UMLS:C0016719 - FACTA Search

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Query: UMLS:C0016719 (Friedreich's ataxia)
2,098 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Accurate clinical diagnosis of the spinocerebellar ataxias (SCAs) can be difficult because of overlap in phenotype with other disorders and variation in clinical manifestations. Six SCA loci have been mapped and four disease causing genes identified, in addition to the causative gene for Friedreich's ataxia (FA). All of the identified mutations are expansions of trinucleotide repeat tracts. The SCA2 and SCA6 genes were published recently. The extent of the normal CAG size ranges at these loci and the relative frequencies of the known causes of SCA in the UK are not known. This study first investigated the normal size ranges of the SCA2 and SCA6 loci by genotyping control populations of West African and South African subjects, since African populations generally show the greatest allelic diversity. We found one allele larger than the previously determined normal range for SCA2, and our results at the SCA6 locus agreed with the previously reported normal range. The second component of the study assessed the relative frequencies of the SCA1, 2, 3, and 6, DRPLA, and FA trinucleotide repeat mutations in 146 patients presenting with SCA-like symptoms referred to genetic diagnostic laboratories in the UK. We detected mutations in 14% of patients referred with a diagnosis of autosomal dominant SCA, and in 15% of patients referred with spinocerebellar ataxia where we did not have sufficient family history data available to allow categorisation as familial or sporadic cases. Friedreich's ataxia accounted for 3% of the latter category of cases in our sample, but the most common causes of SCA were SCA2 and SCA6.
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PMID:Analysis of spinocerebellar ataxia types 1, 2, 3, and 6, dentatorubral-pallidoluysian atrophy, and Friedreich's ataxia genes in spinocerebellar ataxia patients in the UK. 942 38

The hereditary ataxias are a group of inherited neurodegenerative disorders characterized by progressive ataxia that results from degeneration of the cerebellum and its afferent and efferent connections. Recent molecular research has led not only to the discovery of a number of causative mutations, but also shed light on the likely mechanisms by which these mutations cause the respective phenotypes. In Friedreich's ataxia (FRDA), the most common type of autosomal recessive ataxia, the loss of a mitochondrial protein, frataxin, results in overload of mitochondrial iron and oxidative stress. The autosomal dominant ataxias, spinocerebellar ataxia type I (SCAI), SCA2, SCA3 and SCA7, are caused by inheritance of an unstable, expanded CAG trinucleotide repeat. These disorders are assumed to be due to a novel deleterious function of the extended polyglutamine sequences within the proteins encoded by the respective genes. Recent observations in transgenic mice and in human post-mortem tissue suggest that the extended proteins are transported into the nucleus of neurons where they form intranuclear inclusions that disrupt normal nuclear function. In another group of dominant disorders, episodic ataxia type I and type 2 (EA-I, EA-2) and SCA6, the mutations affect genes that code for ion channels.
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PMID:Genes involved in hereditary ataxias. 973 50

The discovery of unstable DNA sequences as the cause of genetic disease is a fascinating new area in human genetics, raising a number of important questions addressing the understanding of both the mechanisms and the effects of this new type of mutation. Trinucleotide repeat expansion mutations have been identified in a number of neurodegenerative diseases, including spinal and bulbar muscular atrophy (SBMA), fragile X syndrome (FRAXA and FRAXE), myotonic dystrophy (DM), Huntington's disease (HD), spinocerebellar ataxia types 1, 2, 3, 6, 7 (SCA1, SCA2, SCA3, SCA6, SCA7), dentatorubral-pallidoluysian atrophy (DRPLA), Friedreich's ataxia (FRDA) and autosomal dominant pure spastic paraplegia (ADPSP). They have been traced to genetic variation in the length of (CTG)n/(CAG)n, (CGG)n/(CCG)n, or (GAA)n/(TTC)n triplet repeats in DNA. In normal individuals these loci contain a short length of triplet repeats (usually 5-40), which is polymorphic within the population. Increases in the lengths of the translated triplet repeats to 40-100 are associated with disease symptoms, whereas the untranslated triplet repeats to 200-3000 are associated with the disease. We concentrated on repeat expansions in myotonic dystrophy. In this symposium, we outline the molecular aspects of myotonic dystrophy including DNA diagnosis and anticipation, and review the similarities and differences among these triplet repeat diseases.
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PMID:[Genomic instability and neurodegenerative disease]. 1006 64

A total of 500 SCA patients were examined at the Department of Neurology, Hokkaido University, from 1982 to 1997 (16 years), and 42.2% of them showed positive family history for SCA. Their diagnoses were re-evaluated, based on the current diagnostic criteria including SCA genotyping. A total of 228 patients consisted of MJD (24.6%), SCA6 (11.8%), SCA1 (10.5%), SCA2 (4.4%), DRPLA (0.004%), pure familial spastic paraplegia (FSP, 5.7%), complicated FSP (4.8%), Friedreich ataxia (FRDA)-like recessive SCA (1.8%), "ADCA I" (12.7%), "ADCA III" in which SCA genotypes were not determined (13.6%), and "ADCA III" whose mutations were different from SCA6 (9.6%). Since our "ADCA I" mostly showed MJD phenotype and approximately half of genotyped "ADCA III" was found to be SCA6, both MJD and SCA6 were estimated to be the most prevalent dominant SCA in our subjects. There was no SCA7, or FRDA with unstable GAA repeat expansion. DRPLA has been considered rather prevalent SCA in Japan, however, it was exceedingly rare in our subjects, indicating that the prevalence is different even within Japan.
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PMID:[Frequencies of triplet repeat disorders in dominantly inherited spinocerebellar ataxia (SCA) in the Japanese]. 1022 66

Autosomal dominant cerebellar ataxias (ADCA) are a clinically heterogeneous group of neurodegenerative disorders caused by unstable CAG repeat expansions encoding polyglutamine tracts. Five spinocerebellar ataxia genes (SCA1, SCA2, SCA3, SCA6 and SCA7) and another related dominant ataxia gene (DRPLA) have been cloned, allowing the genetic classification of these disorders. We present here the molecular analysis of 87 unrelated familial and 60 sporadic Spanish cases of spinocerebellar ataxia. For ADCA cases 15% were SCA2, 15% SCA3, 6% SCA1, 3% SCA7, 1% SCA6 and 1% DRPLA, an extremely rare mutation in Caucasoid populations. About 58% of ADCA cases remained genetically unclassified. All the SCA1 cases belong to the same geographical area and share a common haplotype for the SCA1 mutation. The expanded alleles ranged from 41 to 59 repeats for SCA1, 35 to 46 [corrected] for SCA2, 67 to 77 for SCA3, and 38 to 113 for SCA7. One SCA6 case had 25 repeats and one DRPLA case had 63 repeats. The highest CAG repeat variation in meiotic transmission of expanded alleles was detected in SCA7, this being of +67 units in one paternal transmission and giving rise to a 113 CAG repeat allele in a patient who died at 3 years of age. Meiotic transmissions have also shown a tendency to more frequent paternal transmission of expanded alleles in SCA1 and maternal in SCA7. All SCA1 and SCA2 expanded alleles analyzed consisted of pure CAG repeats, whereas normal alleles were interrupted by 1-2 CAT trinucleotides in SCA1, except for three alleles of 6, 14 and 21 CAG repeats, and by 1-3 CAA trinucleotides in SCA2. No SCA or DRPLA mutations were detected in the 60 sporadic cases of spinocerebellar ataxia, but one late onset patient was identified as a recessive form due to GAA-repeat expansions in the Friedreich's ataxia gene.
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PMID:Spinocerebellar ataxias in Spanish patients: genetic analysis of familial and sporadic cases. The Ataxia Study Group. 1045 42

We estimated the relative contributions of known ataxia genes (SCA1, 2, 3, 6, 7 and X25) in the patient population sent to our DNA diagnostic laboratory for diagnostic testing. Approximately 28% of these patients had an abnormal triplet repeat expansion in one of these ataxia genes (3% for SCA1, 8% for SCA2, 11% for SCA3/MJD, 2% for SCA6, 3% for SCA7, and 1.5% for X25). The lack of abnormal repeat expansions in the majority of ataxis patients tested suggests that the molecular defects associated with most ataxia cases are currently undetermined and that this population includes both familial and sporadic cases. In contrast, of the patients submitted for genetic testing for Friedrich's ataxia (FRDA), 44% (69/157) showed at least one expansion in the X25 gene, indicating that FRDA accounts for a significant proportion of the recessively inherited ataxias and appears to have a high rate of accurate clinical diagnosis. On the basis of our DNA studies, we propose a comprehensive and efficient approach for molecular analysis of ataxia patients.
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PMID:Estimated contribution of known ataxia genes in ataxia patients undergoing DNA testing. 1046 57

Approximately 44% of cases of spinocerebellar ataxia (SCA) in Hokkaido, the northernmost island of Japan, were estimated to be inherited. To determine the prevalence of triplet repeat expansion in hereditary SCA patients, we genotyped seven genetically defined dominant SCAs in 349 patients, including 266 patients from 77 families, 78 probands from unrelated families with hereditary late-onset SCA, and five patients in whom a family history of SCA was not demonstrated. The frequency of each disorder in a total of 155 unrelated families was 23.9% for Machado-Joseph disease (MJD), 29.0% for SCA6, 9.7% for SCA1, 7.7% for SCA2, and 2.6% for dentatorubral-pallidoluysian atrophy. Abnormal expansion of triplet repeats for SCA7 and SCA8 was not detected. A total of 27.1% of the patients had still unknown SCA mutations. In addition, the GAA repeat in the frataxin gene was not abnormally expanded in 13 early-onset SCA patients with clinical features similar to those of Friedreich ataxia. Comparison of our results with those from other centers handling SCA showed that MJD is prevalent throughout Japan, but the frequencies of other dominant SCAs differ considerably even within Japan.
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PMID:Prevalence of triplet repeat expansion in ataxia patients from Hokkaido, the northernmost island of Japan. 1078 56

Since the discovery of the first mutations that cause hereditary ataxias in the early 1990s, there has been continuous progress in deciphering the molecular pathogenesis of degenerative ataxias. Recent research in Friedreich's ataxia, the most frequent recessive ataxia, has provided further evidence that the clinical phenotype of this disorder is caused by abnormal oxidative phosphorylation due to mitochondrial dysfunction. The dominantly inherited spinocerebellar ataxias (SCAs) are genetically heterogeneous. Up to now, 11 distinct loci have been identified. The mutations that cause SCA1, SCA2, SCA3, SCA6 and SCA7 share the common feature of an expanded CAG sequence, encoding an abnormally long polyglutamine tract within the respective gene products. Recent pathogenetic research points to the importance of abnormal protein-protein interaction and altered gene transcription. The aetiology of many sporadic ataxias remains obscure. In some patients, association of ataxia with specific serum antibodies (antigliadin, antiglutamic acid decarboxylase) suggests an immune pathogenesis.
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PMID:Recent advances in degenerative ataxias. 1097 64

Disease-causing mutations have been identified in various entities of autosomal dominant ataxia and in Friedreich's ataxia. However, no molecular pathogenic factor is known to cause idiopathic cerebellar ataxias. We investigated the CAG/CTG trinucleotide repeats causing spinocerebellar ataxia types 1, 2, 3, 6, 7, 8 and 12, and the GAA repeat of the frataxin gene in 124 patients apparently suffering from idiopathic sporadic ataxia, including 20 patients with the clinical diagnosis of multiple system atrophy. Patients with a positive family history, a typical Friedreich phenotype, or symptomatic ataxia were excluded. Genetic analyses uncovered the most common Friedreich mutation in 10 patients with an age at onset between 13 and 36 years. The SCA6 mutation was present in nine patients with disease onset between 47 and 68 years of age. The CTG repeat associated with SCA8 was expanded in three patients. One patient had SCA2 attributable to a de novo mutation from a paternally transmitted, intermediate allele. We did not identify the SCA1, SCA3, SCA7 or SCA12 mutation in idiopathic sporadic ataxia patients. No trinucleotide repeat expansion was detected in the MSA subgroup. This study has revealed the genetic basis in 19% of apparently idiopathic ataxia patients. SCA6 is the most frequent mutation in late onset cerebellar ataxia. The frataxin trinucleotide expansion should be investigated in all sporadic ataxia patients with onset before age 40, even when the phenotype is atypical for Friedreich's ataxia.
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PMID:Genetic background of apparently idiopathic sporadic cerebellar ataxia. 1103 Apr 10

We investigated the genotype frequencies of patients with spinocerebellar ataxias (SCA), using a community-based prevalence study among 613,349 inhabitants in Tottori prefecture, Japan. Prevalence date was April 1, 1998. On this date, 109 SCA patients were identified in this community. The prevalence of SCA was 17.8 per 100,000 individuals. The most common cause of inherited SCA was a mutation at the SCA6 locus (25%), followed by mutation at the SCA1 locus (15%), SCA3 locus (5%) and dentatorubral-pallidoluysian atrophy locus (5%). None of the expanded alleles was found in SCA2, SCA7 or Friedreich's ataxia. Mutation at SCA6 was also the most common form of sporadic SCA at 11%. Prevalences per 100,000 individuals were as follows: SCA6, 2.40; SCA1, 0.48; DRPLA, 0.32, and SCA3, 0.16.
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PMID:A genetic epidemiological study of spinocerebellar ataxias in Tottori prefecture, Japan. 1135 84

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