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

The ratio of mtDNA and a nuclear reference gene was estimated by Southern blotting in the skeletal muscle DNA of a 3-year-old girl who suffered from congenital brain damage, focal epilepsy, hepatomegaly, malabsorption syndrome and severe myopathy. The signal ratio of mtDNA versus 18S rDNA was 22% of the mean value obtained from controls. No major deletions or insertions were found and the MERRF, MELAS and NARP mutations were ruled out. Mitochondrial DNA-encoded enzyme activities and mitochondrial respiration were reduced. The analysis of the NAD(P)H and flavoprotein redox states of intact fibres revealed the presence of mitochondrial dysfunction. In tissue sections a moderate elevation of type I and type II fibre diameter variation was detected, aberrant NADH- and succinate dehydrogenase staining and some ragged red fibres. This suggested that a mitochondrial disorder caused by a decrease in the amount of intact wild-type mtDNA was responsible for the severe myopathy.
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PMID:mtDNA depletion and impairment of mitochondrial function in a case of a multisystem disorder including severe myopathy. 970 May 97

Since the first identification in 1988 of pathogenic mitochondrial DNA (mtDNA) mutations, the mitochondrial diseases have emerged as a major clinical entity. The most striking feature of these disorders is their marked heterogeneity, which extends to their clinical, biochemical, and genetic characteristics. The major mitochondrial encephalomyopathies include MELAS (mitochondrial encephalopathy with lactic acidosis and stroke-like episodes), MERRF (myoclonic epilepsy with ragged red fibers), KSS/CPEO (Kearns-Sayre syndrome/chronic progressive external ophthalmoplegia), and NARP/MILS (neuropathy, ataxia, and retinitis pigmentosum/maternally inherited Leigh syndrome) and they typically present highly variable multisystem defects that usually involve abnormalities of skeletal muscle and/or the CNS. The primary emphasis here is to review recent investigations of these mitochondrial diseases from the standpoint of how the complexities of mitochondrial genetics and biogenesis might determine their varied features. In addition, the mitochondrial encephalomyopathies are compared and contrasted to Leber hereditary optic neuropathy, a mitochondrial disease in which the pathogenic mtDNA mutations produce a more uniform and focal neuropathology. All of these disorders involve, at some level, a mitochondrial respiratory chain dysfunction. Because mitochondrial genetics differs so strikingly from the Mendelian inheritance of chromosomes, recent research on the origin and subsequent segregation and transmission of mtDNA mutations is reviewed.
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PMID:Human mitochondrial diseases: answering questions and questioning answers. 977 Feb 97

The majority of pathogenic mitochondrial DNA (mtDNA) mutations are heteroplasmic, with both mutant and wild-type alleles present within the same individual. MtDNA is transmitted only from females to their offspring but a single female can bear offspring who harbour different levels of mutant mtDNA and have a variable phenotype. In single families, this complex genetic and phenotypic variability has confounded the identification of any relationship between the level of mutant mtDNA (mutation load) in the mother and the clinical features of her offspring. To obtain a more accurate description of the inheritance of pathogenic mtDNA mutations, we studied a large number of pedigrees that carried either the mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes (A3243G MELAS) or the myoclonic epilepsy with ragged-red fibres (A8344G MERRF) mutations. We made two principal observations. First, for both mutations, higher levels of mutant mtDNA in the mothers' blood were associated with an increased frequency of affected offspring. Secondly, at any one level of maternal mutation load there was a greater frequency of affected offspring for the A3243G MELAS mutation than for the A8344G MERRF mutation. Although these results should not be used to give absolute risks to a female contemplating pregnancy, they suggest that the outcome of pregnancy is related to the level of mutant mtDNA in the mother and that the risks of having affected offspring may differ between different mtDNA mutations.
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PMID:MELAS and MERRF. The relationship between maternal mutation load and the frequency of clinically affected offspring. 979 44

Clinical and biochemical classifications of mitochondrial disorders have given way to an as yet incomplete genetic classification system based on alterations of the mitochondrial genome, the nuclear genome, or both. The first group includes mitochondrial disorders due to specific mutations of mitochondrial DNA such as the MELAS, MERRF or NARP encephalomyopathies, various conditions involving deafness (non-syndromic or associated with diabetes), Leber's optic neuropathy and a small group of cases of maternally transmitted Leigh's syndrome. All these diseases are transmitted through maternal line. conditions which are usually sporadic are due to deletion or duplication of mitochondrial DNA, and give rise to myopathies, with or without ophthalmoplegia, and to more complex disorders such as Kearns Sayre syndrome are also included. The second group is composed of all the mitochondrial disorders in which the nuclear genes which codify sub-units of mitochondrial DNA contain a genetic defect. This includes most cases of Leigh's syndrome, Alpers polydystrophies, the myoneurogastrointestinal syndrome, Barth's syndrome and Friedreich's disease. Amongst the disorders secondary to defects in communication between the nuclear and mitochondrial genomes is a progressive external ophthalmoplegic form with autosomal dominance which arises secondary to mutations on chromosomes 3 and 10. Further mitochondrial disorders due to faults in the relationship between the two genomes will probably be found in the near future.
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PMID:[Classification of mitochondrial diseases]. 981 May 85

A 27-year-old man with slowly progressing symptoms of pigmentary retinal degeneration, cerebellar, pyramidal and extrapyramidal syndrome and atrophy of lower limb muscles, was admitted to the Department of Neurology. During the final stage of disease, generalized, tonic and clonic seizures, absence and myoclonic epilepsy as well as Jackson's motor seizures were observed. A computed tomographic (CT) scan showed a considerable atrophy of cerebellum and pons. A magnetic resonance imaging (MRI) revealed diffuse cortical and subcortical atrophy, especially in structures of posterior intracranial fossa and bilateral foci of increased signal intensity in cerebral cortex and subcortical gray structures. A morphological study of a biceps specimen revealed the presence of so called ragged-red fibers characterized by abnormal mitochondria with paracrystalline inclusions. A considerable atrophy of the central nervous system, especially of cerebral and cerebellar cortex was revealed by a macroscopic study of the brain. Numerous focal and so called pseudolaminar cortical necroses in the brain, regardless of vascular supply, with characteristic proliferation of capillary vessels were predominating in a microscopic study. The clinical data and especially histopathological features count for the diagnosis of mitochondrial encephalomyopathy of MELAS type. The presence of additional features such as pigmentary retinal degeneration, characteristic of Kearns-Sayre syndrome and myoclonic seizures typical of MERRF syndrome allows the classification of this case as mixed MELAS syndrome.
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PMID:Mitochondrial encephalomyopathy of mixed MELAS type. 981 22

Post-transcriptional modifications are characteristic features of tRNAs and have been shown in a number of cases to influence both their structural and functional properties, including structure stabilization, amino-acylation and codon recognition. We have developed an approach which allows the investigation of the post-transcriptional modification patterns of human mitochondrial wild-type and mutant tRNAs at both the qualitative and the quantitative levels. Specific tRNA species are long-term labeled in vivo with [32P]orthophosphate, isolated in a highly selective way, enzymatically digested to mononucleotides and then subjected to two-dimensional thin layer chromatographic analysis. The wild-type tRNALysand the corresponding tRNALyscarrying the A8344G mutation associated with the MERRF (Myoclonic Epilepsy with Ragged Red Fibers) syndrome exhibit the same modified nucleotides at the same molar concentrations. By contrast, a quantitatively different modification pattern was observed between the wild-type tRNALeu(UUR)and its counterpart carrying the A3243G mutation associated with the MELAS (Mitochondrial Myopathy, Encephalopathy with Lactic Acidosis and Stroke-like episodes) syndrome, the latter exhibiting a 50% decrease in m2G content. Complementary sequencing of tRNALeu(UUR)has allowed the localization of this modification at position 10 within the D-stem of the tRNA. The decreased level of this modification may have important implications for understanding the molecular mechanism underlying the MELAS-associated mitochondrial dysfunction.
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PMID:Search for differences in post-transcriptional modification patterns of mitochondrial DNA-encoded wild-type and mutant human tRNALys and tRNALeu(UUR). 988 70

Mutations in the tRNA genes of mitochondrial DNA (mtDNA) cause the debilitating MELAS (mitochondrial, myopathy, encephalopathy, lactic acidosis and stroke-like episodes) and MERRF (myoclonic epilepsy and ragged-red fibres) syndromes. These mtDNA mutations affect respiratory chain function, apparently without decreasing cellular ATP concentration [Moudy et al. (1995) PNAS, 92, 729-733]. To address this issue, we investigated the role of mitochondrial ATP synthesis in fibroblasts from MELAS and MERRF patients. The maximum rate of mitochondrial ATP synthesis was decreased by 60-88%, as a consequence of the decrease in the proton electrochemical potential gradient of MELAS and MERRF mitochondria. However, in quiescent fibroblasts neither ATP concentration or the ATP/ADP ratio was affected by the lowered rate of ATP synthesis. We hypothesized that the low ATP demand of quiescent fibroblasts masked the mitochondrial ATP synthesis defect and that this defect might become apparent during higher ATP use. To test this we simulated high energy demand by titrating cells with gramicidin, an ionophore that stimulates ATP hydrolysis by the plasma membrane Na+/K+-ATPase. We found a threshold gramicidin concentration in control cells at which both the ATP/ADP ratio and the plasma membrane potential decreased dramatically, due to ATP demand by the Na+/K+-ATPase outstripping mitochondrial ATP synthesis. In MELAS and MERRF fibroblasts the corresponding threshold concentrations of gramicidin were 2-20-fold lower than those for control cells. This is the first demonstration that cells containing mtDNA mutations are particularly sensitive to increased ATP demand and this has several implications for how mitochondrial dysfunction contributes to disease pathophysiology. In particular, the increased susceptibility to plasma membrane depolarization will render neurons with dysfunctional mitochondria susceptible to excitotoxic cell death.
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PMID:Decreased ATP synthesis is phenotypically expressed during increased energy demand in fibroblasts containing mitochondrial tRNA mutations. 991 28

Since mitochondrial diseases lead frequently to severe phenotypes and are often hereditary, there is a need for genetic counselling of the affected families. The specific features of mitochondrial genetics, however, hamper straightforward definition of recurrence risks as in Mendelian diseases. Empirical risks were recently provided for MELAS and MERRF syndromes and for Leber hereditary optic neuropathy. In MELAS and MERFF, higher levels of mutant mtDNA in the mothers' blood were associated with an increased frequency of affected offspring. Chronic progressive external ophthalmoplegia and Kearns-Sayre syndrome are in general sporadic disorders without increased recurrence risks in the offspring. As Leigh syndrome is found with maternal, autosomal recessive or X chromosomal transmission, the definition of the molecular defect is crucial for genetic counselling. Prenatal diagnosis was reported only in one case of mitochondrial disease so far, and in our opinion it remains questionable because of the uncertain correlation of the proportion of mutant DNA in chorionic villi and in clinically relevant tissues such as brain.
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PMID:[Genetic counseling and prenatal diagnosis in mitochondrial diseases]. 1041 94

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

Many different pathogenic mutations in the mitochondrial (mt) transfer RNA (tRNA) genes have been reported for patients with mitochondrial encephalomyopathy. Although some of them are recurrent, most have only been described once and appear to be restricted to one patient or to one family. The incidence of mt tRNA gene alterations is not known, even though the frequency of some recurrent mutations has been analysed both in patients and in the general population. In this study, we describe the results of stepwise screening for sequence variations in the mt tRNA genes of 166 patients selected according to several criteria. Extensive sequence analysis of the tRNA genes was performed using denaturing gradient gel electrophoresis. A total of 31 patients (19%) were found to harbour significant levels of a pathogenic mutation, thus confirming the importance of mt tRNA mutations in human pathology. Forty-three different sequence variations were found, illustrating the great diversity of the mtDNA sequence in humans. The functional assessment of all these sequence variations represented a difficult task; it was mostly based on indirect data, such as the phylogenetic conservation of modified nucleotides and the proportions of variant species in different tissues of the index case or in blood of maternal relatives. Direct demonstration of a correlation between the proportion of heteroplasmic sequence variations and the cytochrome c oxidase defect was performed at the single muscle-fibre level. Eleven heteroplasmic sequence variations were found, six of which are new mutations. One is a known Caucasian polymorphism but the other 10 are pathogenic. Two of them are the well-known pathogenic MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) (A3243G) and MERRF (myoclonic epilepsy with ragged-red fibres) (A8344G) point mutations. They were found in 23 patients. The eight other mutations were restricted to one patient. The pathogenic nature of these mutations was demonstrated directly for five of them and hypothesized from indirect arguments for the other three. Thirty-two homoplasmic sequence variations were found. Twenty-nine were considered to be polymorphisms, even though 15 of these were found for the first time in our patients and two others had been reported previously as pathogenic. The pathogenic nature of three homoplasmic variants remains questionable.
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PMID:Mitochondrial DNA transfer RNA gene sequence variations in patients with mitochondrial disorders. 1133


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