Genetics of dystonia: an overview

The torsion dystonias encompass a broad collection of etiologic subtypes, often divided into primary and secondary classes. Over the last two decades an increasing number of genetic causes have been identified, including an important genetic cause for early-onset primary torsion dystonia (PTD): a GAG deletion in exon 5 of DYT1, a gene that encodes torsinA. Although the exact function of torsinA remains elusive, evidence suggests aberrant localization and interaction of mutated protein; this may result in an abnormal response to stress or interference with cytoskeletal events and the development of neuronal brain pathways. Identification of DYT1 has also permitted studies of both "manifesting" and "non-manifesting"DYT1 mutation carriers. These investigations have expanded our understanding of clinical expression to include psychiatric symptoms and also have enabled imaging studies of endophenotypes. Similarly, there has been progress in our understanding of the genetic underpinnings of the "dystonia-plus" syndromes: dopa-responsive dystonia (DRD), myoclonus-dystonia (M-D), and rapid-onset dystonia-parkinsonism (RDP). These advances provide a widened platform for future research.     

Primary torsion dystonia: the search for genes is not over

A GAG deletion in the DYT1 gene accounts for most early, limb onset primary torsion dystonia (PTD). The genetic bases for the more common adult onset and focal PTD are less well delineated. Genetic loci for an "intermediate dystonia" phenotype and for torticollis, named DYT6 and DYT7 respectively, have recently been mapped in single families. To evaluate the contribution of these genetic loci to other families with familial "non-DYT1" dystonia five large families with dystonia were studied using genetic markers spanning the DYT6 and DYT7 regions. There was no evidence of linkage to either locus in any family. These findings illustrate the genetic heterogeneity of the dystonias and indicate the existence of one or more as yet unmapped genes for dystonia. Large collaborative efforts will be required to identify these, and additional genes, causing PTD.     

Novel Italian family supports clinical and genetic heterogeneity of primary adult-onset torsion dystonia.

We report on an Italian kindred with adult-onset primary torsion dystonia (PTD). A detailed clinical examination of the six definitely affected family members revealed a mild, purely focal phenotype. The disease involved only one body part (eyes, neck, or arm). PTD in this family was not linked to the known disease loci (DYT1, DYT6, DYT7, and DYT13), and the 3-bp deletion in the DYT1 gene was also excluded. These findings support genetic heterogeneity of PTD and indicate that a novel unassigned gene is responsible for focal dystonia in this family.     

A Yorkshire family with adult-onset cranio-cervical primary torsion dystonia.

Although a family history is described in approximately 20% of patients, large families with adult-onset craniocervical primary (idiopathic) torsion dystonia (PTD) are rare. We report a new British family with cranio-cervical dystonia. Seventeen members of the family were examined. Five cases were diagnosed as definite PTD and one as probable PTD. Mean age at onset was 29 years (range, 19-40 yrs). The phenotype was characterized by adult-onset cranio-cervical dystonia in all affected cases. A few cases had additional voice tremor and/or postural arm tremor. The GAG deletion in the DYT1 gene was excluded in the index case. Linkage analysis was performed between the disease and several marker loci spanning DYT6 and DYT7 regions, and haplotypes were reconstructed in all subjects. Although linkage analysis was not completely informative, reconstructed haplotypes excluded linkage between the disease and either DYT6 or DYT7. This report confirms that familial cranio-cervical dystonia is genetically heterogeneous, and further studies of other PTD families with similar clinical features are needed to identify other new genes.     

Atypical phenotypes and clinical variability in a large Italian family with DYT1-primary torsion dystonia.

The GAG deletion in the DYT1 gene usually causes a typical form of primary torsion dystonia (PTD) with early onset in a limb, rapid generalization, and sparing of cranial-cervical muscles, but atypical phenotypes have often been reported. Here, we describe a large DYT1 Italian family with phenotypically heterogeneous PTD that recapitulates all the atypical features associated with the DYT1 mutation, including late age at onset, focal or segmental phenotypes, onset or spreading of dystonia to the cranial-cervical muscles. Of 38 healthy family members, 15 also carried the DYT1 mutation, with an estimated penetrance of 21%. A literature review of atypical familial cases of DYT1-PTD showed that late onset, cervical involvement, and limited progression of dystonia are features frequently seen in DYT1 families. However, nearly all of these atypical patients fall within at least one of the clinical categories that best predict the DYT1 carrier status, namely, early onset, onset in a limb, and family history positive for early-onset dystonia.     

Phenotypic variability of DYT1‐PTD: Does the clinical spectrum include psychogenic dystonia?

Primary torsion dystonia (PTD) is a clinically and genetically heterogeneous group of movement disorders, usually inherited in an autosomal dominant manner with reduced (30-40%) penetrance. The DYT1 gene on chromosome 9q34 is responsible for most cases of early limb-onset PTD. DYT1-PTD clinical spectrum is broad, as the disease may present with several degrees of body involvement and severity. We identified an Italian family with 4 members definitely affected by PTD, genetically diagnosed as carriers of the GAG mutation at DYT1 gene. Phenotype was homogeneous when considering the presentation at onset (limb involvement and early onset), the disease progression was variable; in the subjects of the last generation, the disease progressed to a severe, generalized PTD; in the remaining 2 subjects, dystonia presented with writer's cramp or upper body segmental dystonia of mild severity. One family member, carrier of the GAG mutation on DYT1 gene and mother of the most severely affected individual, presented with a clinically established psychogenic movement disorder resembling dystonia initially diagnosed as a severe generalized PTD. Psychogenic movement disorders are among the most controversial and challenging diseases to diagnose, in particular when the affected individual belongs to a family with an inherited movement disorder.     

DYT13, a novel primary torsion dystonia locus, maps to chromosome 1p36.13--36.32 in an Italian family with cranial-cervical or upper limb onset

Primary torsion dystonia (PTD) is a clinically and genetically heterogeneous group of movement disorders, usually inherited in an autosomal dominant fashion with reduced penetrance. The DYT1 gene on chromosome 9q34 is responsible for most cases of early limb-onset PTD. Two other PTD loci have been mapped to date. The DYT6 locus on chromosome 8 is associated with a mixed phenotype, whereas the DYT7 locus on chromosome 18p is associated with adult onset focal cervical dystonia Several families have been described in which linkage to the known PTD loci have been excluded. We identified a large Italian PTD family with 11 definitely affected members. Phenotype was characterized by prominent cranial-cervical and upper limb involvement and mild severity. A genome-wide search was performed in the family. Linkage analysis and haplotype construction allowed us to identify a novel PTD locus (DYT13) within a 22 cM interval on the short arm of chromosome 1, with a maximum lod score of 3.44 between the disease and marker D1S2667.     

Identification of a novel primary torsion dystonia locus (DYT13) on chromosome 1p36 in an Italian family with cranial-cervical or upper limb onset

Primary torsion dystonia (PTD) is a clinically and genetically heterogeneous group of movement disorders, usually inherited in an autosomal dominant fashion. Three PTD loci (DYT1, DYT6 and DYT7) have been identified to date. However, in several PTD families linkage to the known loci has been excluded. We identified an Italian PTD family with 11 definitely affected members. Phenotype was characterised by juvenile or early-adult onset, prominent cranial-cervical and upper limb involvement, mild course and occasional generalisation. A genome-wide search performed in the family identified a novel PTD locus (DYT13) within a 22-cM interval on the short arm of chromosome 1, with a maximum lod score of 3.44 (θ=0) between the disease and marker D1S2667.     

Familial blepharospasm is inherited as an autosomal dominant trait and relates to a novel unassigned gene.

Blepharospasm (BSP) is a common form of primary torsion dystonia (PTD). Although most cases are sporadic, an increased familial incidence of BSP has been reported. Precisely how blepharospasm is inherited remains unclear. We report on two Italian families with adult-onset focal BSP inherited as an autosomal dominant trait with reduced penetrance. None of the affected family members had the 3-bp (GAG) or the 18-bp deletion in the DYT1 gene. In one family, linkage analysis allowed us to exclude segregation of the disease with the known PTD loci (DYT1, DYT6, DYT7, and DYT13). These findings suggest that primary familial adult-onset BSP is a distinct entity among inherited PTD and is caused by a novel, unmapped gene. Copyright Movement Disorder Society     

Genetics of dystonia

Dystonia is characterized by muscle contractions leading to abnormal postures with involuntary twisting and repetitive movements. Inherited dystonia designated by DYT locus symbols can be separated into three broad phenotypic categories: primary torsion dystonia (PTD), where dystonia is the only clinical sign (except for tremor) (DYT1, 2, 4, 6, 7, 13, 17, and 21); dystonia plus loci, where other phenotypes in addition to dystonia, including parkinsonism or myoclonus, are present (DYT3, 5/14, 11, 12, 15, and 16); and paroxysmal forms of dystonia/dyskinesia (DYT8, 9, 10, 18, 19, and 20). Currently, 19 loci including 10 genes have been identified for inherited dystonias. In this review, the phenotypes associated with these loci and the responsible genes will be discussed.     

Unusual phenotypes in DYT1 dystonia: a report of five cases and a review of the literature.

Since the advent of widespread testing for the presence of the DYT1 gene mutation, the range of phenotypes that have been associated with this genetic abnormality has expanded. We report on 5 DYT1 gene-positive patients with unusual phenotypes. Two of them had late presentation, one of these after peripheral injury. Three additional patients had late progression of symptoms, onset after exposure to haloperidol, and severe bulbar involvement, respectively. The clinical heterogeneity of this condition raises problems for clinicians in selecting appropriate patients for diagnostic testing. Also, because of the low phenotypic penetrance of DYT1 dystonia, the discovery of the DYT1 mutation in a patient with an atypical clinical syndrome may not necessarily suggest a causal relationship. We have, therefore, analysed all published clinical studies of DYT1 dystonia to guide clinical decision making concerning DYT1 gene testing based on current information.     

DYT1 mutation in primary torsion dystonia in a Serbian population

Primary torsion dystonia (PTD) is a clinically and genetically heterogeneous movement disorder. A GAG deletion at position 946 in the DYT1 gene is responsible for most cases of autosomal dominant early-onset PTD. We analysed the DYT1 mutation in 50 patients from a Serbian population, selected according to the proposed guidelines for diagnostic testing: (a) 38 patients with PTD onset < 26 years, and (b) 12 patients with the disease onset ± 26 years, but with at least one affected family member with early-onset dystonia. Only three apparently sporadic patients among the 50 individuals tested were positive for the GAG deletion in the DYT1 gene: one with typical, generalized, one with long-lasting, non-progressive segmental, and one with multifocal dystonia. Molecular analysis of relatives in 2 families revealed that the lack of family history was due to reduced penetrance. Received: 29 December 2000, Received in revised form: 23 March 2001, Accepted: 10 April 2001     

Phenotypic characterization of DYT13 primary torsion dystonia.

We describe the phenotype of DYT13 primary torsion dystonia (PTD) in a family first examined in 1994. A complete neurological evaluation was performed on all available family members: 8 individuals were definitely affected by dystonia. The family was re-evaluated in March 2000: at that time, 3 more individuals had developed symptoms of dystonia. Inheritance of PTD was autosomal dominant, with affected individuals spanning three consecutive generations and male-to-male transmission. Age at onset ranged from 5 to 43 years. Onset occurred either in the craniocervical region or in upper limbs. Progression was mild, and the disease course was benign in most affected individuals; generalization occurred only in 2 cases. We did not find anticipation of age at onset or of disease severity through generations. Most subjects presented with jerky, myoclonic-like dystonic movements of the neck or shoulders. DYT13-PTD is an autosomal dominant disease, with incomplete penetrance (58%). Clinical presentation and age at onset were more variable than in DYT1-PTD, and the neck was involved in most of those affected. Moreover, the individuals with generalised dystonia were not severely disabled and were able to lead independent lives. To date, this is the only family with DYT13-PTD.     

Mutation screening of the DYT6/THAP1 gene in Italy

Mutations in the THAP1 gene on chromosome 8p21‐p22 (DYT6 locus) have been recently reported as causative of autosomal dominant primary torsion dystonia (PTD) in four Amish–Mennonite families and in 12 additional probands of different ancestry. We sequenced the THAP1 gene in 158 patients with DYT1‐negative PTD who had onset of symptoms below 30 years and/or positive family history. One sporadic Greek male patient, aged 57 years, was found to carry a novel heterozygous missense variant in THAP1 exon 3 (p.Cys170Arg), of likely pathogenic significance. This subject first presented with right writer's cramp at age of 10 years and, subsequently, developed left arm dystonia and an extremely severe left laterocollis, without further spreading to other body districts. Our findings expand the genotypic spectrum of THAP1 and strengthen the association with upper body involvement, including the cranial and cervical districts that are usually spared in DYT1‐PTD. © 2009 Movement Disorder Society     

Abnormalities in motor cortical plasticity differentiate manifesting and nonmanifesting DYT1 carriers.

A mutation in the DYT1 gene causes dominantly inherited childhood-onset primary dystonia, but intriguingly, only 30 to 40% of those who carry the mutation ever develop symptoms. We have used the unique model provided by this group of patients to investigate the hypothesis that abnormalities in brain plasticity underlie the pathophysiology of primary dystonia. We recruited 8 DYT1 gene carriers with dystonia, 6 DYT1 gene carriers without dystonia, 6 patients with sporadic primary dystonia (torticollis), and 10 healthy control subjects. Groups were age-matched. We compared the effect in these groups of subjects of repetitive transcranial magnetic stimulation (rTMS) delivered to the motor cortex, by assessing changes in corticospinal excitability following rTMS. rTMS was given in the form of theta burst stimulation (TBS) using the inhibitory protocol "cTBS" (total of 300 pulses in 50-Hz bursts given every 5Hz). DYT1 gene carriers with dystonia and subjects with torticollis had a significantly prolonged response to rTMS in comparison with healthy subjects. In contrast, DYT1 gene carriers without dystonia had no significant response to rTMS. These data demonstrate an excessive response to an experimental "plasticity probing protocol" in subjects with dystonia, but a lack of response in genetically susceptible individuals who have not developed dystonia. These preliminary data suggest that the propensity to undergo plastic change may affect the development of symptoms in genetically susceptible individuals and that this may be an important mechanism in the pathogenesis of primary dystonia in general.     

Overview of primary monogenic dystonia

Primary monogenic forms of dystonia manifest solely or mainly with dystonia; they have been linked to a number of genes and loci and assigned "DYT" numbers. The pure dystonia syndrome early-onset primary dystonia (DYT1) manifests with dominantly-inherited generalized dystonia, often with focal onset in a limb. DYT1 is caused by a GAG deletion in the TOR1A gene. Mutations in the THAP1 gene cause DYT6, a form of pure dystonia that primarily involves cranio-cervical and upper limb muscles. Patients with the dystonia plus syndrome DYT5 display levodopa-responsive dystonia sometimes associated with tremor or parkinsonism (DYT5a, mutations in GCH1); a more severe phenotype with psychomotor involvement can be seen in recessive forms (DYT5b with TH mutations, SPR-deficiency syndrome). Other forms of dystonia plus syndromes include myoclonic dystonia (DYT11) and rapid-onset dystonia-parkinsonism (DYT12). Finally, paroxysmal exertion-induced dystonia (DYT18, GLUT1 deficiency) is caused by mutations in the SLC2A1 gene (DYT9 and DYT18). It is part of the paroxysmal dystonia group and manifests with paroxystic movements sometimes associated with seizures and psychomotor developmental delay.     

Italian family with cranial cervical dystonia: clinical and genetic study.

A white Italian family affected by primary torsion dystonia (PTD) is described. The family phenotype most commonly presented with adult onset, cranial cervical involvement, and focal or segmental distribution without progression to generalization. Thirty-nine family members and nine spouses were studied. Five subjects received a diagnosis of definite PTD, three of probable PTD. Age at onset was in adulthood for all. In four definitely affected subjects, dystonia started in the cranial or cervical districts; in one it presented as writer's cramp. Familial writer's cramp also occurred in the family of the unrelated parent of the latter patient. The mean age at time of examination was 61.8 years in the individuals with a definite diagnosis; 60 in those with a probable diagnosis. At the time of examination, in most of the affected subjects, dystonia was focal; in three cases (two definitely and one probably affected), it was segmental. DNA linkage analysis, although limited by the size of the family, suggested exclusion of linkage between the disease and known PTD loci (DYT6 and DYT7). The GAG deletion in the DYT1 gene was excluded in the proband and in the family member affected by writer's cramp.     

DYT1 mutations amongst adult primary dystonia patients in Singapore with review of literature comparing East and West

BACKGROUND: Dystonia is a heterogenous group of movement disorders whose clinical spectrum is very wide. At least 13 different genes and gene loci have been reported. While a 3-bp deletion in the DYT1 gene is the most frequent cause of early limb-onset, generalized dystonia, it has also been found in non-generalized forms of sporadic dystonia. An 18-bp deletion in the DYT1 gene has also been reported. OBJECTIVES: We screened for the 3-bp and 18-bp deletions in the DYT1 gene among our sporadic, adult-onset primary dystonia patients in Singapore. We reviewed the literature to compare the frequency of DYT1 mutation between the East and the West. METHODS: We screened 54 patients with primary dystonia (focal: n=41; segmental: n=11; multifocal: n=1; generalized: n=1) for the deletions in the DYT1 gene. A careful review of all published literature on DYT1 screening among sporadic, non-familial, non-Ashkenazi Jewish patients was done. RESULTS: We did not detect any mutations in the exon 5 of the DYT1 gene in any of our patients. The frequency of DYT1 mutation amongst Asians (1.0%) was comparable to the West (1.56%) (p=NS). CONCLUSIONS: DYT1 mutations are uncommon amongst adult primary dystonia patients in Singapore.     

Phenotypic Differences in Dyt1 Between Ethnic Groups

A DYT1 mutation is the most common genetic cause of early-onset primary torsion dystonia. Herein we present the phenotypes of 25 Korean dystonia patients with DYT1 mutations. We further compare the clinical features of the Asian patients with those of the Western DYT 1 mutation patients. In Korean patients, upper extremity was the most common site of symptom onset while there were a few patients with axial-onset dystonia. Generalized dystonia was the most common subtype followed by segmental dystonia. A few patients from the same families had their symptoms at the same age. The clinical features of Korean patients were similar to those of other Asian patients. The Asian patients were differentiated from Western patients by more frequent axial onset, no cranial involvement at onset, and more common segmental dystonia. The variable clinical manifestation in different ethnic groups may suggest that ethnicity is a significant modifier of DYT1 dystonia.