *PHENOTYPES , *ATAXIA , *SCARS , *TAIWANESE people - Abstract
The AFG3L2 gene encodes AFG3-like protein 2, which is a subunit of human mitochondrial ATPases associated with various cellular protease activities (m-AAA). The clinical spectrum of AFG3L2 mutations is broad. Dominant AFG3L2 mutations can cause autosomal dominant spinocerebellar ataxia type 28 (SCA28), whereas biallelic AFG3L2 mutations may lead to spastic ataxia 5 (SPAX5). However, the role of AFG3L2 mutations in autosomal recessive spinocerebellar ataxia (SCAR) remains elusive. The aim of this study is to delineate the clinical features and spectrum of AFG3L2 mutations in a Taiwanese cohort with cerebellar ataxia. Mutational analyses of AFG3L2 were carried out by targeted resequencing in a cohort of 133 unrelated patients with molecularly undetermined cerebellar ataxia. We identified one single patient carrying compound heterozygous mutations in AFG3L2 , p.[R632*];[V723M] (c.[1894C > T];[2167G > A]). The patient has suffered from apparently sporadic and slowly progressive cerebellar ataxia, ptosis, and ophthalmoparesis since age 55 years. These findings expand the clinical spectrum of AFG3L2 mutations and suggest a new subtype of late-onset SCAR caused by biallelic AFG3L2 mutations. [Display omitted] • Biallelic AFG3L2 mutations cause autosomal recessive cerebellar ataxias (SCARs). • AFG3L2 -related ataxias are rare in Asia. • Ataxia, ptosis, ophthalmoparesis, and hyperreflexia, hint AFG3L2 -related ataxias. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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