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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The autosomal dominant spinocerebellar ataxias (SCAs) consist of a highly heterogeneous group of rare movement disorders characterized by progressive cerebellar ataxia variably associated with ophthalmoplegia, pyramidal and extrapyramidal signs, dementia, pigmentary retinopathy, seizures, lower motor neuron signs, or peripheral neuropathy. Over 41 different SCA subtypes have been described evidencing the high clinical and genetic heterogeneity. We previously reported a novel spinocerebellar
ataxia
type subtype, SCA37, linked to an 11-Mb genomic region on 1p32, in a large Spanish
ataxia
pedigree characterized by
ataxia
and a pure cerebellar syndrome distinctively presenting with early-altered vertical eye movements. Here we demonstrate the segregation of an unstable intronic ATTTC pentanucleotide repeat mutation within the 1p32 5' non-coding regulatory region of the gene encoding the reelin adaptor protein
DAB1
, implicated in neuronal migration, as the causative genetic defect of the disease in four Spanish SCA37 families. We describe the clinical-genetic correlation and the first SCA37 neuropathological findings caused by dysregulation of cerebellar
DAB1
expression. Post-mortem neuropathology of two patients with SCA37 revealed severe loss of Purkinje cells with abundant astrogliosis, empty baskets, occasional axonal spheroids, and hypertrophic fibres by phosphorylated neurofilament immunostaining in the cerebellar cortex. The remaining cerebellar Purkinje neurons showed loss of calbindin immunoreactivity, aberrant dendrite arborization, nuclear pathology including lobulation, irregularity, and hyperchromatism, and multiple ubiquitinated perisomatic granules immunostained for
DAB1
. A subpopulation of Purkinje cells was found ectopically mispositioned within the cerebellar cortex. No significant neuropathological alterations were identified in other brain regions in agreement with a pure cerebellar syndrome. Importantly, we found that the ATTTC repeat mutation dysregulated
DAB1
expression and induced an RNA switch resulting in the upregulation of reelin-
DAB1
and PI3K/AKT signalling in the SCA37 cerebellum. This study reveals the unstable ATTTC repeat mutation within the
DAB1
gene as the underlying genetic cause and provides evidence of reelin-
DAB1
signalling dysregulation in the spinocerebellar
ataxia
type 37.
...
PMID:Clinical, genetic and neuropathological characterization of spinocerebellar ataxia type 37. 2993 98
Dynamic mutations by microsatellite instability are the molecular basis of a growing number of neuromuscular and neurodegenerative diseases. Repetitive stretches in the human genome may drive pathogenicity, either by expansion above a given threshold, or by insertion of abnormal tracts in nonpathogenic polymorphic repetitive regions, as is the case in spinocerebellar
ataxia
type 37 (SCA37). We have recently established that this neurodegenerative disease is caused by an (ATTTC)
n
insertion within an (ATTTT)
n
in a noncoding region of
DAB1
. We now investigated the mutational mechanism that originated the (ATTTC)
n
insertion within an ancestral (ATTTT)
n
. Approximately 3% of nonpathogenic (ATTTT)
n
alleles are interspersed by AT-rich motifs, contrarily to mutant alleles that are composed of pure (ATTTT)
n
and (ATTTC)
n
stretches. Haplotype studies in unaffected chromosomes suggested that the primary mutational mechanism, leading to the (ATTTC)
n
insertion, was likely one or more T>C substitutions in an (ATTTT)
n
pure allele of approximately 200 repeats. Then, the (ATTTC)
n
expanded in size, originating a deleterious allele in
DAB1
that leads to SCA37. This is likely the mutational mechanism in three similar (TTTCA)
n
insertions responsible for familial myoclonic epilepsy. Because (ATTTT)
n
tracts are frequent in the human genome, many loci could be at risk for this mutational process.
...
PMID:Mutational mechanism for DAB1 (ATTTC)
n
insertion in SCA37: ATTTT repeat lengthening and nucleotide substitution. 3058 7
