Spinocerebellar ataxia type 3 presenting with writer's cramp without ataxia

Aim of the study: Spinocerebellar ataxia type 3 is the most common cause of autosomal dominant inherited ataxia worldwide.

Material and methods: Clinically, it exhibits wide phenotypic variability. Presentation as isolated dystonia is exceptional.

Results: Here, the case of a woman with writers cramp without ataxia is presented as a paucisymptomatic manifestation of this disease.

Conclusions: This association has not been described to date and extends the clinical variability of the disease.     

Spinocerebellar ataxia type 2 presenting as familial levodopa-responsive parkinsonism.

A genetic analysis identified 2 patients, approximately one-tenth of our patients with familial parkinsonism, who had expanded trinucleotide repeats in SCA2 genes. The reduction of 18F-dopa distribution in both the putamen and caudate nuclei confirmed that the nigrostriatal dopaminergic system was involved in parkinsonian patients with SCA2 mutation.     

Spinocerebellar ataxia type 2 with parkinsonism in ethnic Chinese

OBJECTIVE: To describe the clinical and molecular genetic analysis of a large family of northern Chinese descent with a mutation at the SCA2 locus causing carbidopa-levodopa-responsive parkinsonism. BACKGROUND: Most causes of parkinsonism remain unknown. However, molecular genetic analysis of families with parkinsonism has recently identified five distinct loci and pathogenic mutations in four of those. Additionally, some of the spinocerebellar ataxia syndromes (SCA), particularly Machado-Joseph syndrome (SCA3), are known to cause parkinsonism. Spinocerebellar ataxia type 2 (SCA2) has not previously been described as causing a typical dopamine-responsive asymmetric PD phenotype. METHODS: A large family was evaluated clinically and molecularly for apparent autosomal dominant parkinsonism. RESULTS: The phenotype includes presentation consistent with typical dopamine-responsive parkinsonism. Other presentations in this family include a parkinsonism/ataxia phenotype, which is classic for SCA2 and parkinsonism, resembling progressive supranuclear palsy. CONCLUSIONS: Patients presenting with a family history of parkinsonism, including familial progressive supranuclear palsy and PD, should be tested for the spinocerebellar ataxia type 2 expansion.     

Spinocerebellar ataxia type 15

Spinocerebellar ataxia type 15 (SCA15) was first reported in 2001 on the basis of a single large Anglo-Celtic family from Australia, the locus mapping to chromosomal region 3p24.2-3pter. The characteristic clinical feature was of very slow progression, with two affected individuals remaining ambulant without aids after over 50 years of symptoms. Head and/or upper limb action tremor, and gaze-evoked horizontal nystagmus were seen in several persons. MRI brain scans showed predominant vermal atrophy, sparing the brainstem. In 2004, a Japanese pedigree was reported, which displayed very similar clinical features to the original SCA15 family, and which mapped to an overlapping candidate region. These two families might plausibly reflect a locus homogeneity, but for the present this remains an open question.     

Spinocerebellar ataxia type 20

Spinocerebellar ataxia type 20 (SCA20) was reported in 2004 in a single Australian Anglo-Celtic pedigree. The phenotype is distinctive, with palatal tremor, and hypermetric saccades, and early dentate (but not pallidal) calcification in the absence of abnormalities of calcium metabolism. Dysarthria, rather than gait ataxia, was the initial symptom in most, and was typically conjoined with dysphonia, clinically resembling adductor spasmodic dysphonia. The onset of these speech abnormalities was abrupt in some cases. MRI scanning showed mild to moderate pancerebellar atrophy with dentate calcification, with olivary pseudohypertrophy in some cases, in the absence of other brainstem or cerebral changes. Nerve conduction studies were normal. Progression appeared to be slow. SCA20 is probably rare, as despite the distinctive phenotype, only this one pedigree has been described. The locus mapped to the pericentromeric region of chromosome 11 with a LOD score of 4.47, and its candidate region overlaps that of SCA5. It seems probable that these two SCAs may be separate genetic entities, on the basis of their divergent clinical features, but formal proof awaits discovery of one or both responsible genes.     

Spinocerebellar ataxia type 2 with glial cell cytoplasmic inclusions

Glial cell cytoplasmic inclusions were identified in a case of spinocerebellar ataxia type 2. These have not been reported before. The inclusions were found in low frequency in the dentate nucleus, cerebellar white matter, pontine transverse fibres, and the inferior olivary nucleus. They were of variable size and shape and expressed ubiquitin, thus resembling glial cytoplasmic inclusions in multiple system atrophy. However, their immunohistochemical profile was different as they did not show immunoreactivity for either tau protein or alpha-synuclein. There was no evidence of expanded polyglutamine tracts in these inclusions, which also failed to label with silver stains. As in many other neurodegenerative diseases, in spinocerebellar ataxia type 2 there may be pathogenic contributions of glial cells other than the common astrogliotic response to neuronal damage.     

Spinocerebellar ataxia type 4

The spinocerebellar ataxias (SCAs) with autosomal dominant inheritance are a clinically and genetically heterogeneous group of neurodegenerative disorders. To date 24 different loci have been identified for these conditions. A locus at chromosome 16q22.1 co–segregates with the disease phenotype in families of Scandinavian, Japanese and German origin. The corresponding SCA4 locus was narrowed down to 7.94 Mb for the two European and to 1.25 Mb for Japanese pedigrees. Unfortunately, because of the phenotypic differences between patients from Japan and Europe it is not possible to decide if SCA families linked to chromosome 16q22.1 share a common disease genotype or not. To look for mutations in the German family we screened 34 candidate genes in a 3.69 cM region. With the exception of two cSNPs, no segregation of DNA variations with the disease phenotype was found.     

Spinocerebellar ataxia type 2 in a Turkish family

Autosomal dominant spinocerebellar ataxias are neurodegenerative disorders that generally present in adulthood. Due to extreme expansion of the repeat size during spermatogenesis, they can also be observed in childhood. The diagnosis in childhood is very difficult in the absence of family history. Here we describe an 8-year-old girl with spinocerebellar ataxia type 2 who presented with progressive ataxia, cognitive deficits, and dysarthria. A detailed family history exhibited similarly affected cases on the paternal side. Molecular testing for spinocerebellar ataxia type 2 revealed abnormal "cytosineadenine-guanosine" expansion in all affected family members. The number of cytosine-adenine-guanosine repeats in the index case was 70. The mean size of expansion in the relatives of the patient was 42 (39-46). This finding explains the early onset of symptoms in the index case.     

Spinocerebellar ataxia type 1 in Russia

Spinocerebellar ataxia type 1 (SCA1) is one form of autosomal dominant cerebellar ataxia (ADCA) caused by trinucleotide (CAG) repeat expansion within a mutant gene. We investigated 25 patients from 15 Russian ADCA families for SCA1 mutation and found an expanded CAG repeat in 5 families. Mutant chromosomes contained 41–51 CAG repeats (mean 46.1, SD 3.1), and normal chromosomes displayed 21–27 repeat units (mean 24.7, SD 1.3). Progressive cerebellar ataxia in our series of SCA1 patients was very commonly associated with dysarthria (in all cases) and pyramidal signs (in 10 of 11 cases). In three patients from one family we found optic atrophy, which has never been described before in genetically proven cases of SCA1. We observed no specific clinical features distinguishing SCA1 from non-SCA1 patients. In contrast to the high frequency of SCA1 in our series, we found no patients with Machado-Joseph disease, another form of ADCA caused by expanded CAG repeat.     

Spinocerebellar ataxia type 2 (SCA2) in an Egyptian family presenting with polyphagia and marked CAG expansion in infancy

We describe an Egyptian family having SCA2 affecting three generations with marked molecular and clinical anticipation observed in the index case. Our proband was a male child starting as early as 2 years old with progressive extrapyramidal manifestations, slow eye movements and cognitive impairment. A history of nonspecific mild developmental delay was recorded. The patient lost all cognitive functions, had persistent dystonic posture, trophic changes, vasomotor instability, dysphagia and died at the age of 7 years. The age at presentation among other affected family members varied between 11 and 45 years old across three generations. The early common neurological symptoms were choreoathetotic movements, myoclonic jerk, gait difficulty, expressionless face and emotional liability. Later, overt ataxia, incoordination, dysarthria, mild dementia and slow eye saccades predominated. Brisk tendon reflexes were detected in three cases. Peripheral nerve affection was a late manifestation. Interestingly, polyphagia and obesity were striking manifestations in the middle stage of the disease; an observation that might support a previously suggested relation between the ataxin-2 gene and body weight. The proband showed an amplified allele with marked CAG expansion in the form of a smear sized 69-75 repeats resulted from maternal transmission. To our knowledge, our index case is the second report in the literature presenting with infantile onset SCA2 and intermediate repeat expansion. This family expands the phenotypic spectrum of early onset SCA2 and points out the importance of considering SCA2 gene analysis in children with progressive neurological impairment and abnormal movements with or without polyphagia.     

Spinocerebellar ataxia type 2 with Levodopa-responsive parkinsonism culminating in motor neuron disease.

We describe an exceptional spinocerebellar ataxia type 2 (SCA2) phenotype combining cerebellar ataxia, levodopa-responsive parkinsonism, and motor neuron symptoms. We conclude that motor neuron symptoms and signs may be a striking manifestation in SCA2, masking pre-existing cerebellar and extrapyramidal semeiology.     

Spinocerebellar ataxia type 6 with positional vertigo and acetazolamide responsive episodic ataxia

The SCA6 mutation, a small expansion of a CAG repeat in acalcium channel gene CACNA1A, was identified in three pedigrees. Pointmutations in other parts of the gene CACNA1A were excluded and newclinical features of SCA6 reported—namely, central positional nystagmus and episodic ataxia responsive to acetazolamide. The threeallelic disorders, episodic ataxia type 2, familial hemiplegic migraine, and SCA6, have overlapping clinical features.

     

Spinocerebellar ataxia type 3 presenting as an L-DOPA responsive dystonia phenotype in a Chinese family

The clinical spectrum of spinocerebellar ataxia 3 (SCA 3) disease is wide and varied. We describe a Chinese patient with a mutation at the SCA 3 locus with clinical features of levodopa-responsive dystonia. The family history was suggestive of being autosomally dominant. Levodopa responsiveness though rare has been described in families with features of parkinsonism. Noteworthy is the relatively late onset of disease (>40 years) possibly explained by the low number of affected alleles at 59, the usual range being from 62 to 86, with the lowest recorded number at 56. This expands the wide and varied phenotypic manifestations of SCA 3, and highlights the observation that features suggestive of levodopa-responsive dystonia (DRD) such as focal dystonia, gait difficulty with diurnal fluctuation of symptoms, and a marked response to low doses of levodopa can be presenting features of SCA 3. SCA 3 should be considered a differential diagnosis in adult patients who present with DRD phenotype and with a positive family history.