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:C0162671 (MELAS)
587 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitochondrial DNA is a unique, maternally inherited molecule encoding several subunits of the respiratory enzyme chain. In several mitochondrial cytopathies mutations have been described in this genome viz. large-scale heteroplasmic deletions in syndromes with progressive external ophthalmoplegia and point mutations in MELAS and MERRF encephalomyopathies. We here report Southern blot analyses in the cases of CPEO we have seen and describe the search for point mutations in MELAS and MERRF. Mitochondrial genetic sequencing in normal and disease controls as well as in patients has confirmed the pathogenic nature of a tRNA Lys point mutation in MERRF. We propose a novel mitochondrial structural gene mutation in a MELAS--like encephalomyopathy: an A-->G substitution at position 11084 leading to a Thr to Ala replacement in the ND4 subunit of complex I.
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PMID:The molecular genetics of mitochondrial cytopathies: the Melbourne experience. 134 60

Defects in mitochondrial DNA (mtDNA) are associated with several different human diseases, including the mitochondrial encephalomyopathies. The mutations include deletions but also duplications and point mutations. Individuals with MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) carry a common A-to-G substitution in a highly conserved portion of the gene for transfer RNA(Leu(UUR)). Although the MELAS mutation may be comparable to the defect in the tRNA(Lys) gene associated with MERRF (myoclonus epilepsy associated with ragged-red fibres), it is also embedded in the middle of a tridecamer sequence necessary for the formation of the 3' ends of 16S ribosomal RNA in vitro. We found that the MELAS mutation results in severe impairment of 16S rRNA transcription termination, which correlates with a reduced affinity of the partially purified termination protein for the MELAS template. This suggests that the molecular defect in MELAS is the inability to produce the correct type and quantity of rRNA relative to other mitochondrial gene products.
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PMID:Impairment of mitochondrial transcription termination by a point mutation associated with the MELAS subgroup of mitochondrial encephalomyopathies. 175 69

The recent development of cellular models of mitochondrial DNA-linked diseases by transfer of patient-derived mitochondria into human mtDNA-less (rho o) cells has provided a valuable tool for investigating the complementation and segregation of mtDNA mutations. In transformants carrying in heteroplasmic form the mitochondrial tRNA(Lys) gene 8344 mutation or tRNA(Leu(UUR)) gene 3243 mutation associated, respectively, with the MERRF or the MELAS encephalomyopathy, full protection of the cells against the protein synthesis and respiration defects caused by the mutations was observed when the wild-type mtDNA exceeded 10% of the total complement. In the MERRF transformants, the protective effect of wild-type mtDNA was shown to involve interactions of the mutant and wild-type gene products, probably coexisting within the same organelle from the time of the mutation event. In striking contrast, in experiments in which two mtDNAs carrying either the MERRF or the MELAS mutation were sequentially introduced within distinct organelles into the same rho o cells, no evidence of cooperation between their products was observed. These results pointed to the phenotypic independence of the two genomes. A similar conclusion was reached in experiments in which a chloramphenicol (CAP) resistance-conferring mtDNA mutation was introduced into CAP-sensitive cells. In the area of segregation of mtDNA mutations, in unstable heteroplasmic MELAS transformants, observations were made which pointed to a replicative advantage of mutant molecules, leading to a rapid shift of the genome towards the mutant type. These results are consistent with a model in which the mitochondrion, rather than the mtDNA molecule, is the segregating unit.
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PMID:Complementation and segregation behavior of disease-causing mitochondrial DNA mutations in cellular model systems. 759 15

Alterations of the mitochondrial DNA, encoding important parts of the cellular energy-generating system (oxidative phosphorylation, OXPHOS), are often associated with the occurrence of degenerative neuromuscular diseases. Especially point mutations in the mitochondrial tRNA genes, which cannot be complemented by the nuclear encoded tRNAs, are candidates for severe defects of the OXPHOS system. An A to G transition at nt 8344 in the tRNA(Lys) gene has been associated with MERRF disease whereas an A to G substitution at nt 3243 in the tRNA(Leu) gene has been linked to the MELAS syndrome. These two mtDNA alterations as well as point mutations in protein-coding genes can be detected simultaneously by an allele-specific amplification of the altered mtDNA. This assay allows the reliable detection of heteroplasmic point-mutations, even if the mutated DNA appears to a small extent of less than 1%.
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PMID:A rapid and sensitive PCR screening method for point mutations associated with mitochondrial encephalomyopathies. 817 30

A number of human diseases are caused by inherited mitochondrial DNA mutations. Two of these diseases, MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) and MERRF (myoclonic epilepsy and ragged-red fibres), are commonly caused by point mutations to tRNA genes encoded by mitochondrial DNA. Here we report on how these mutations affect mitochondrial function in primary fibroblast cultures established from a MELAS patient containing an A to G mutation at nucleotide 3243 in the tRNA(Leu(UUR) gene and a MERRF patient containing an A to G mutation at nucleotide 8344 in the tRNA(Lys) gene. Both mitochondrial membrane potential and respiration rate were significantly decreased in digitonin-permeabilized MELAS and MERRF fibroblasts respiring on glutamate/malate. A similar decrease in mitochondrial membrane potential was found in intact MELAS and MERRF fibroblasts. The mitochondrial content of these cells, estimated by stereological analysis of electron micrographs and from measurement of mitochondrial marker enzymes, was similar in control, MELAS and MERRF cells. Therefore, in cultured fibroblasts, mutation of mitochondrial tRNA genes leads to assembly of bioenergetically incompetent mitochondria, not to an alteration in their amount. However, the cell volume occupied by secondary lysosomes and residual bodies in the MELAS and MERRF cells was greater than in control cells, suggesting increased mitochondrial degradation in these cells. In addition, fibroblasts containing mitochondrial DNA mutations were 3-4-fold larger than control fibroblasts. The implications of these findings for the pathology of mitochondrial diseases are discussed.
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PMID:Altered mitochondrial function in fibroblasts containing MELAS or MERRF mitochondrial DNA mutations. 880 26

Mutations in human mitochondrial tRNA genes are associated with a number of multisystemic disorders. Using an assay that combines tRNA oxidation and circularization we have determined the relative amounts and states of aminoacylation of mutant and wild-type tRNAs in tissue samples from patients with MELAS syndrome (mito- chondrial myopathy, encephalopathy, lactic acidosis, stroke-like episodes) and MERRF syndrome (myoclonus epilepsy with ragged red fibers), respectively. In most, but not all, biopsies from MELAS patients carrying the A3243G substitution in the mitochondrial tRNA(Leu(UUR))gene, the mutant tRNA is under-represented among processed and/or aminoacylated tRNAs. In contrast, in biopsies from MERRF patients harboring the A8344G substitution in the tRNA(Lys)gene neither the relative abundance nor the aminoacylation of the mutated tRNA is affected. Thus, whereas the A3243G mutation may contribute to the pathogenesis of MELAS by reducing the amount of aminoacylated tRNA(Leu), the A8344G mutation does not affect tRNA(Lys)function in the same way.
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PMID:Decreased aminoacylation of mutant tRNAs in MELAS but not in MERRF patients. 1069 70

Taurine (2-aminoethanesulphonic acid), a naturally occurring, sulfur-containing amino acid, is found at high concentrations in mammalian plasma and tissues. Although taurine is involved in a variety of processes in humans, it has never been found as a component of a protein or a nucleic acid, and its precise biochemical functions are not fully understood. Here, we report the identification of two novel taurine-containing modified uridines (5-taurinomethyluridine and 5-taurinomethyl-2-thiouridine) in human and bovine mitochondrial tRNAs. Our work further revealed that these nucleosides are synthesized by the direct incorporation of taurine supplied to the medium. This is the first reported evidence that taurine is a constituent of biological macromolecules, unveiling the prospect of obtaining new insights into the functions and subcellular localization of this abundant amino acid. Since modification of these taurine-containing uridines has been found to be lacking in mutant mitochondrial tRNAs for Leu(UUR) and Lys from pathogenic cells of the mitochondrial encephalomyopathies MELAS and MERRF, respectively, our findings will considerably deepen our understanding of the molecular pathogenesis of mitochondrial encephalomyopathic diseases.
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PMID:Taurine as a constituent of mitochondrial tRNAs: new insights into the functions of taurine and human mitochondrial diseases. 1245 64

Two novel modified uridines were identified from mammalian mitochondrial (mt) tRNAs. Mass spectrometric analysis revealed that they are modified uridines possessing a sulfonic acid group derived from taurine; 5-taurinomethyl-uridine from mt tRNAs for Trp and Leu(UUR), and 5-taurinomethyl-2-thiouridine from mt tRNAs for Lys, Gln and Glu. We have found lack of modification of these taurine-containing uridines in mutant mt tRNAs for Leu(UUR) and Lys from pathogenic cells of mitochondrial encephalomyopathies, MELAS and MERRF, respectively.
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PMID:Novel taurine-containing uridine derivatives and mitochondrial human diseases. 1283 62

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

Point mutations in mitochondrial (mt) tRNA genes are associated with a variety of human mitochondrial diseases. We have shown previously that mt tRNA(Leu(UUR)) with a MELAS A3243G mutation and mt tRNA(Lys) with a MERRF A8344G mutation derived from HeLa background cybrid cells are deficient in normal taurine-containing modifications [taum(5)(s(2))U; 5-taurinomethyl-(2-thio)uridine] at the anticodon wobble position in both cases. The wobble modification deficiency results in defective translation. We report here wobble modification deficiencies of mutant mt tRNAs from cybrid cells with different nuclear backgrounds, as well as from patient tissues. These findings demonstrate the generality of the wobble modification deficiency in mutant tRNAs in MELAS and MERRF.
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PMID:Wobble modification deficiency in mutant tRNAs in patients with mitochondrial diseases. 1589 15


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