Novel GNAL mutation with intra-familial clinical heterogeneity: Expanding the phenotype

IntroductionMutations in GNAL have been associated with adult-onset cranio-cervical dystonia, but a limited number of cases have been reported so far and the clinical spectrum associated with this gene still needs to be fully characterized.MethodsWe identified an Italian family with adult-onset, dominantly-inherited dystonia whose members presented with different combinations of dystonia affecting the cervical, oro-mandibular and laryngeal regions associated with prominent tremor in some cases. Pure asymmetric upper limb dystonic tremor was present in one of the members and jerky cervical dystonia was also observed. A dedicate dystonia gene panel (Illumina) was used to screen for dystonia-associated genes and Sanger sequencing was performed to confirm results obtained and to perform segregation analysis.ResultsA novel single-base mutation in GNAL exon 9 (c.628G>A; p.Asp210Asn) leading to an aminoacidic substitution was identified and confirmed by Sanger sequencing. In silico prediction programmes as well as segregation analysis confirmed its pathogenicity. Clinically, no generalization of dystonia was observed after onset and DBS lead to an excellent motor outcome in two cases.ConclusionWe report a novel GNAL mutation and expand the clinical spectrum associated with mutations in this gene to comprise pure asymmetric dystonic tremor and a jerky cervical phenotype partially mimicking DYT11 positive cases.     

Clinical and genetic evaluation of DYT1 and DYT6 primary dystonia in China

Background: Dystonia is defined as the presence of sustained involuntary muscle contractions, often leading to abnormal posture and movement. DYT1 is caused by a mutation in the TOR1A gene, whilst mutations in THAP1 gene have been identified as responsible for DYT6. The relative frequency and phenotype differences between DYT1 and DYT6 amongst Chinese primary dystonia patients have not been well‐characterized. Patients and methods: One hundred eleven unrelated Chinese patients with primary dystonia were screened for mutations in TOR1A and THAP1 genes, and correlate this with clinical presentation. Exon 5 of TOR1A and all three exons and exon‐intron conjunctions in THAP1 were screened by direct sequencing. Results: Three subjects were found to have the GAG deletion in the TOR1A gene, and two patients were detected with THAP1 gene mutations/variations (c.224A>T, c.449A>C). The overall mutation frequency was 4.5% in this cohort with TOR1A mutations found in 2.7% and THAP1 mutations found in 1.8%. No mutations were detected in the controls composed of 100 normal Chinese subjects. The clinical presentations of the DYT1 cases included onset in the limbs that could progress to the generalized dystonia within several years but without cranial involvement. Whilst in the DYT6 cases, the onset was cranial or cervical and progresses very slowly. Conclusion: The major clinical differences between DYT1 and DYT6 dystonia in China were the cranial involvement in DYT6 and progress to general dystonia within several years in DYT1.     

Prevalence of THAP1 sequence variants in German patients with primary dystonia

Primary dystonias are a clinically and genetically heterogeneous group of movement disorders, but only for two of them, i.e., dystonia 1 and dystonia 6, the disease causing gene has been identified. Dystonia 1 is characterized by an early onset and is caused by a mutation in the TOR1A gene. Only recently, mutations in THAP1 have been shown to be the cause of DYT6 dystonia. We analyzed 610 patients with various forms of dystonia for sequence variants in the THAP1 gene by means of high resolution melting to delineate the prevalence of sequence variants and phenotypic variability. We identified seven sequence variants in patients and one sequence variant in a control. The sequence variants were not detected in 537 healthy controls. Four patients present with generalized dystonia with speech involvement of early onset, another three patients suffered exclusively from cervical dystonia of adult onset. These findings suggest that THAP1 sequence variations seem to be associated with different ages of onset and distribution of symptoms. Consequently, the phenotypic spectrum might be broader than previously assumed. © 2010 Movement Disorder Society     

DYT6 dystonia: Mutation screening,phenotype, and response to deep brain stimulation

Mutations in THAP1, a gene encoding a nuclear pro‐apoptotic protein, have been associated with DYT6 dystonia. First reports on the phenotype of DYT6 dystonia show an early onset dystonia with predominant cranio‐cervical and laryngeal involvement. Here we assessed the frequency and phenotype of THAP1 mutation carriers in a large Dutch cohort of adult‐onset (≥26 years) dystonia (n = 388) and early‐onset dystonia (n = 67) patients. We describe the phenotype of DYT6 dystonia patients and their response on GPi DBS. Overall, 3 nonsynonymous heterozygous mutations were detected in the early‐onset group (4.5%). Two DYT6 families were identified, showing a heterozygous phenotype. All patients had segmental or generalized dystonia, often associated with profound oromandibular and laryngeal involvement. No nonsynonymous mutations were found in patients with adult‐onset focal dystonia. Rare synonymous variants were identified in conserved regions of THAP1, two in the adult‐onset cervical dystonia group and one in the control group. Four DYT6 dystonia patients were treated with GPi DBS with moderate to good response on motor function but marginal benefit on speech. © 2010 Movement Disorder Society     

Four novel rare mutations of PLA2G6 in Chinese population with Parkinson's disease

BackgroundMutations in the phospholipase A2 Group 6 (PLA2G6) gene have been identified in autosomal recessive neurodegenerative diseases classified as infantile neuroaxonal dystrophy and neurodegeneration with brain iron accumulation. Recently, PLA2G6 was also reported as the causative gene for early-onset PARK14-linked dystonia-parkinsonism.Methods/resultsTo address whether PLA2G6 mutations are also an important cause of PD, we screened sequence variants of PLA2G6 in 250 PD patients and 550 controls in a Chinese Han populations. We identified four sequence changes: a coding synonymous c.1959T>A transition of exon13 in one patient, two missense mutations c.1966C>G in exon13 and c.2077C>G in exon14 in two different patients, which caused two amino acids change Leu656Val and Leu693Val respectively. We also found a frame-shift mutation P.His597fx69 in exon 12 in one patient. These four rare variants were not represented in 550 control individuals. Furthermore, we found that WT PLA2G6 enzyme hydrolyzed phospholipids while mutant PLA2G6 with P.His597fx69 frame-shift caused loss of enzyme activity, exhibiting less than 6% of the specific activity in phospholipase assays compared to that of WT PLA2G6. Mutant PLA2G6 with Leu656Val and Leu693Val decreased their activity by 45% and 35% in phospholipase assay respectively.ConclusionsWe identified four rare PLA2G6 mutations in 250 PD patients, enlarging the spectrum of PLA2G6 mutations in PD. Although PLA2G6 mutations account for only a small fraction of PD patients in Chinese populations, these mutations impair catalytic activity of their phospholipids-hydrolyzing function. These results indicate that PLA2G6 mutations maybe PD-causing in Chinese Han populations.     

Two novel MPZ mutations in Chinese CMT patients

To investigate the myelin protein zero (MPZ) gene mutation and related clinical features in Chinese Charcot‐Marie‐Tooth (CMT) patients, we screened the coding sequence of MPZ in 70 unrelated CMT index patients after excluding the PMP22 duplication, Cx32 and MFN2 mutations. We found four different missense mutations: c.194C>T, c.242A>T, c.371C>T, and c.419C>G. The frequency of MPZ mutation was approximately 4.35% of the total, 3.08% of CMT1, and 6% of CMT2. Mutations c.242A>T and c.419C>G are novel. The mutation c.242A>T exhibited late onset and rapidly progressive CMT2 phenotype. The mutation c.419C>G exhibited relatively late onset and slowly progressive CMT1 phenotype.     

Intrafamilial variability of the primary dystonia DYT6 phenotype caused by p.Cys5Trp mutation in THAP1 gene

Mutations localized in THAP1 gene, locus 18p11.21 have been reported as causative of primary dystonia type 6 (DYT6). Disease which is characterized mainly by focal dystonia, frequently involving the craniocervical region, however associated also with early-onset generalized dystonia and spasmodic dysphonia. Here we report a novel mutation in the THAP1 gene identified in a Polish family with DYT6 phenotype – the c.15C > G substitution in exon 1 introducing the missense mutation p.Cys5Trp within the N-terminal THAP domain. The mutation was described in two generations, in patients showing a broad spectrum of focal and generalized dystonia symptoms of variable onset. Our results indicate that certain mutations in the THAP1 gene may lead to primary dystonia with remarkable intrafamilial clinical variability.     

A heteroplasmic mitochondrial complex I gene mutation in adult-onset dystonia

Mitochondrial DNA (mtDNA) mutations can cause rare forms of dystonia, but the role of mtDNA mutations in other types of dystonia is not well understood. We now report identification by sequencing, restriction endonuclease analyses, and clonal analyses of a heteroplasmic missense A to G base pair substitution at nucleotide position 3796 (A3796G) in the gene encoding the ND1 subunit of mitochondrial complex I in a patient with adult-onset dystonia, spasticity, and core-type myopathy. The mutation converts a highly conserved threonine to an alanine. The same mutation subsequently was identified in 2 of 74 additional unrelated adult-onset dystonia patients. A muscle biopsy was obtained from 1 of these 2 subjects and this revealed abnormalities of electron transport chain (ETC) activities. The mutation was absent in 64 subjects with early onset dystonia, 82 normal controls, and 65 subjects with Parkinson's disease or multiple system atrophy. The A3796G mutation previously has been reported in 3 of 226 subjects from mitochondrial haplogroup H. Each of the 3 subjects in our study harboring the A3796G mutation was also from haplogroup H. However, a subgroup analysis of haplogroup H subjects from our study indicates that the A3796G mutation is significantly overrepresented among haplogroup H adult-onset dystonia subjects compared with haplogroup H controls (P<0.01). This difference remains significant even after excluding the index patient (P=0.04). These data suggest that, among haplogroup H subjects, the presence of the A3796G mutation increases the risk of developing adult-onset dystonia.     

Novel and recurrent ASPM mutations of founder effect in Chinese population

PurposeMutations in ASPM are the most common causes of primary microcephaly (MCPH), which is a rare brain developmental disorder with few studies in Chinese population so far. This study aimed to identify the common pathogenic variants of ASPM and estimated the incidence of MCPH5 in Guangxi population.MethodsWe ascertained six MCPH cases caused by ASPM mutations in Guangxi Zhuang Autonomous Region, Whole-exome sequencing (WES) was performed to uncover the causal variants. The haplotype analysis was used to estimate the age of the recurrent variation.ResultsFive different pathogenic variants were identified in this batch of MCPH5 cases, including two novel variants p.Ser842fs*9 and p.Lys1340Argfs*29. An rarely reported pathogenic variant, c.1789C>T/p.Arg597* was found to be a founder mutation in local population. We evaluated all ASPM variants detected among 2674 non-microcephalic individuals and estimated the MCPH5 incidence to be 5.03/1,000,000 in Guangxi population.ConclusionsWe reported the first case series of Chinese MCPH cases with ASPM mutation and revealed a highly recurrent founder mutation in this local population. MCPH5 may be the major type of congenital microcephaly in Chinese population.     

Systematic TOR1A non-c.907_909delGAG variant analysis in isolated dystonia and controls

BackgroundAn increasing number of rare, functionally relevant non-c.907_909delGAG (non-ΔGAG) variants in TOR1A have been recognized, associated with phenotypic expressions different from classic DYT1 childhood-onset generalized dystonia. Only recently, DYT1 genotype-phenotype correlations have been proposed, awaiting further elucidation in independent cohorts.MethodsWe screened the entire coding sequence and the 5′-UTR region of TOR1A for rare non-ΔGAG sequence variants in a large series of 940 individuals with various forms of isolated dystonia as well as in 376 ancestry-matched controls. The frequency of rare, predicted deleterious non-ΔGAG TOR1A variants was assessed in the European sample of the Exome Aggregation Consortium (ExAC) dataset.ResultsIn the case cohort, we identified a rare 5′-UTR variant (c.-39G > T), a rare splice-region variant (c.445-8T > C), as well as one novel (p.Ile231Asn) and two rare (p.Ala163Val, p.Thr321Met) missense variants, each in a single patient with adult-onset focal/segmental isolated dystonia. Of these variants, only p.Thr321Met qualified as possibly disease-related according to variant interpretation criteria. One novel, predicted deleterious missense substitution (p.Asn208Ser) was detected in the control cohort. Among European ExAC individuals, the carrier rate of rare, predicted deleterious non-ΔGAG variants was 0.4%.ConclusionsOur study does not allow the establishment of genotype-specific clinical correlations for DYT1. Further large-scale genetic screening accompanied by comprehensive segregation and functional studies is required to conclusively define the contribution of TOR1A whole-gene variation to the pathogenesis of isolated dystonia.     

A rare variant in TOR1A exon 5 associated with isolated dystonia in southwestern Chinese

Background: TOR1A has been proposed as an important genetic factor in early‐onset isolated dystonia. Variants located in the 3′ untranslated region of TOR1A are of particular importance because they may influence gene expression, although related studies are limited. The objectives of the present study focused on variants in the TOR1A 3′ untranslated region. Methods: The last exon of TOR1A was sequenced in 229 cases with isolated dystonia and in 210 controls. In addition, 471 controls were tested to determine the frequency of the variants in the 3′ untranslated region. Results: Except for c.904_906delGAG, 3 rare sequence variants (NM_000113.2:c.*454T>A, NM_000113.2:c.860C>A [rs766483672], and NM_000113.2:c.*302T>A [rs563498119]) were found only in the patients. The c.*302T>A variant was located in the conserved region of the human microRNA (hsa‐miR‐494) binding site. A luciferase reporter assay showed that c.*302T>A significantly altered gene expression. Conclusions: Population frequencies, computational analyses, and function experiments in this study implied that c.*302T>A is associated with dystonia. © 2017 International Parkinson and Movement Disorder Society     

Occurrence of GCH1 gene mutations in a group of Indian dystonia patients

The aim of this study is to examine the role of GCH1 among Indians affected with dopa responsive dystonia (DRD) and early onset Parkinson’s disease (EOPD). The patients (n?=?76 including 19 DRD and 36 EOPD) and controls (n?=?138) were screened for variants in GCH1 by PCR amplification of exons, splice junctions and 1?kb upstream region followed by SSCP and DNA sequencing. Four novel variants (p.Met1Val, p.Val204_205del, IVS3+68A>G, and IVS5?6T>G) were identified in 10 patients but not in the controls. In addition to two nonsynonymous changes, identified in four DRD patients in heterozygous condition, one intronic variant (IVS5?6T>G) could be linked to pathogenesis of the disease since it has the potential of altering the splice site as assessed by in silico analysis. Patients carrying different nonsynonymous variants had remarkable variation in clinical phenotype. Consistent with earlier reports, severity of clinical phenotype and the age of onset varied among family members harboring the same mutation. No mutation was detected in the EOPD patients. Three novel mutations in GCH1 gene have been found and are shown to be associated with variable clinical phenotypes mostly within the spectrum of DRD. The mutations identified represent 15.79% (3/19) of east Indian DRD patient cohort.     

Mutation screening of VPS16 gene in patients with isolated dystonia

Mutations in VPS16 have been identified to be responsible for generalized dystonia. We screened VPS16 variants in 53 unrelated subjects with isolated dystonia via whole‐exome sequencing. A novel pathogenic frameshift mutation p.R643fs* was found in a patient with early-onset multifocal dystonia with prominent oromandibular and bulbar involvement. Our findings expanded the spectrum of VPS16-related dystonia and suggested that mutations in VPS16 should be considered in patients with progressive early-onset dystonia.     

Familial adolescent-onset scoliosis and later segmental dystonia in an Irish family

Abstract. Adolescent-onset scoliosis occurs more frequently than expected in primary adult-onset cervical dystonia and a genetic association between the conditions has been postulated. The authors report a family in which four members have adult-onset cervical and/or brachial dystonia, two of whom have coexistent scoliosis. Four other individuals have isolated childhood- or adolescent-onset scoliosis. Adolescent-onset scoliosis may represent part of the dystonia phenotype in this family.     

DRD1 rare variants associated with tardive-like dystonia: A pilot pathway sequencing study in dystonia

The dystonias are a clinical heterogeneous group with a complex genetic background. To gain more insight in genetic risk factors in dystonia we used a pathway sequence approach in patients with an extreme dystonia phenotype (n = 26). We assessed all coding and non-coding variants in candidate genes in D1-like subclass of dopamine receptor genes (DRD1, DRD5) and the synaptic vesicle pathway linked to torsinA (TOR1A, STON2, SNAPIN, KLC1 and THAP1), spanning 96 Kb.Two rare missense variants in DRD1 were found: c.68G>A(p.Arg23His) in the screening group and c.776C>A(p.Ser259Tyr) in an additional screen of 15 selected dystonia patients. Genetic burden analysis of DRD1 rare variants in patients (4.8%) versus European American controls from ESP (0.72%) reveals an OR 5.35 (95% CI 1.29–23.1). No rare missense SNVs in the synaptic vesicle pathway were found. Sequencing of TOR1A showed variant enrichment in haplotype 2, possibly accountable for contradictive results in previous association studies. Two new rare SNVs were detected in THAP1, including a nonsense mutation (p.Gln167Ter) and a splice site variant (c.72-1G>A). Screening for rare SNV of candidate pathways in a phenotype extreme population appears to be a promising alternative method to identify genetic risk factors in complex disorders like primary torsion dystonia. These findings indicate a role for rare genetic variation in dopamine processing genes in dystonia pathophysiology.     

DYT16 revisited: Exome sequencing identifies PRKRA mutations in a European dystonia family

Recessive DYT16 dystonia associated with mutations in PRKRA has until now been reported only in seven Brazilian patients. The aim of this study was to elucidate the genetic cause underlying disease in a Polish family with autosomal‐recessive, early‐onset generalized dystonia and slight parkinsonism, and to explore further the role of PRKRA in a dystonia series of European ancestry. We employed whole‐exome sequencing in two affected siblings of the Polish family and filtered for rare homozygous and compound heterozygous variants shared by both exomes. Validation of the identified variants as well as homozygosity screening and copy number variation analysis was carried out in the two affected individuals and their healthy siblings. PRKRA was analyzed in 339 German patients with various forms of dystonia and 376 population‐based controls by direct sequencing or high‐resolution melting. The previously described homozygous p.Pro222Leu mutation in PRKRA was found to segregate with the disease in the studied family, contained in a 1.2 Mb homozygous region identical by state with all Brazilian patients in chromosome 2q31.2. The clinical presentation with young‐onset, progressive generalized dystonia and mild parkinsonism resembled the phenotype of the original DYT16 cases. PRKRA mutational screening in additional dystonia samples revealed three novel heterozygous changes (p.Thr34Ser, p.Asn102Ser, c.?14A>G), each in a single subject with focal/segmental dystonia. Our study provides the first independent replication of the DYT16 locus at 2q31.2 and strongly confirms the causal contribution of the PRKRA gene to DYT16. Our data suggest worldwide involvement of PRKRA in dystonia. © 2014 International Parkinson and Movement Disorder Society     

A novel tyrosine hydroxylase variant in a group of Chinese patients with dopa-responsive dystonia

Dopa-responsive dystonia (DRD) comprises a heterogeneous group of movement disorders. A limited number of studies of Chinese patients with DRD have been reported. In the present study, we investigated the clinical and genetic features of 12 Chinese DRD families. Point mutation analysis of the GTP-cyclohydrolase I (GCH1), tyrosine hydroxylase (TH) and sepiapterin reductase (SPR) genes was conducted by direct sequencing. In addition, multiplex ligation-dependent probe amplification targeting GCH1 and TH was performed in “mutation-free” patients. Three reported mutations (IVS2-2A>G, c.293C>T, c.550C>T) were detected in GCH1, whereas two compound heterozygous variants were identified in TH, one of which was novel (c.1083C>A). Furthermore, this novel variant was not detected in any of the 250 ethnicity-matched, healthy controls. No exon deletions or duplicate mutations in the two genes were found in patients with DRD. No mutation in SPR was found. In addition, one patient with the IVS2-2A>G mutation in GCH1 showed signs of Parkinsonism. In conclusion, we here identified a novel heterozygous variant in TH (c.1083C>A). It is important to perform routine screening of GCH1 and TH for patients with DRD. While for patients with Parkinsonism, GCH1 mutation analysis should be performed after screening of genes like PARKIN, PARK7 (DJ-1) and PINK1.     

Assessment of D216H DYT1 polymorphism in a Chinese primary dystonia patient cohort

Background: The D216H single‐nucleotide polymorphism (SNP) (rs1801968) in DYT1 exon 4 has been suggested to be a genetic modifier in primary dystonia. Methods: To further explore this question, we assessed rs1801968 variations in a cohort of 210 Chinese patients with primary dystonia devoid of DYT1 mutations. Results: We found that focal dystonia, specifically cervical dystonia, was the most common form of dystonia, with 8.1% of all the patients having a positive family history of dystonia. No association of the D216H SNP with primary dystonia was identified. In a subsequent subgroup analysis, the 216H allele was found to occur more frequently in patients with writer’s cramp, but no correlation was found between the allele and other forms of dystonia or age of onset. Conclusions: Our findings do not confirm that the allele contributes to the risk of D216H SNP primary dystonia.