Rare forms of autosomal recessive spinocerebellar ataxia associated with mutations in the ANO10 (ATX-ANO10) and SYNE1 (ATX-SYNE1) genes

Objective: To analyze clinical and genetic characteristics of patients with the verified rare forms of autosomal recessive spinocerebellar ataxias, ATX-ANO10 and ATX-SYNE1.

Methods: Six unrelated patients with established diagnoses were examined: 4 patients with ATX-ANO10 and 2 patients with ATX-SYNE1. Brain MRI and nerve conduction study were performed. To screen for cognitive impairment, the scale for the Assessment and Rating of Ataxia (SARA), and the Montreal Cognitive Assessment Scale (MoCA) were used. Mutation screening included panel sequencing on the Illumina MiSeq platform.

Results: Six variants were found in the ANO10 gene: the previously described pathogenic nonsense mutations c.G1025A (p.W342X) and c.C1244G (p.S415X), as well as novel probably pathogenic variants c.1477-2A>G and c.G101T (p.W34L) and missense mutations c.A110C (p.N37T) and c.T104C (p.L35P) of undetermined significance. A novel nonsense mutation c.C8911T (p.Q2971X) and a previously described pathogenic variant c.C4939T (p.Q1647X) were found in the SYNE1 gene. The clinical presentation of the ATX-ANO10 and ATX-SYNE1 was typical presenting with slowly progressive cerebellar ataxia with pyramidal signs, with young onset and cerebellar atrophy according to brain MRI study.

Conclusions: We provided first-ever data on clinical features and mutation spectrum In Russian patients with ATX-ANO10 and ATX-SYNE1. The phenotype of these ataxias is nonspecific, so the method of choice for molecular diagnostics is massive parallel sequencing.