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)

A rare case with mitochondrial encephalomyopathy, in association with cerebellar ataxia, peripheral neuropathy, mental retardation and alveolar hypoventilation syndrome with sleep apnea, as demonstrated by polysomnography, was encountered. This combination has not been described previously. From a prognostic point of view, alveolar hypoventilation syndrome with sleep apnea is an important clinical feature is this disease entity. Neither ataxia nor the abnormality of pyruvate metabolism was alleviated after 6 months of therapy with coenzyme Q10.
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PMID:Mitochondrial encephalomyopathy with sleep apnea. 337 83

Friedreich's ataxia (FA) is the most common form of autosomal recessive spinocerebellar ataxia and is often associated with a cardiomyopathy. The disease is caused by an expanded intronic GAA repeat, which results in deficiency of a mitochondrial protein called frataxin. In the yeast YFH1 knockout model of the disease there is evidence that frataxin deficiency leads to a severe defect of mitochondrial respiration, intramitochondrial iron accumulation, and associated production of oxygen free radicals. Recently, the analysis of FA cardiac and skeletal muscle samples and in vivo phosphorus magnetic resonance spectroscopy (31P-MRS) has confirmed the deficits of respiratory chain complexes in these tissues. The role of oxidative stress in FA is further supported by the accumulation of iron and decreased aconitase activities in cardiac muscle. We used 31P-MRS to evaluate the effect of 6 months of antioxidant treatment (Coenzyme Q10 400 mg/day, vitamin E 2,100 IU/day) on cardiac and calf muscle energy metabolism in 10 FA patients. After only 3 months of treatment, the cardiac phosphocreatine to ATP ratio showed a mean relative increase to 178% (p = 0.03) and the maximum rate of skeletal muscle mitochondrial ATP production increased to 139% (p = 0.01) of their respective baseline values in the FA patients. These improvements, greater in prehypertrophic hearts and in the muscle of patients with longer GAA repeats, were sustained after 6 months of therapy. The neurological and echocardiographic evaluations did not show any consistent benefits of the therapy after 6 months. This study demonstrates partial reversal of a surrogate biochemical marker in FA with antioxidant therapy and supports the evaluation of such therapy as a disease-modifying strategy in this neurodegenerative disorder.
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PMID:Antioxidant treatment improves in vivo cardiac and skeletal muscle bioenergetics in patients with Friedreich's ataxia. 1135 49

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

A 31-year-old woman had encephalopathy, growth retardation, infantilism, ataxia, deafness, lactic acidosis, and increased signals of caudate and putamen on brain magnetic resonance imaging. Muscle biochemistry showed succinate:cytochrome c oxidoreductase (complex II-III) deficiency. Both clinical and biochemical abnormalities improved remarkably with coenzyme Q10 supplementation. Clinically, when taking 300mg coenzyme Q10 per day, she resumed walking, gained weight, underwent puberty, and grew 20cm between 24 and 29 years of age. Coenzyme Q10 was markedly decreased in cerebrospinal fluid, muscle, lymphoblasts, and fibroblasts, suggesting the diagnosis of primary coenzyme Q10 deficiency. An older sister has similar clinical course and biochemical abnormalities. These findings suggest that coenzyme Q10 deficiency can present as adult Leigh's syndrome.
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PMID:Coenzyme Q-responsive Leigh's encephalopathy in two sisters. 1244 28

The authors measured coenzyme Q10 (CoQ10) concentration in muscle biopsies from 135 patients with genetically undefined cerebellar ataxia. Thirteen patients with childhood-onset ataxia and cerebellar atrophy had markedly decreased levels of CoQ10. Associated symptoms included seizures, developmental delay, mental retardation, and pyramidal signs. These findings confirm the existence of an ataxic presentation of CoQ10 deficiency, which may be responsive to CoQ10 supplementation.
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PMID:Cerebellar ataxia and coenzyme Q10 deficiency. 1268 39

Friedreich Ataxia (FRDA), the most common inherited ataxia, arises from defective expression of the mitochondrial protein frataxin, which leads to increased mitochondrial oxidative damage. Therefore, antioxidants targeted to mitochondria should be particularly effective at slowing disease progression. To test this hypothesis, we compared the efficacy of mitochondria-targeted and untargeted antioxidants derived from coenzyme Q10 and from vitamin E at preventing cell death due to endogenous oxidative stress in cultured fibroblasts from FRDA patients in which glutathione synthesis was blocked. The mitochondria-targeted antioxidant MitoQ was several hundredfold more potent than the untargeted analog idebenone. The mitochondria-targeted antioxidant MitoVit E was 350-fold more potent than the water soluble analog Trolox. This is the first demonstration that mitochondria-targeted antioxidants prevent cell death that arises in response to endogenous oxidative damage. Targeted antioxidants may have therapeutic potential in FRDA and in other disorders involving mitochondrial oxidative damage.
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PMID:Mitochondria-targeted antioxidants protect Friedreich Ataxia fibroblasts from endogenous oxidative stress more effectively than untargeted antioxidants. 1292 74

Mitochondrial disorders are important causes of progressive ataxia in children. Clinical examination, metabolic studies, imaging studies, muscle biopsies, and mitochondrial DNA studies are required to arrive at a specific diagnosis. There is poor correlation between phenotype and genotype in mitochondrial disorders. Ataxia is a major clinical presentation in Kearns-Sayre syndrome; mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes; myoclonic epilepsy with ragged-red fibers; neurogenic muscle weakness, ataxia, and retinitis pigmentosa; Leigh's syndrome; and coenzyme Q10 deficiency.
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PMID:Mitochondrial disorders and ataxia. 1465 8

Mitochondria clearly play a central role in the pathogenesis of Friedreich's Ataxia. The most common genetic abnormality results in the deficiency of the protein frataxin, which is targeted to the mitochondrion. Research since this discovery has indicated that mitochondrial respiratory chain dysfunction, mitochondrial iron accumulation and oxidative damage are important components of the disease mechanism. While the role of frataxin is not known, evidence is currently pointing to a role in either mitochondrial iron handling or iron sulphur centre synthesis. These advances in our understanding of the disease mechanisms are enabling therapeutic avenues to be explored, in particular the use of established drugs such as antioxidants and enhancers of respiratory chain function. Vitamin E therapy has been shown to be beneficial in patients with ataxia with vitamin E deficiency, and CoQ10 therapy was effective in some patients with ataxia associated with CoQ10 deficiency. A combined therapy involving long term treatment with high doses of vitamin E and coenzyme Q10 has jointly targeted two of the major features of Friedreich's Ataxia; decreased mitochondrial respiratory chain function and increased oxidative stress. This therapy clearly showed a rapid and sustained increase in the energy generated by the FRDA heart muscle, nearly returning to normal levels. The improvements in skeletal muscle energy generation parallel those of the heart but to a lower level. While this therapy appeared to slow the predicted progression of some clinical symptoms a larger placebo controlled study is required to confirm these observations. Other antioxidant strategies have involved the use of Idebenone, selenium and N acetyl cysteine but only the use of Idebenone has involved structured trials with relatively large patient numbers. Idebenone clearly had an impact upon the cardiac hypertrophy in the majority of patients, although there have not been any other significant benefits reported to date.
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PMID:Friedreich's Ataxia: disease mechanisms, antioxidant and Coenzyme Q10 therapy. 1469 32

Two brothers had late-onset progressive ataxia, cerebellar atrophy, and hypergonadotropic hypogonadism associated with coenzyme Q10 (CoQ10) deficiency in skeletal muscle. Both patients improved on high-dose CoQ10 supplementation, stressing the importance of CoQ10 deficiency in the differential diagnosis of cerebellar ataxia, even when onset is late.
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PMID:Late-onset cerebellar ataxia with hypogonadism and muscle coenzyme Q10 deficiency. 1500 42

Friedreich's ataxia is one of the most frequent ataxias of childhood. The disease is inherited in autosomal recessive mode. It is caused by deficiency of mitochondrial protein frataxin, which is responsible for the degenerative impairment of the spinocerebellar and corticospinal tracts and posterior columns of the spinal cord and for the heart damage. We present a case report of a patient with a complete clinical syndrome. Patient experienced slowly progressive neurological symptomatology from the age of 6 years, which consisted of instability, gait abnormalities, tremor and ataxia. Adult patient became immobile with severe quadruparesis and dysarthria. Cardiac involvement presented in adulthood with multifocal atrial tachycardia became the chief symptom. Hypertrophic cardiomyopathy was diagnosed. Diagnosis of Friedreich's ataxia was confirmed by genetic analysis. Pharmacotherapy with coenzyme Q10 and carnitine was introduced with effort to slow down progression of cardiac impairment. Causal treatment is still impossible.
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PMID:[Cardiac manifestations of Friedreich's ataxia]. 1506 Nov 20


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