Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Friedreich's ataxia (FRDA) is an autosomal recessive neurodegenerative disease causing limb and gait ataxia and cardiomyopathy. The disease gene encodes a mitochondrial protein of unknown function, frataxin. The loss of functional frataxin is caused by a large GAA trinucleotide expansion in the first intron of the gene, thus impairing gene transcription. The lack of frataxin appears to result primarily in disabled recruitment of early antioxidant defenses, resulting in oxidative insult to the highly sensitive iron-sulfur proteins aconitase and three mitochondrial respiratory chain complexes (I-III). Accordingly, antioxidant-based therapy appears promising in counteracting the course of the disease.
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PMID:Molecular insights into Friedreich's ataxia and antioxidant-based therapies. 1206 31

Friedreich's ataxia (FRDA), the most common inherited ataxia, is an autosomal recessive degenerative disorder caused by a GAA triplet expansion or point mutations in the FRDA gene on chromosome 9q13. The FRDA gene product, frataxin, is a widely expressed mitochondrial protein, which is severely reduced in FRDA patients. The demonstration that deficit of frataxin in FRDA is associated with mitochondrial iron accumulation, increased sensitivity to oxidative stress, deficit of respiratory chain complex activities and in vivo impairment of cardiac and skeletal muscle tissue energy metabolism, has established FRDA as a "new" nuclear encoded mitochondrial disease. Pilot studies have shown the potential effect of antioxidant therapy based on idebenone or coenzyme Q10 plus Vitamin E administration in this condition and provide a strong rationale for designing larger randomized clinical trials.
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PMID:Mitochondrial dysfunction in Friedreich's ataxia: from pathogenesis to treatment perspectives. 1206 11

Friedreich's ataxia (FRDA) is a neuro-degenerative disease causing limb and gait ataxia and hypertrophic cardiomyopathy. It results from a triplet expansion in the first intron of the frataxin gene encoding a mitochondrial protein of yet unknown function. Cells with low frataxin content display generalized deficiency of mitochondrial iron-sulfur cluster-containing proteins, which presumably denotes overproduction of superoxide radicals in these organelles. Idebenone, a short-chain quinone, may act as a potent free radical scavenger protecting mitochondria against oxidative stress. We therefore carried out an open trial of idebenone (oral supplementation; 5mg/kg/day) in a large series of FRDA patients and followed their left ventricular mass and function. Consistent and definitive worsening being observed in the natural course of the disease and cardiac hypertrophy having no chance of spontaneous reversal and to be subject to a placebo effect, the patient's heart status before and after the treatment was used to unambiguously establish the effect of the drug. After six months, heart ultrasound revealed more than 20% reduction of left ventricular mass in about half of the patients (p < 0.001) and no significant change in the other half. Since any measurable reversion of this pathogenic trait is highly significant, this demonstrates the efficiency of idebenone in controlling heart hypertrophy in FRDA. Owing to the absence of side effects of the drug, idebenone (up to 15mg/kg/day) should be prescribed for FRDA patients continuously as early as possible.
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PMID:Heart hypertrophy and function are improved by idebenone in Friedreich's ataxia. 1206 12

We report here a 25-year-old girl with Friedreich's ataxia (FA) who showed slowly progressive ataxia, deep sensory disturbance and loss of large myelinated fiber in the sural nerve. There was no evidence of cerebellar atrophy or abnormal values of vitamin E, albumin, CK, and gamma-globulin in the serum. Except for mild mental retardation, her clinical and laboratory findings were consistent with those of FA. However, she had no abnormal GAA trinucleotide repeat expansion on chromosome 9q13, unlike typical FA patients in Europe. Her cardiac muscle is not involved instead of 20 years have passed since her ataxia developed. She is considered to belong to a specific type of FA which lacks cardiac muscle involvement and abnormal gene encoding frataxin.
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PMID:[A case of Friedreich's ataxia having no abnormal gene]. 1213 87

Over 100 mutations of mitochondrial DNA (mtDNA) have been associated with human disease. The phenotypic manifestation of mtDNA mutations is extremely broad, from oligosymptomatic patients with isolated deafness, diabetes, ophthalmoplegia, etc., to complex encephalomyopathic disorders that may include dementia, seizures, ataxia, stroke-like episodes, etc. The genotype variants are also wide, with rearrangements (deletions, duplications) and point mutations affecting protein coding genes, tRNAs and rRNAs. There are some broad genotype/phenotype correlations but also substantial overlap. The pathogenetic mechanisms involved in the expression of mtDNA mutations are still not yet fully understood. More recently, mutations of nuclear genes encoding subunits of the respiratory chain, particularly those of complex I, have been identified. These predominantly, but not exclusively, involve infant onset disease with early death. Recently it has become clear that the function of the respiratory chain may be impaired by mutations affecting other mitochondrial proteins or as a secondary phenomenon to other intracellular biochemical derangements. Examples include Friedreich ataxia where a mutation of a nuclear encoded protein (frataxin), probably involved in iron homeostasis in mitochondria, results in severe deficiency of the respiratory chain in a pattern indicative of free radical mediated damage. Mutations of nuclear encoded proteins involved in cytochrome oxidase assembly and maintenance have been characterised and, as predicted, are associated with severe deficiency of cytochrome oxidase and, most frequently, Leigh syndrome. Defects of intracellular metabolism, with particularly excess-free radical generation including nitric oxide or peroxynitrite, may cause secondary damage to the respiratory chain. This is probably of relevance in Huntington disease, motor neuron disease (amyotrophic lateral sclerosis) and Wilson disease. These disorders seem to have defective oxidative phosphorylation as a common pathway in their pathogenesis and it may be that treatments designed to improve respiratory chain function may ameliorate the progression of these disorders.
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PMID:Primary and secondary defects of the mitochondrial respiratory chain. 1213 29

The mitochondrial matrix protein frataxin is depleted in patients with Friedreich's ataxia, the most common autosomal recessive ataxia. While frataxin is important for intracellular iron homeostasis, its exact cellular role is unknown. Deletion of the yeast frataxin homolog YFH1 yields mutants ((Delta)yfh1) that, depending on the genetic background, display various degrees of phenotypic defects. This renders it difficult to distinguish primary (early) from secondary (late) consequences of Yfh1p deficiency. We have constructed a yeast strain (Gal-YFH1) that carries the YFH1 gene under the control of a galactose-regulated promoter. Yfh1p-deficient Gal-YFH1 cells are far less sensitive to oxidative stress than (Delta)yfh1 mutants, maintain mitochondrial DNA, and synthesize heme at wild-type rates. Yfh1p depletion causes a strong reduction in the assembly of mitochondrial Fe/S proteins both in vivo and in detergent extracts of mitochondria. Impaired Fe/S protein biogenesis explains the respiratory deficiency of Gal-YFH1 cells. Furthermore, Yfh1p-depleted Gal-YFH1 cells show decreased maturation of cytosolic Fe/S proteins and accumulation of mitochondrial iron. This latter phenotype is common for defects in cytosolic Fe/S protein assembly. Together, our data demonstrate a specific role of frataxin in the biosynthesis of cellular Fe/S proteins and exclude most of the previously suggested functions. Friedreich's ataxia may therefore represent a disorder caused by defects in Fe/S protein maturation.
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PMID:The yeast frataxin homolog Yfh1p plays a specific role in the maturation of cellular Fe/S proteins. 1216 64

Friedreich's ataxia is the most frequent inherited ataxia in Caucasians. It is caused by deficiency of frataxin, a highly conserved nuclear-encoded protein localized in mitochondria. The DNA abnormality found in 98% of Friedreich's ataxia chromosomes is the unstable hyperexpansion of a GAA triplet repeat in the first intron of the frataxin gene. Most patients are homozygous for this repeat expansion. The expanded GAA repeat causes frataxin deficiency because it interferes with the transcription of the gene by adopting a non-B (probably triple helical) structure. Longer repeats cause a more profound frataxin deficiency and are associated with earlier onset and increased severity of the disease. Molecular testing has shown that the phenotypic spectrum of Friedreich's ataxia is wider than previously thought. Up to 10% of patients with recessive or sporadic degenerative ataxia who do not fulfill the Friedreich's ataxia diagnostic criteria are homozygous for expanded alleles at the Friedreich's ataxia locus. Late age of onset, retained tendon reflexes, and lack of pyramidal signs are among the atypical features observed in some patients with a positive molecular test. Yeast cells deficient in the frataxin homologue accumulate iron in mitochondria and show increased sensitivity to oxidative stress. This suggests that Friedreich's ataxia is caused by mitochondrial dysfunction and free radical toxicity, with consequent mitochondrial damage, axonal degeneration, and cell death.
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PMID:Friedreich's ataxia: clinical aspects and pathogenesis. 1219 87

Movement disorders are well known features of some dominant hereditary ataxias (HA), specially SCA3/Machado-Joseph disease and dentatorubropallidolusyan atrophy. However, little is known about the existence and classification of movement disorders in other dominant and recessive ataxias. We prospectively studied the presence of movement disorders in patients referred for HA over the last 3 years. Only those patients with a confirmed family history of ataxia were included. We studied 84 cases of HA, including 46 cases of recessive and 38 cases of dominant HA. Thirty out of 46 cases of recessive HA could be classified as: Friedreich ataxia (FA), 29 cases; vitamin E deficiency, 1 case. Twenty-three out of 38 cases of dominant HA could be classified as: SCA 2, 4 cases; SCA 3, 8 cases; SCA 6, 4 cases; SCA 7, 6 cases and SCA 8, 1 case. We observed movement disorders in 20/38 (52%) patients with dominant HA and 25/46 (54%) cases with recessive HA, including 16 patients (16/29) with FA. In general, postural tremor was the most frequent observed movement disorder (27 cases), followed by dystonia (22 cases). Five patients had akinetic rigid syndrome, and in 13 cases, several movement disorders coexisted. Movement disorders are frequent findings in HA, not only in dominant HA but also in recessive HA.
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PMID:Movement disorders in hereditary ataxias. 1222 Jun 93

Many of autosomal dominant spinocerebellar ataxias (SCA) are now shown to result from the expansion of unstable trinucleotide repeats. In most SCAs, these repeats are present within coding sequences of the causative genes and translated into polyglutamine tracts. In this overview clinical and molecular genetic features of newly identified group of diseases in this category are briefly summarized. Expanded polyglutamine repeats are supposed to mediate some toxic effects on a certain population of neurons that result in neuronal dysfunction. The current progress in these molecular biological studies on their pathophysiology is also reviewed. In Japan, Friedreich ataxia with intoronic GAA repeat expansions has not been known. Instead, early onset ataxia with Friedreich phenotype, associated with ocular motor apraxia in childhood and with hypoalbuminemia in adult, is the predominant ataxia with Friedreich phenotype, the causative mutation of which was very recently identified.
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PMID:[Hereditary ataxias-overview]. 1223 12

Atypical Friedreich's ataxia was diagnosed by DNA-analysis in 4 patients, 2 men aged 70 and 67 and 2 women aged 32 and 37, who had features that included an onset of ataxia after the age of 25, retained tendon reflexes or hyperreflexia, absence of Babinski's sign, and/or a slowly progressive course. Friedreich's ataxia is the most frequent autosomal recessive cerebellar ataxia. Classical characteristics of the disease are a progressive cerebellar ataxia with an onset before the age of 25, loss of lower extremity tendon reflexes, and bilateral Babinski's sign. However, DNA-diagnostic testing based upon the detection of expanded GAA-repeats in the X25-gene, has shown that the clinical spectrum is broader than was previously assumed.
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PMID:[Friedrich's ataxia: clinical difficulties and genetic possibilities]. 1224 69


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