UMLS:C1762617 - FACTA Search

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Query: UMLS:C1762617 (weakness)
37,932 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The restriction endonuclease SmaI has been used for the diagnosis of neurogenic muscle weakness, ataxia and retinitis pigmentosa disease or Leigh's disease, caused by the Mt8993T-->G mutation which results in a Leu156Arg replacement that blocks proton translocation activity of subunit a of F(0)F(1)-ATPase. Our ultimate goal is to apply SmaI to gene therapy for this disease, because the mutant mitochondrial DNA (mtDNA) coexists with the wild-type mtDNA (heteroplasmy), and because only the mutant mtDNA, but not the wild-type mtDNA, is selectively restricted by the enzyme. For this purpose, we transiently expressed the SmaI gene fused to a mitochondrial targeting sequence in cybrids carrying the mutant mtDNA. Here, we demonstrate that mitochondria targeted by the SmaI enzyme showed specific elimination of the mutant mtDNA. This elimination was followed with repopulation by the wild-type mtDNA, resulting in restoration of both the normal intracellular ATP level and normal mitochondrial membrane potential. Furthermore, in vivo electroporation of the plasmids expressing mitochondrion-targeted EcoRI induced a decrease in cytochrome c oxidase activity in hamster skeletal muscles while causing no degenerative changes in nuclei. Delivery of restriction enzymes into mitochondria is a novel strategy for gene therapy of a special form of mitochondrial diseases.
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PMID:Gene therapy for mitochondrial disease by delivering restriction endonuclease SmaI into mitochondria. 1237 91

We studied the accumulation of cytochrome c oxidase (COX)-negative skeletal muscle fibres in six patients with a myopathy due to a mitochondrial DNA (mtDNA) defect. Each patient was biopsied on two or more occasions over a period of 3-15 years. Progressive proximal weakness was associated with an increase in the proportion of COX-negative fibres. These fibres were arranged randomly, indicating that each fibre became COX negative independently of the status of neighbouring fibres. The clinical progression of mtDNA myopathy is therefore a consequence of a biochemical defect that develops independently within individual muscle fibres. It is likely that this is due to the clonal expansion of mutant mtDNA.
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PMID:Clinical progression of mitochondrial myopathy is associated with the random accumulation of cytochrome c oxidase negative skeletal muscle fibres. 1276 99

A 30-year-old man was hospitalized with dysarthria and weakness of his right arm and leg. Three months previously, he had noticed numbness and weakness of his right shoulder, which spread to involve his left leg but which improved after 8 months. On admission, neurological examination revealed limb kinetic apraxia and constructive apraxia of the right hand, motor aphasia, dysarthria, and spastic quadriplegia. Sensory examination revealed hyperalgesia and dysesthesia in the right arm and left leg. Deep tendon reflexes were hyperactive in all four extremities. And he had bilateral Babinski signs. Laboratory examination revealed pH 7.38, PCO2 46.1 Torr, PO2 93.4 Torr, BE 1.7, and blood lactate, 9.0 mg/dl (normal 5-20 mg/dl). Cerebrospinal fluid lactate level was 20.0 mg/dl. pyruvate 1.34 mg/dl. and protein 83 mg/dl. Blood lactate and pyruvate values were markedly elevated after aerobic exercise. T2WI brain MRI showed scattered high signal lesions in the left precentral and postcentral gyrus, right paracentral lobes, both superior frontal gyri, and right superior temporal gyrus. Right biceps brachi biopsy showed almost complete cytochrome c oxidase (COX) deficiency. There were no ragged-red fibers. There was marked decrease of COX activity: 2.7 nmol/min/mg-mitochondrial protein (normal range: 33.0 +/- 16.1, n = 7) in the biopsied muscle. Open brain biopsy (after permission from the patient and his family) revealed gliosis and perivascular infiltration of lymphocytes and macrophages without vascular proliferation. There was no mitochondrial DNA mutations, deletion or duplication, including tRNA-Leu 3243, 8993, 3271, 9176, 3291, and tRNA-Lys 8344, 8356, and 8363. From these findings, a diagnosis of COX deficiency presenting as MELAS-like episodes was done. His mother also showed abnormality on aerobic exercise test, but she had no episode of stroke or neurological dysfunction. Six months later, his aphasia and apraxia of the right hand had resolved, and at discharge he was able to ambulate with a cane. Ten months later, he returned to his work. There has been no recurrence of neurologic symptoms over the next 3 years and 10 months. This patient appears to represent a rare case of adult onset COX deficiency presenting as MELAS-like episodes.
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PMID:[MELAS-like episodes in an adult case with cytochrome c oxidase deficiency]. 1523 72

This mini-review summarizes our present view of the biochemical alterations associated with mitochondrial DNA (mtDNA) point mutations. Mitochondrial cytopathies caused by mutations of mtDNA are well-known genetic and clinical entities, but the biochemical pathogenic mechanisms are often obscure. Leber's hereditary optic neuropathy (LHON) is due to three main mutations in genes for complex I subunits. Even if the catalytic activity of complex I is maintained except in cells carrying the 3460/ND1 mutation, in all cases there is a change in sensitivity to complex I inhibitors and an impairment of mitochondrial respiration, eliciting the possibility of generation of reactive oxygen species (ROS) by the complex. Neurogenic muscle weakness, Ataxia and Retinitis Pigmentosa (NARP), is due to a mutation in the ATPase-6 gene. In NARP patients ATP synthesis is strongly depressed to an extent proportional to the mutation load; nevertheless, ATP hydrolysis and ATP-driven proton translocation are not affected. It is suggested that the NARP mutation affects the ability of the enzyme to couple proton transport to ATP synthesis. A point mutation in subunit III of cytochrome c oxidase is accompanied by a syndrome resembling MELAS: however, no major biochemical defect is found, if we except an enhanced production of ROS. The mechanism of such enhancement is at present unknown. In this review, we draw attention to a few examples in which the overproduction of ROS might represent a common step in the induction of clinical phenotypes and/or in the progression of several human pathologies associated with mtDNA point mutations.
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PMID:Bioenergetics of mitochondrial diseases associated with mtDNA mutations. 1528 79

Mitochondrial DNA (mtDNA) mutations associated with rhabdomyolysis are rare but have been described in sporadic cases with mutations in the cytochrome b and cytochrome c oxidase (COX) genes and in 3 cases with tRNALeu mutation. We report a novel heteroplasmic G6708A nonsense mutation in the mtDNA COI gene encoding COX subunit I in a 30-year-old woman with muscle weakness, pain, fatigue, and one episode of rhabdomyolysis. Histochemical examination of muscle biopsy specimens revealed reduced COX activity in the majority of the muscle fibers (approximately 90%) and frequent ragged red fibers. Biochemical analysis showed a marked and isolated COX deficiency. Analysis of DNA extracted from single fibers revealed higher levels of the mutation in COX-deficient fibers (> 95%) compared with COX-positive fibers (1%-80%). The mutation was not detected in a skin biopsy, cultured myoblasts, or blood leukocytes. Nor was it identified in blood leukocytes from the asymptomatic mother, indicating a de novo mutation that arose after germ layer differentiation. Western blot analysis and immunohistochemical staining revealed that reduced levels of COX subunit I were accompanied by reduced levels of other mtDNA encoded subunits, as well as nuclear DNA encoded subunit IV, supporting the concept that COX subunit I is essential for the assembly of complex IV in the respiratory chain.
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PMID:Mitochondrial myopathy and rhabdomyolysis associated with a novel nonsense mutation in the gene encoding cytochrome c oxidase subunit I. 1575 Dec 26

Myopathy is a typical clinical finding among patients with the 3243A>G mutation in mitochondrial DNA (mtDNA), but the variability in such findings has not been properly established. We have previously determined the prevalence of patients with 3243A>G in a defined population in northern Finland and characterized a group of patients who represent a good approximation to a population-based cohort. We report here on examinations performed on patients belonging to this cohort in order to determine the frequency of myopathy and to evaluate the clinical, histological, ultrastructural and single fibre mtDNA variability in muscle involvement. Fifty patients with 3243A>G underwent a thorough structured interview and clinical examination. Muscle histology, ultrastructure and single fibre analysis were examined in a subset of patients. A clinical diagnosis of myopathy was made in 50% of cases [95% confidence interval (CI), 36-64] and abnormalities in muscle histology were found in 72% (95% CI, 55-86). Moderate limb weakness leading to functional impairment was the most common myopathic sign, but mild weakness, ptosis and external ophthalmoplegia could also be found. The presence of intramitochondrial crystals and cytochrome c oxidase (COX)-negative fibres and variation in mitochondrial size and shape were more common in the muscles of the myopathic patients. Longitudinal variations in mutation heteroplasmy were examined in single muscle fibres from two severely affected patients. Although the total variation in mutation heteroplasmy along four ragged red fibres (RRFs) was small, the mutation heteroplasmy in five 10 microm segments was clearly lower (median 68%, range 64-74%) than that in the neighbouring segments. There were also segments with deviant mutation load in histologically normal fibres in one patient. The highest incidence of myopathy was in the fifth decade of life, but, apart from age, no other clinical variables such as gender, muscle heteroplasmy, physical inactivity or diabetes were associated with an increased risk of myopathy. The clinical presentation of myopathy is highly variable in patients with 3243A>G.
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PMID:Spectrum of myopathic findings in 50 patients with the 3243A>G mutation in mitochondrial DNA. 1585 31

The authors describe a 47-year-old man who presented with proximal muscle weakness, myalgia, elevated creatine kinase, and features of a pure myopathic syndrome in whom they have identified a novel mutation in the mitochondrial tRNA(Ala) gene. This 5591G>A transition is heteroplasmic, segregates with cytochrome c oxidase deficiency in single muscle fibers, and fulfills recognized criteria for pathogenicity. This case exemplifies the wide-ranging clinical spectrum of mitochondrial disease presentations.
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PMID:Pure myopathy associated with a novel mitochondrial tRNA gene mutation. 1647 54

We report an 11-year-old boy with short stature, bilateral ptosis, sensorineural hearing loss, muscle weakness, and endocrine abnormalities. Brain magnetic resonance imaging (MRI) showed a bilateral abnormal signal in the globus pallidus and in the midbrain tegment. Muscle biopsy specimens showed ragged red and cytochrome c oxidase negative fibers, and biochemical analysis of muscle homogenate showed a partial defect of complex I and IV activities of the respiratory chain enzymes. Analysis of mitochondrial DNA by a polymerase chain reaction screening procedure and Southern blot revealed a novel heteroplasmic single mitochondrial DNA deletion of 7.8 kb in different tissues. This deletion was absent in the blood DNA of his mother and brother. This case further expands and confirms the wide clinical spectrum of mitochondrial disorders associated with single large-scale mitochondrial DNA deletions.
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PMID:Mitochondrial DNA deletion in a child with mitochondrial encephalomyopathy, growth hormone deficiency, and hypoparathyroidism. 1709 69

A 14-year-old boy had exercise intolerance, weakness, ataxia, and lactic acidosis. Because his muscle biopsy showed a mosaic pattern of fibers staining intensely with the succinate dehydrogenase reaction but not at all with the cytochrome c oxidase reaction, we sequenced his mitochondrial DNA and found a novel mutation (C14680A) in the gene for tRNAGlu. The mutation was present in accessible tissues from the asymptomatic mother but not from a brother with Asperger syndrome. These data expand the clinical heterogeneity of mutations in this mitochondrial gene.
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PMID:Mitochondrial encephalomyopathy due to a novel mutation in the tRNAGlu of mitochondrial DNA. 1771 79

A 44-year-old woman with mitochondrial encephalomyopathy noticed weakness of the lower extremities at the age of 30 years. She also has type 2 diabetes mellitus, posterior subcapsular cataracts in both eyes, and corpus callosum atrophy. Family history showed that a maternal cousin had a myopathy, 3 maternal aunts had diabetes mellitus, and her mother and 2 maternal aunts had cataracts. External ophthalmoplegia, proximal myopathy, and absent deep tendon reflexes were noted. The mitochondrial DNA 3243 point mutation was negative. Muscle biopsy showed ragged-red fibers, cytochrome c oxidase (COX)-positive fibers, and COX-negative fibers.
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PMID:Mitochondrial encephalomyopathy associated with diabetes mellitus, cataract, and corpus callosum atrophy. 1831 Sep 79

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