Spinocerebellar Ataxia 2 and 12 Mutations in an Indian Family with Cerebellar Ataxia and Slow Saccades

A Novel co‐existence of SCA1 and SCA2 mutations in Indian patients

Background

Spinocerebellar ataxia 1 (SCA1) and SCA2 are dominantly inherited ataxias caused due to CAG expansion mutation in ATXN1 (CAG≥39) and ATXN2 (CAG≥32) genes located at 6p22.3 and 12q24.12 loci, respectively, with key manifestations of progressive limb and gait ataxia and with or without brain stem and pyramidal tract involvement. Both SCA1 and SCA2 are quite prevalent subtypes among the SCAs. There are very few reports that describe a combinatorial SCA subtype mutation in a single patient.

Cases

Here, we report a novel co-occurrence of SCA1 and SCA2 mutations in two unrelated patients. Case-1 was observed to carry ATXN1-CAG (30/40) and ATXN2-CAG (23/45), while case-2 harbored ATXN1-CAG (29/42) and ATXN2-CAG (23/41). Overall, the clinical outcome was complex with probable early onset than expected in Case-1 and in Case-2, we observed a significant delayed onset of the disease than expected.

Conclusion

These cases highlight the probabilistic interactive outcome of two unrelated genetic events towards a converging phenotype.

Genetics of Ataxias in Indian Population: A Collative Insight from a Common Genetic Screening Tool

Cerebellar ataxias (CAs) represent a group of autosomal dominant and recessive neurodegenerative disorders affecting cerebellum with or without spinal cord. Overall, CAs have preponderance for tandem nucleotide repeat expansions as an etiological factor (10 TREs explain nearly 30-40% of ataxia cohort globally). The experience of 10 years of common genetic ataxia subtypes for ≈5600 patients' referrals (Pan-India) received at a single center is shared herein. Frequencies (in %, n) of SCA types and FRDA in the sample cohort are observed as follows: SCA12 (8.6%, 490); SCA2 (8.5%, 482); SCA1 (4.8%, 272); SCA3 (2%, 113); SCA7 (0.5%, 28); SCA6 (0.1%, 05); SCA17 (0.1%, 05), and FRDA (2.2%, 127). A significant amount of variability in TRE lengths at each locus is observed, we noted presence of biallelic expansion, co-occurrence of SCA-subtypes, and the presence of premutable normal alleles. The frequency of mutated GAA-FRDA allele in healthy controls is 1/158 (0.63%), thus an expected FRDA prevalence of 1:100 000 persons. The data of this study are relevant not only for clinical decision making but also for guidance in direction of genetic investigations, transancestral comparison of genotypes, and lastly provide insight for policy decision for the consideration of SCAs under rare disease category.

Genetic etiology of a Chinese ataxia cohort: Expanding the mutational spectrum of hereditary ataxias

INTRODUCTION

Hereditary ataxias demonstrate a high degree of clinical and genetic heterogeneity. Understanding the genetic etiology of hereditary ataxias is crucial for genetic counseling and clinical management.

METHODS

The clinical and genetic data of patients with familial or sporadic ataxias who referred to our tertiary medical center were retrospectively analyzed. Probands in this study underwent SCA repeat expansion panel firstly to screen for repeat expansion SCAs; those with negative results had NGS-targeted panels or WES testing to detect conventional mutations.

RESULTS

A total of 223 patients were enrolled from 206 families. 5 kinds of coexisting SCA repeat expansions were observed (SCA3/SCA17, SCA3/SCA8, SCA2/SCA8, SCA3/SCA12 and SCA8/SCA12) in 12 patients from 8 families, among which SCA2/SCA8, SCA8/SCA12 and SCA3/SCA12 were reported for the first time. The coexistence of expanded SCA3 with SCA17 alleles was the most common in our study. NGS identified pathogenic/likely pathogenic variants in 12 ataxia causative genes in 13 probands. Spastic paraplegia ataxia was the most common diagnosis. Six novel mutations were detected in five ataxia-related genes.

CONCLUSION

Coexistence may not specific to a certain SCA subtype and the frequency might have been underestimated before. SCA repeat expansion panel should be considered in patients with overlapping SCA features. In addition, our study broadened the conventional mutation spectrum in ataxia-related genes. These results facilitate a better understanding of the genetic basis for hereditary ataxias.

Genetic testing for clinically suspected spinocerebellar ataxias: report from a tertiary referral centre in India

Spinocerebellar ataxias (SCAs) are a heterogeneous group of neurodegenerative syndromes, characterized by a wide range of muscular weakness and motor deficits, caused due to cerebellar degeneration. The prevalence of the syndromes of SCA varies across the world and is known to be linked to the instability of trinucleotide repeats within the high-end normal alleles, along with susceptible haplotype. We estimated sizes of the CAG or GAA repeat expansions at the SCA1, SCA2, SCA3, SCA12 and frataxin loci among 864 referrals of subjects to genetic counselling and testing (GCAT) clinic, National Institute of Mental Health and Neurosciences, Bengaluru, India, with suspected SCA. The most frequent mutations detected were SCA1 (n = 100 (11.6%)) and SCA2 (n = 98 (11.3%)) followed by SCA3 (n = 40 (4.6%)), FRDA (n = 20 (2.3%)) and SCA12 (n = 8 (0.9%)).