A case report of late-onset cerebellar ataxia associated with a rare p.R342W TGM6 (SCA35) mutation.

BACKGROUND: Mutations in TGM6 gene, encoding for transglutaminase 6 (TG6), have been implicated in the pathogenesis of spinocerebellar ataxia type 35 (SCA35), a rare autosomal dominant disease marked by cerebellar degeneration and characterized by postural instability, incoordination of gait, features of cerebellar dysfunction and pyramidal signs. CASE PRESENTATION: Here we report the case of an Italian patient with late-onset, slowly progressive cerebellar features, including gait ataxia, scanning speech and ocular dysmetria and pyramidal tract signs. Whole exome sequencing revealed the rare heterozygous c.1024C > T (p.R342W) variant of TGM6, located at a highly evolutionary conserved position and predicted as pathogenic by in silico tools. Expression of TG6-R342W mutant in HEK293T cells led to a significant reduction of transamidase activity compared to wild-type TG6. CONCLUSION: This finding extends SCA35 genetic landscape, highlighting the importance of TGM6 screening in undiagnosed late-onset and slowly progressive cerebellar ataxias.

Hispanic Spinocerebellar Ataxia Type 35 (SCA35) with a Novel Frameshift Mutation.

Genetic mutations in transglutaminase 6 (TGM6) are recently identified to be associated with spinocerebellar ataxia type 35 (SCA35). We report a Hispanic SCA35 patient, who was confirmed to have a heterozygous, single-nucleotide deletion in TGM6, causing a frameshift mutation with a premature stop codon. An immune-mediated ataxia previously found to be associated with autoantibody reactivity to TG6 may share a similar pathomechanism to SCA35, suggesting a converging role for TG6 in cerebellar function.

TGM6 might not be a specific causative gene for spinocerebellar ataxia resulting from genetic analysis and functional study.

OBJECTIVE: To investigate whether TGM6 is a specific causative gene for spinocerebellar ataxia type 35 (SCA35). MATERIALS AND METHODS: The next-generation sequencing (NGS) data consisted of 47 SCA, 762 non-SCA patients and 2827 normal controls were analyzed. The allele frequencies of low frequent and deleterious TGM6 variants were compared. Functional studies were performed in five widely distributed variants (V314M, R342Q, P347L, V391M, L517W). RESULTS: Two TGM6 detrimental variants were identified in one SCA patient, 14 in non-SCA patients and 43 in normal controls, the allele frequencies of TGM6 variants did not differ among the SCA and other controls. Seven reported pathogenic variants (c.7 + 1G > T, c.331C > T, c.1171G > A, c.1478C > T, c.1528G > C, c.1550 T > G and c.1722_1724delAGA) were identified in patients with various neurologic diseases or normal controls. All the 5 widely distributed variants led to destabilization and significantly reduction of enzymatic activity of TG6 as the reported pathogenic mutations. CONCLUSIONS: TGM6 might not be a specific causative gene for SCA35, the relevant clinical consult or diagnostic should be pay more attention.

Clinical Spectrum of TGM6-Related Movement Disorders: A New Report with a Pooled Analysis of 48 Patients.

Background Spinocerebellar ataxias (SCAs) are a diverse group of progressive neurodegenerative disorders. Until now, more than 20 genes have been implicated to be associated with this phenotype and TGM6 is one of these genes, associated with spinocerebellar ataxia-35 (SCA-35). The majority of disease-causing variants in the TGM6 gene predominantly have been reported from China and Taiwan and the association with Parkinson's disease (PD) have also been reported recently. Methods We report the first Indian case with SCA-35 in a 16-year-old-boy with atypical age of onset at 9 years, prominent extrapyramidal features, intellectual disability, and a novel missense mutation in the TGM6 gene. We also reviewed and collated all previously published cases with pathogenic TGM6 variants. Results Including the index case, 54 cases were identified from 10 relevant articles in literature and 48 cases had adequate clinical details to be included in the pooled analysis. Around two-thirds of reported cases had SCA-35 phenotype, with cerebellar atrophy. Onset in the majority of cases was the fourth decade of life onwards. A proportion of SCA-35 cases also had spasmodic torticollis, impaired proprioception, extrapyramidal features, and myoclonic jerks. The patients with PD had often early-onset milder symptoms, slower progression, and favorable response to levodopa/carbidopa. One patient each presented with episodic ataxia and dystonic tremor of the upper limb. Most of the cases had missense mutations, without any definite hotspot or genotype-phenotype correlation. Conclusions TGM6 mutation should be suspected in patients with SCA like presentation, especially when it is accompanied by extrapyramidal features, spasmodic torticollis, impaired proprioception, or myoclonus.

A significant inflation in TGM6 genetic risk casts doubt in its causation in spinocerebellar ataxia type 35.

Spinocerebellar ataxia 35 (SCA35) has been associated with pathogenic mutations in the gene TGM6. In a Chinese exome sequencing cohort, we identified 8 families with reported TGM6 variants sharing no features of SCA35. Considering this finding, we reviewed the public database gnomAD and found these variants to be significantly more common in the East Asians than in other ethnic groups (P < 0.0001). Gene constraint metrics showed that both missense and loss-of-function variants in TGM6 are likely to be tolerated and there is no regional constraint. By performing inflation analysis, it demonstrated that the cumulative frequency of TGM6 reported pathogenic variants is at least 111-fold inflated over disease prevalence of all autosomal dominant SCAs, indicating a high chance of misdiagnosis or low penetrance. Misclassification of benign or low penetrant variants as pathogenic is a significant problem that often results in genetic misdiagnosis. This highlights the necessity of evaluating variant pathogenicity with sequencing of genomes from diverse populations, both from asymptomatic controls and phenotypically different patients, in order to ensure accurate classification of variants.