UMLS:C0751651 - FACTA Search

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Query: UMLS:C0751651 (mitochondrial disease)
1,844 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A generalized defect of complex IV (cytochrome C oxidase, COX) is frequently found in subacute necrotizing encephalomyelopathy (Leigh's syndrome), the most common mitochondrial disorder in infancy. We previously demonstrated the nuclear origin of the COX defect in one case, by fusing nuclear DNA-less cytoplasts derived from normal fibroblasts with mitochondrial DNA (mtDNA)-less transformant fibroblasts derived from a patient with COX-defective [COX(-)] Leigh's syndrome. The resulting cybrid line showed a specific and serve COX(-) phenotype. Conversely, in the present study, we demonstrated that a COX(+) phenotype could be restored in hybrids obtained by fusing COX(-) transformant fibroblasts of seven additional Leigh's syndrome patients with mtDNA-less, COX(-) tumor-derived rho degree cells. Both these results are explained by the presence of a mutation in a nuclear gene. In a second set of experiments, in order to demonstrate whether COX(-) Leigh's syndrome is due to a defect in the same gene, or in different genes, we tested several hybrids derived by fusing our original COX(-) cell line with each of the remaining seven cell lines. COX activity was evaluated in situ by histochemical techniques and in cell extracts by a spectrophotometric assay. No COX complementers were found among the resulting hybrid lines. This result demonstrates that all our cases were genetically homogeneous, and suggests that a major nuclear disease locus is associated with several, perhaps most, of the cases of infantile COX(-) Leigh's syndrome. This information should make it easier to identify the gene responsible.
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PMID:A single cell complementation class is common to several cases of cytochrome c oxidase-defective Leigh's syndrome. 906 42

Leigh disease associated with cytochrome c oxidase deficiency (LD[COX-]) is one of the most common disorders of the mitochondrial respiratory chain, in infancy and childhood. No mutations in any of the genes encoding the COX-protein subunits have been identified in LD(COX-) patients. Using complementation assays based on the fusion of LD(COX-) cell lines with several rodent/human rho0 hybrids, we demonstrated that the COX phenotype was rescued by the presence of a normal human chromosome 9. Linkage analysis restricted the disease locus to the subtelomeric region of chromosome 9q, within the 7-cM interval between markers D9S1847 and D9S1826. Candidate genes within this region include SURF-1, the yeast homologue (SHY-1) of which encodes a mitochondrial protein necessary for the maintenance of COX activity and respiration. Sequence analysis of SURF-1 revealed mutations in numerous DNA samples from LD(COX-) patients, indicating that this gene is responsible for the major complementation group in this important mitochondrial disorder.
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PMID:Mutations of SURF-1 in Leigh disease associated with cytochrome c oxidase deficiency. 983 11

A novel heteroplasmic 7587T-->C mutation in the mitochondrial genome which changes the initiation codon of the gene encoding cytochrome c oxidase subunit II (COX II), was found in a family with mitochondrial disease. This T-->C transition is predicted to change the initiating methionine to threonine. The mutation load was present at 67% in muscle from the index case and at 91% in muscle from the patient's clinically affected son. Muscle biopsy samples revealed isolated COX deficiency and mitochondrial proliferation. Single-muscle-fiber analysis revealed that the 7587C copy was at much higher load in COX-negative fibers than in COX-positive fibers. After microphotometric enzyme analysis, the mutation was shown to cause a decrease in COX activity when the mutant load was >55%-65%. In fibroblasts from one family member, which contained >95% mutated mtDNA, there was no detectable synthesis or any steady-state level of COX II. This new mutation constitutes a new mechanism by which mtDNA mutations can cause disease-defective initiation of translation.
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PMID:An mtDNA mutation in the initiation codon of the cytochrome C oxidase subunit II gene results in lower levels of the protein and a mitochondrial encephalomyopathy. 1020 64

An Argentine male child died at 4.5 years of age of a lethal mitochondrial disease associated with a MELAS mutation and a Barth syndrome-like presentation. The child had severe failure to thrive from the early months and for approximately two years thereafter. In addition, the patient had severely delayed gross motor milestones, marked muscle weakness, and dilated cardiomyopathy that progressed to congestive heart failure. He also had persistently elevated urinary levels of 3-methylglutaconic and 2-ethylhydracrylic acids and low blood levels of cholesterol. Detailed histopathologic evaluation of the skeletal muscle biopsy showed high activity of succinate dehydrogenase, a generalized decrease of COX activity, and abundant ragged-red fibers. Electron microscopic studies revealed multiple mitochondrial abnormalities in lymphocytes and monocytes, in the striated muscle, and in the postmortem samples (muscle, heart, liver, and brain). Biochemical analysis showed a pronounced and constant lactic acidosis, and abnormal urinary organic acid excretion (unchanged in the fasting and postprandial states). In addition, in CSF there was a marked increase of lactate and beta-hydroxybutyrate (beta-HOB) and also a high systemic ratio beta-HOB/acetoacetate. Enzymatic assay of the respiratory chain in biopsied muscle showed 10% of complex I activity and 24% of complex IV activity compared with controls. Molecular studies of the mitochondrial genome revealed an A to G mutation at nucleotide pair 3243 in mitochondrial DNA, a well-known pathogenetic mutation (MELAS mutation) in all the patient's tissues and also in the blood specimens of the probands mother and sibs (4 of 5). The diagnosis of MELAS mutation was reinforced by the absence of an identifiable mutation in the X-linked G4.5 gene of the propositus. The present observation gives additional evidence of the variable clinical expression of mtDNA mutations in humans and demonstrates that all clinical variants deserve adequate investigation to establish a primary defect. It also suggests adding Barth-like syndrome to the list of phenotypes with the MELAS mutation.
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PMID:Barth's syndrome-like disorder: a new phenotype with a maternally inherited A3243G substitution of mitochondrial DNA (MELAS mutation). 1124 64

Parkinson's disease is a nosological entity of unknown origin for which, in some cases, a possible pathogenetic role for mitochondrial dysfunction has been postulated. Two young onset parkinsonian patients with mitochondrial DNA (mtDNA) deletions in skeletal muscle are reported on. Patient 1 also presented with increased blood creatine kinase and lactate concentrations and a family history which included a wide range of phenotypes affecting multiple systems. Patient 2 presented with multiple symmetric lipomatosis. Histopathological investigation showed ragged red fibres and COX negative fibres in muscle biopsies from both patients. The data support the hypothesis that mitochondrial DNA mutations may occur in some cases of parkinsonism, suggesting that a diagnosis of a mitochondrial disorder should be considered in the presence of consistent family history and clinical symptoms.
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PMID:Mitochondrial DNA rearrangements in young onset parkinsonism: two case reports. 1160 86

A 13-year-old girl with non-familial exercise intolerance, muscle pain and lactic acidaemia underwent a muscle biopsy for suspected mitochondrial disease. Muscle morphology showed 25% ragged-red fibres and 80% COX-negative staining. Enzymatic activities of mitochondrially co-encoded respiratory chain enzymes (complexes I, III, and IV) were decreased in muscle but normal in cultured skin fibroblasts. mtDNA analysis revealed the presence of the 7497G>A mutation in the tRNASer(UCN) gene, homoplasmic in skeletal muscle and 90% in leukocytes. Analysis of the mother's mtDNA showed 10% heteroplasmy in blood. It may be concluded that the 7497G>A mutation is associated with a muscle-only disease presentation for which high levels of mutated mtDNA are required. Exercise intolerance and muscle pain in otherwise normal children warrants further mitochondrial evaluation.
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PMID:Exercise intolerance, muscle pain and lactic acidaemia associated with a 7497G>A mutation in the tRNASer(UCN) gene. 1460 5

Muscle histology is an essential component of the diagnostic work-up for mitochondrial cytopathies and is very important in both ruling in disease as well as ruling out the disease (i.e., alternate diagnoses). A muscle biopsy method must provide tissue for histology, electron microscopy, enzymes and DNA and this can be obtained with a suction-modified 5 mm needle. Proper embedding and processing is important for optimal diagnostic yield. The essential stains for mitochondrial histology remain the modified Gomori trichrome, cytochrome oxidase, succinate dehydrogenase, and NADH. Electron microscopy can be helpful in selected cases, however, the decision to perform this on all samples remains a contentious issue. Some cases of mitochondrial cytopathy may show no abnormalities on histology or electron microscopy (i.e., LHON), whereas, other conditions can mimic mitochondrial disease through secondary mitochondrial changes (i.e., inclusion body myositis). Athletes show evidence of increased mitochondrial numbers but do not normally develop ragged red fibers or paracrystalline inclusions. Aging is associated with an accumulation of mitochondrial abnormalities and is an important factor to consider in the interpretation of the sample. For example, biopsies in young children with mitochondrial disease may be normal at the histological level and otherwise healthy older adults can show mitochondrial changes such as ragged red and COX-negative fibers.
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PMID:Pathology of skeletal muscle in mitochondrial disorders. 1612 Apr 5

Although there are indications that beta-blockers affect the skeletal muscle in therapeutic dosages, their influence on mitochondrial disorders is unknown. A 52-year-old woman developed double vision, myalgias, muscle cramps, and hip and thigh muscle stiffness. Clinical neurologic examination revealed ptosis, dysarthria, sore neck muscles, weakness and wasting of the thighs, and generally brisk tendon reflexes. Lactate stress testing was significantly abnormal. Needle electromyography was nonspecifically abnormal and myopathic. Muscle biopsy showed mild myopathic changes, target fibers, and a single COX-negative fiber. Probable mitochondrial disorder was diagnosed. The patient had been on 30 mg of propranolol during 7 years for arterial hypertension. Shortly after discontinuation of the drug, her double vision gradually disappeared, myalgias and muscle cramps gradually resolved, and the patient reported an increase in muscle mass on repeated follow-ups. Long-term administration of propranolol may aggravate a mitochondrial disorder. Discontinuation of propranolol may result in a gradual resolution of these adverse reactions.
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PMID:Mitochondrial disorder aggravated by propranolol. 1686 49

We report a patient with myoclonic epilepsy who underwent muscle biopsy for suspected mitochondrial disease (myoclonic epilepsy with ragged-red fibers, MERRF). In spite of normal histochemical studies and of the absence of a severe COX deficiency, the molecular analysis showed the common MERRF mutation (A8344G) in the tRNA(Lys) gene on mitochondrial DNA. The case serves to illustrate the importance of pursuing the proposed mitochondrial genetic abnormality, even in patients with normal biopsy findings.
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PMID:MERRF syndrome without ragged-red fibers: the need for molecular diagnosis. 1727 87

COX (cytochrome c oxidase) deficiency is one of the main causes of genetic mitochondrial disease and presents with multiple phenotypes, depending on whether the causative mutation exists in a mitochondrial or nuclear gene and on whether it involves an altered catalytic or structural component or an assembly factor for this membrane-embedded 13-subunit enzyme complex. COX deficiency is routinely observed in AD (Alzheimer's disease), although there is continuing debate about whether this is a causative or a secondary consequence of the condition. Altered levels of COX and reduced oxidative phosphorylation capacity have been reported in other common diseases, including cancer, and are seen as unwanted side effects in a number of drug treatments, particularly with antiretroviral and antibiotic treatments. Here, we introduce a simple, rapid, high-throughput 96-well plate protocol that uses a multiplex approach to determine the amount and activity of COX, which should find widespread use in evaluating the above diseases and in drug safety studies. Importantly, the method uses very small amounts of cell material or tissue and does not require the isolation of mitochondria. We show the utility of this approach by example of the analysis of fibroblasts from patients with COX activity deficiency and the effect of the antiretroviral drug ddC (2',3'-dideoxycytidine) on the biogenesis of the enzyme.
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PMID:Small-scale immunopurification of cytochrome c oxidase for a high-throughput multiplexing analysis of enzyme activity and amount. 1750 37

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