TOR1A polymorphisms in a Russian cohort with primary focal/segmental dystonia.

PURPOSE/AIM OF THE STUDY: To analyze contribution of rs3842225 and rs1182 single nucleotide polymorphisms (SNP) in TOR1A gene, the causative gene for the DYT1 form of hereditary early-onset generalized dystonia, to the development of focal and segmental dystonia in Russian patients. MATERIALS AND METHODS: We analyzed associations between rs3842225 and rs1182 polymorphisms in TOR1A and focal/segmental dystonia in 254 patients from Russian population, including 218 Slavic patients and 36 patients of mixed ethnic background. RESULTS: Stratification of patients based on age at the disease onset (≤ 30 years and > 30 years) showed statistically significant prevalence of the del-allele at the rs3842225 locus in Slavic patients with earlier age of onset of dystonia (36.96% vs. 21.39% in patients with late age of onset, p = 0.002) and an overrepresentation of the T-allele at the rs1182 locus (36.96% vs. 21.69%, p = 0.003). In Slavs, we also observed an overrepresentation of the homozygous genotypes, T/T (general sample of dystonia, 9.17% and focal dystonia, 10.28%) or G/G (general sample of dystonia, 60.55% and focal dystonia, 58.86%), compared to controls (T/T, 4.27% and G/G, 55.49%). In non-Slavic patients, we revealed neither significant associations, nor statistical tendencies regarding any of the clinical features. CONCLUSIONS: Our data in an Eastern Slavic (Russian) population correspond well to results of other studies from different countries and confirm that certain TOR1A genotypes may be regarded as factors predisposing to focal and segmental dystonia.

Heterogeneity in primary dystonia: lessons from THAP1, GNAL, and TOR1A in Amish-Mennonites.

A founder mutation in the Thanatos-associated (THAP) domain containing, apoptosis associated protein 1 (THAP1) gene causing primary dystonia was originally described in the Amish-Mennonites. However, there may be both genotypic and phenotypic heterogeneity of dystonia in this population that may also inform studies in other ethnic groups. Genotyping for THAP1 and for guanine nucleotide binding protein (G protein), α-activating activity polypeptide, olfactory type (GNAL) mutations and genotype-phenotype comparisons were performed for 76 individuals of Amish-Mennonites heritage with primary dystonia. Twenty-seven individuals had mutations in THAP1-most with the founder indel mutation-but two had different THAP1 mutations, 8 had mutations in GNAL, and 1 had a de novo GAG deletion in torsin 1A (TOR1A) (dystonia 1 [DYT1]). In the primary analysis comparing THAP1 carriers versus all non-THAP1, non-GNAL, non-TOR1A individuals, age at onset was lower in THAP1 carriers (mean age ± standard deviation, 15.5 ± 9.2 years [range, 5-38 years] vs. 39.2 ± 17.7 years [range, 1-70 years]; P < 0.001), and THAP1 carriers were more likely to have onset of dystonia in an arm (44.4% vs. 15.0%; P = 0.02) and to have arm involvement (88.9% vs. 22.5%; P < 0.01), leg involvement (51.9% vs. 10.0%; P = 0.01), and jaw/tongue involvement (33.3% vs. 7.5%; P = 0.02) involvement at their final examination. Carriers were less likely to have dystonia restricted to a single site (11.11% in carriers vs. 65.9% in noncarriers; P < 0.01) and were less likely to have dystonia onset in cervical regions (25.9% of THAP1 carriers vs. 52.5% of noncarriers; P = 0.04). Primary dystonia in the Amish-Mennonites is genetically diverse and includes not only the THAP1 indel founder mutation but also different mutations in THAP1 and GNAL as well as the TOR1A GAG deletion. Phenotype, particularly age at onset combined with final distribution, may be highly specific for the genetic etiology.

GTP cyclohydrolase I and tyrosine hydroxylase gene mutations in familial and sporadic dopa-responsive dystonia patients.

Dopa-responsive dystonia (DRD) is a rare inherited dystonia that responds very well to levodopa treatment. Genetic mutations of GTP cyclohydrolase I (GCH1) or tyrosine hydroxylase (TH) are disease-causing mutations in DRD. To evaluate the genotype-phenotype correlations and diagnostic values of GCH1 and TH mutation screening in DRD patients, we carried out a combined study of familial and sporadic cases in Chinese Han subjects. We collected 23 subjects, 8 patients with DRD, 5 unaffected family members, and 10 sporadic cases. We used PCR to sequence all exons and splicing sites of the GCH1 and TH genes. Three novel heterozygous GCH1 mutations (Tyr75Cys, Ala98Val, and Ile135Thr) were identified in three DRD pedigrees. We failed to identify any GCH1 or TH mutation in two affected sisters. Three symptom-free male GCH1 mutation carriers were found in two DRD pedigrees. For those DRD siblings that shared the same GCH1 mutation, symptoms and age of onset varied. In 10 sporadic cases, only two heterozygous TH mutations (Ser19Cys and Gly397Arg) were found in two subjects with unknown pathogenicity. No GCH1 and TH mutation was found in 40 unrelated normal Han Chinese controls. GCH1 mutation is the main etiology of familial DRD. Three novel GCH1 mutations were identified in this study. Genetic heterogeneity and incomplete penetrance were quite common in DRD patients, especially in sporadic cases. Genetic screening may help establish the diagnosis of DRD; however, a negative GCH1 and TH mutation test would not exclude the diagnosis.

Brain-derived neurotrophic factor Val66Met polymorphism is not associated with primary dystonia in a Chinese population.

BACKGROUND: Brain-derived neurotrophic factor (BDNF) is a modulator of synaptic and neural plasticity. Considering the association between dystonia and abnormal sensorimotor cortex plasticity, BDNF may be a candidate gene that confers susceptibility to dystonia. However, the association between Val66Met polymorphism of BDNF gene and primary dystonia is controversial. METHODS: A case-control study was performed to evaluate the association between Val66Met polymorphism in the BDNF gene and primary dystonia in a cohort of 252 Chinese patients and in 214 age- and gender-matched healthy control subjects. RESULTS: No association was identified between Val66Met polymorphism and primary dystonia or cervical dystonia (P=0.309 and P=0.803 respectively). In a subsequent subgroup analysis, there was also no difference in the distribution for age of onset. CONCLUSION: Our findings do not support that BDNF Val66Met polymorphism contributes to the risk of primary dystonia.

Association of rs1182 polymorphism of the DYT1 gene with primary dystonia in Chinese population.

BACKGROUND: The deletion mutation of glutamate codon (GAG) in the TOR1A gene is a major cause of primary generalized dystonia. Recent genetic studies suggest that the rs1182 polymorphism in the same gene may represent a risk factor for primary dystonia. However, this finding has been inconsistent. Furthermore, no data on such an association in a Chinese population have been published. METHODS: A total of 291 patients with primary dystonia from the Department of Neurology, West China Hospital of Sichuan University were included. From the same region, 294 healthy individuals were recruited as a control group. The SNP was identified by polymerase chain reaction-restriction fragment length polymorphism. RESULTS: In the present study, focal dystonia was the most common presented form. No difference was found in the genotype frequency, minor allele frequencies, and "G" allele frequency between all dystonia patients and controls. No difference was found either, between early- and late-onset dystonia patients, patients with and without a positive family history, patients with pain and without pain, and patients with and without sensory trick. Moreover, no significant differences in the genotype and allele frequencies were found among different dystonia subtypes. CONCLUSION: No association of the rs1182 of TOR1A with Chinese primary dystonia was found. More studies on such an association involving a larger number of participants, especially from Asian populations, are needed to confirm the present findings.

Novel THAP1 gene mutations in patients with primary dystonia from southwest China.

BACKGROUND: Clinical presentation and DYT6/THAP1 mutations among Chinese patients with primary dystonia have not been well studied. METHODS: Patients with primary pure dystonia from Southwest China who did not have a mutation in DYT1 exon 5 were included in the present study. Mutations of the THAP1 gene were screened by direct sequencing. RESULTS: A total of 231 patients were examined. Cervical dystonia (58.47%) was found to be the most frequent form of focal dystonia. Novel heterozygous missense mutation [c.521A>G (p.E174G)] was found in exon 3 of the THAP1 gene in one patient and one insertion mutation [c.214_215InsA (p.L72fsX86)] in exon 2 in another. Initial symptoms of patients with these mutations were early-onset cervical dystonia. Both patients had no dysarthria. A silent change [c.489C>G (p.L63L)] in exon 3 was identified in three patients with Meige syndrome. CONCLUSION: The mutation frequency of the THAP1 gene was 0.87% in Chinese patients with primary pure dystonia, similar to the mutation frequency found in other ethnic groups. Patients presenting with early-onset cervical dystonia should be screened for THAP1 gene mutations to fully assess all the possible etiologies of dystonia. Further studies are needed for p.L63L in THAP1 in Meige syndrome.

Large SGCE deletion contributes to Taiwanese myoclonus-dystonia syndrome.

We report three novel deletions of the SGCE gene in three families with myoclonus-dystonia (M-D) syndrome in Taiwan. Their clinical characteristics included: early onset, dominant myoclonus and dystonia in the neck, trunk and upper limbs. By direct sequencing of the SGCE gene coding regions, we identified a small heterozygous deletion (c.842delA) in exon 7 of the three sibs and asymptomatic father in the first family and an eight-base heterozygous deletion (c.524_531del) in exon 5 of the mother and a daughter in the second family. Using multiple ligation-dependent probe amplification (MLPA), a large heterozygous deletion of 2-11 exons was identified in the father and a son in the third family which was undetected by initial sequencing. It is the largest intragenic deletion ever reported. In conclusion, we have identified three novel mutations of SGCE in the respective three M-D families. The large deletion was responsible for one third of these M-D families which might implicate an important contribution to Taiwanese M-D syndrome. We suggest that the contribution of large deletion should be further verified in a large cohort of patients with M-D syndrome in Han Chinese.

A novel mutation of the epsilon-sarcoglycan gene in a Chinese family with myoclonus-dystonia syndrome.

In a Chinese myoclonus-dystonia syndrome (MDS) family presented with a phenotype including a typical MDS, cervical dystonia, and writer's cramp, genetic analyses revealed a novel 662 + 1insG heterozygous mutation in exon 5 in the epsilon-sarcoglycan (SGCE) gene, leading to a frameshift with a down stream stop codon. Low SGCE mRNA levels were detected in the mutation carriers by real-time PCR, suggesting that the nonsense mutation might interfere with the stability of SGCE mRNA. This is the first report on Chinese with a SGCE mutation leading to MDS. Our data support the fact that same mutation of SGCE gene can lead to a varied phenotype, even in the same family.

Clinical characterization and evaluation of DYT1 gene in Indian primary dystonia patients.

OBJECTIVES: Dystonia is a common movement disorder. The purpose of this study is to examine the relative distribution of the primary dystonia subtypes and identify mutation (s) in the DYT1 gene in Indian patients. MATERIALS AND METHODS: Primary dystonia patients (n = 178) and controls (n = 63), lacking any symptoms of the disease, were recruited for the study from eastern India. The nucleotide variants in the DYT1 gene were identified by carrying out polymerase chain reaction, single stranded conformation polymorphism, and DNA sequencing. RESULTS: Unlike other reports, pain and/or tremor was more common in our sporadic patients than in familial cases. Three reported and two novel changes were identified in this gene. The homozygous genotype (G,G) for a missense variant (c.646G > C; Asp216His) was significantly over-represented in the patients compared with controls (P < 0.05). However, the commonly reported 3 bp deletion (904-906delGAG) was not detected. CONCLUSION: Our results suggest that the DYT1 gene might have a limited role in causation of dystonia in the Indian population.