Investigating DYT1 in a Taiwanese dystonia cohort

Genetic Landscape of Dystonia in Asian Indians

BACKGROUND

Genomic variations associated with dystonia in Asian Indians remain largely unknown.

OBJECTIVES

To identify genomic alterations associated with dystonia in the Asian Indian population using next generation sequencing approaches.

METHODS

From September 2018 to December 2023, we enrolled 745 individuals including probands with dystonia and family members, in the Indian Movement Disorder Registry and Biobank. Clinical and demographic data were captured on a REDCap platform. We performed whole exome sequencing (WES) on DNA specimens obtained from 267 individuals with isolated, combined or complex dystonia. Variants were classified according to joint guidelines of American College of Medical Genetics and Genomics (ACMG) and Association of Molecular Pathology (AMP).

RESULTS

The mean age of the WES cohort was 33.8 ± 16.2 years, and mean age at onset (AAO) of dystonia was 25.6 ± 17.7 years. 62.2% had isolated dystonia, 7.9% combined and 29.2% had complex phenotypes. WES identified pathogenic/ likely pathogenic variants in 54 patients (20.2%) including 14 novel variants in known dystonia genes. Variants in THAP1 were most common followed by PANK2, GLB1, PLA2G6, TOR1A, ANO3, VPS16, SGCE, SPG7, FTL and other genes. Multifocal/generalized distribution of dystonia [OR: 4.1; 95% CI 1.4-12.2, P = 0.011] and family history [OR: 4.3; 95% CI 2.1-8.9, P < 0.001] were associated with positive yield on WES.

CONCLUSION

THAP1 was the most frequent dystonia associated gene in this cohort. Singleton WES identifiedpotentially pathogenic variants in approximately one out of five patients tested, and contributed to management decisions in 4%.

Clinical and genetic profile of patients with dystonia: An experience from a tertiary neurology center from India

BACKGROUND

The genetics of dystonia have varied across different ethnicities worldwide. Its significance has become more apparent with the advent of deep brain stimulation.

OBJECTIVE

To study the clinico-genetic profile of patients with probable genetic dystonia using whole exome sequencing (WES).

METHODS

A prospective, cross-sectional study was conducted from May 2021 to September 2022, enrolling patients with dystonia of presumed genetic etiology for WES. The study compared genetically-determined cases harboring pathogenic/likely-pathogenic variants (P/LP subgroup) with the presumed idiopathic or unsolved cases.

RESULTS

We recruited 65 patients (males, 69.2%) whose mean age of onset (AAO) and assessment were 25.0 ± 16.6 and 31.7 ± 15.2 years, respectively. Fifteen had pathogenic/likely-pathogenic variants (yield = 23.1%), 16 (24.6%) had variants of uncertain significance (VUS), 2 were heterozygous carriers while the remaining 32 cases tested negative (presumed idiopathic group). The P/LP subgroup had a significantly younger AAO (16.8 ± 12.3 vs 31.3 ± 17.0 years, p = 0.009), longer duration of illness (10.9 ± 10.3 vs 4.8 ± 4.3 years, p = 0.006), higher prevalence of generalized dystonia (n = 12, 80.0% vs n = 10, 31.3%, p = 0.004), lower-limb onset (n = 5, 33.3% vs n = 1, 3.1%, p = 0.009), higher motor (p = 0.035) and disability scores (p = 0.042). The classical DYT genes with pathogenic/likely pathogenic variants included 3 cases each of TOR1A, and KMT2B, and single cases each of SGCE, EIF2AK2, and VPS16. Non-DYT pathogenic/likely-pathogenic cases included PINK1, PANK2, CTSF, POLG, MICU1, and TSPOAP1.

CONCLUSIONS

The yield of WES was 23.1% among cases of probable genetic dystonia. Pathogenic or likely pathogenic variants in TOR1A, KMT2B, and SGCE genes were commoner. The absence of family history emphasizes the importance of accurate assessment of clinical predictors before genetic testing.

A Clinical and Integrated Genetic Study of Isolated and Combined Dystonia in Taiwan

Dystonia is a clinically and genetically heterogeneous movement disorder. However, genetic causes of dystonia remain largely unknown in Asian subjects. To address this, we applied an integrated two-step approach that included gene dosage analysis and a next-generation sequencing panel containing 72 known genes causative for dystonia and related movement disorders to 318 Taiwanese patients with isolated or combined dystonia. Whole-genome sequencing was performed for one multiplex family with no known causative variant. The panel confirmed the genetic diagnosis in 40 probands (12.6%). A genetic diagnosis was more likely with juvenile onset compared with adult onset (24.2% vs 10.8%; P = 0.03) and those with combined features, especially with myoclonus, compared with isolated dystonia (35.3% vs 10.5%; P = 0.004). The most common causative genes were SGCE followed by GCH1, TH, CACNA1B, PRRT2, MR1, CIZ1, PLA2G6, and PRKN. Genetic causes were identified from single cases in TOR1A, TUBB4A, THAP1, ATP1A3, ANO3, GNAL, KMT2B, SLC6A3, ADCY5, CYP27A1, PANK2, C19orf12, and SPG11. The whole-genome sequencing analysis identified a novel intragenic deletion in OPHN1 in a multiplex family with X-linked dystonia and intellectual delay. Our findings delineate the genetic architecture and clinical spectrum of dystonia-causing pathogenic variants in an Asian population.