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:C0029089 (ophthalmoplegia)
3,338 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

A single mtDNA point mutation at nt 3243 has been associated with two different clinical phenotypes: mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes ('MELAS3243') and progressive external ophthalmoplegia ('PEO3243'). It has been shown that there is a much higher proportion of ragged-red fibers (RRF) with cytochrome c oxidase (COX) deficiency in PEO3243 than in MELAS3243. Using PCR/RFLP analysis of isolated individual skeletal muscle fibers from patients with both syndromes, we found a direct correlation between the localized concentration of the nt 3243 mutation and impairment of COX function at the single muscle fiber level: we found relatively low levels of mutant mtDNAs (56 +/- 21%) in 'normal' fibers; high levels (90 +/- 6%) in COX-positive RRF; and an almost complete segregation of mutant mtDNAs (95 +/- 3%) in COX-negative RRF. Thus, the differential distribution of fibers with extremely high concentrations of mutant mtDNAs characterizes, and probably distinguishes, the skeletal muscle of PEO and MELAS patients harboring the same nt-3243 mutation.
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PMID:Extremely high levels of mutant mtDNAs co-localize with cytochrome c oxidase-negative ragged-red fibers in patients harboring a point mutation at nt 3243. 791 29

Mitochondrial encephalopathy, lactic acidosis and stroke-like episodes (MELAS) is commonly associated with an A-->G transition at position 3243 of the mitochondrial DNA. To determine the diversity of clinical syndromes associated with this mutation, 91 patients with mitochondrial encephalomyopathies that did not conform to the MELAS phenotype were screened. Twenty one patients with the 3243 mutation, most of whom had progressive external ophthalmoplegia (PEO) were found. Clinical features did not distinguish PEO patients with the 3243 mutation from those with large-scale deletions of mtDNA. However, most cases with single large-scale mtDNA deletions were sporadic, whereas most patients with the 3243 mutation had affected maternal relatives. Histochemical studies of muscle showed that cytochrome c oxidase (COX) deficiency was more severe in patients with PEO than in patients with typical MELAS, even though PEO patients had a lower percentage of mutant genomes in muscle. These data imply that the 3243 mutation is a major cause of familial PEO, and suggests that the threshold number of mtDNAs harboring the 3243 mutation necessary to affect a particular tissue vary in different patients. The proportion of mutant genomes in combination with other, still undefined, tissue-specific modulating factors seem to determine the overall clinical syndrome.
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PMID:Atypical clinical presentations associated with the MELAS mutation at position 3243 of human mitochondrial DNA. 839 10

Recent studies analyzing mtDNA have established to elucidate the molecular pathology of mitochondrial encephalomyopathies. The human mitochondrial genome is 16,569 bp circular double-stranded molecule that is maternally inherited. Since the first report on large deletions of mtDNA in patients with progressive external ophthalmoplegia (PEO) by Holt et al in 1988, various mtDNA mutations were found. On the basis of the recent findings of mtDNA mutations, genetic classification of mitochondrial diseases has been proposed by S DiMauro in 1991. (1) large deletions or duplications of mtDNA were found in PEO and Pearson disease. (2) A single base substitution were reported in several mitochondrial encephalomyopathies as follows: (a) At nucleotide position 11778, 4136 or 4160......Leber's hereditary optic neuritis, (b) 8344......MERRF, (c) 3243 or 3271......MELAS, (d) 8993......Holt's disease.
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PMID:[Mitochondrial encephalomyopathies: pleomorphism of the mitochondrial DNA mutations and clinical features]. 841 14

Expression of the mtHSPs (HSP60 and mtHSP70) was immunohistochemicall observed in biopsied limb muscles of genetically determined mitochondrial cytopathies (chronic progressive ophthalmoplegia 14, MELAS 4, limb girdle syndrome with the A-to-G transition at nt.3243 of tRNALeu(UUR), exertional myoglobinuria with multiple deletions of mtDNA 2, and Leber's hereditary optic neuropathy 2). mtHSP 70 and HSP 60 were strongly localized at ragged-red fibers. In strongly succinate dehydrogenase-reactive vessels of MELAS, mtHSP70 was expressed. GRP78 was expressed in the cytoplasmic body, which is often observed in this disorder. The present data suggest that expression of mtHSPs may reflect increased numbers of mitochondria, an impairment of assembly of mitochondrial proteins encoded by the genomic DNA and abnormal mitochondrial DNA, and/or an impaired mitochondrial function due to recurrent oxygen radical attacks against mitochondria.
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PMID:[Immunostaining of mitochondrial heat shock proteins (mtHSPs) in skeletal muscle fibers of mitochondrial cytopathy]. 868 94

Molecular diagnosis for mitochondrial diseases offers a powerful means to clarify that mitochondrial DNA (mtDNA) defects have different characteristics from those of nuclear DNA. Regarding the relationship between genotype and phenotype, there is a dual heterogeneity. It means that one mutation, for example, a 3243 mutation, has several clinical phenotypes, including MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes), myopathy only, diabetes and/or deafness and even CPEO (chronic progressive external ophthalmoplegia). Conversely, one phenotype, for instance, MELAS has several genetypes; 3243, 3271, and 3291 mutations. The second unique event in mitochondrial DNA mutation is heterogenous distribution of mutant mtDNA in a mitochondrion or a cell that is called heteroplasmy. The extend of heteroplasmy seems different from tissue to tissue providing clues to explain the variability of tissue impairment and heterogenous clinical symptoms. The above evidence suggests that we should take care in selecting tissues to be tested. The third problem remained is on maternal inheritance. It makes the genetic counselling on mitochondrial diseases at clinics difficult and laborious. In conclusion, mtDNA analysis must be used as a last resort to get final diagnosis.
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PMID:[Mitochondrial encephalomyopathies: 3243 mutation as a central matter]. 875 18

The expression of several mitochondrial and nuclear genes involved in ATP production was examined in cells cultured from muscle biopsies of patients harboring mitochondrial pathologies. The transcript patterns in muscle cells from the patients affected by carnitine palmitoyl transferase II or 2-ketoglutarate dehydrogenase deficiencies were almost similar to control patterns. In the opposite, patterns were strikingly abnormal in all the other cell cultures from patients with defects in enzymatic complexes involved in oxidative phosphorylation: mitochondrial complex II and III deficiencies, two MELAS syndromes (myopathy, encephalopathy, lactic acidosis and stroke like episodes), a case of Kearns-Sayre syndrome and a case of chronic progressive external ophthalmoplegia. In cultured muscle cells from patients with mtDNA mutations, the percentage of mutated mtDNA was low as compared with those determined in the corresponding skeletal muscle biopsy. Moreover, the complex II defect resulting of a nuclear mutation was not expressed in the cell cultures. Thus, an undetermined transcriptional event, transmitted from muscle biopsies to cultured muscle cells, should be involved to account for such abnormal transcript patterns.
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PMID:Expression of oxidative phosphorylation genes in muscle cell cultures from patients with mitochondrial myopathies. 906 96

We report a 47-year-old female patient showing clinical features of chronic progressive external ophthalmoplegia (CPEO) without stroke-like episodes. Large scale deletion of mitochondrial DNA (mtDNA) was not found in her biopsied muscle, whereas the A-->G transition at position 3243 (A3243G) was detected. The patient's mother had diabetes mellitus, suggesting maternal inheritance. This mutation is usually associated with MELAS, but wide clinical variety of the mutation has been recognized. Although several patients of CPEO with A3243G mutation (CPEO3243) have been found in the Western countries, only one case has been reported in detail in Japan. The CPEO3243 patients, including ours, show retinopathy less frequently, but diabetes mellitus and hearing loss more frequently than CPEO patients with deletions of mtDNA (CPEO delta). CPEO3243 is usually inherited maternally, but almost all CPEO delta is sporadic. With regard to COX activity of biopsied muscles, CPEO3243 resembles CPEO delta more than MELAS3243. This suggests that how the mutant mtDNA is distributed among cells or tissues may have more significant effect on clinical phenotype than what type of mtDNA mutation exists. The presence of such a CPEO3243 patient like ours could be an important suggestion toward further understanding of mitochondrial diseases.
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PMID:[A case of mitochondrial encephalomyopathy showing ophthalmoplegia, diabetes mellitus and hearing loss associated with the A3243G mutation of mitochondrial DNA]. 924 43

Mitochondrial diseases are characterized by considerable clinical variability and are most often caused by mutations in mtDNA. Because of the phenotypic variability, epidemiological studies of the frequency of these disorders have been difficult to perform. We studied the prevalence of the mtDNA mutation at nucleotide 3243 in an adult population of 245,201 individuals. This mutation is the most common molecular etiology of MELAS syndrome (mitochondrial encephalomyopathy, lactic acidosis, and strokelike episodes), one of the clinical entities among the mitochondrial disorders. Patients with diabetes mellitus, sensorineural hearing impairment, epilepsy, occipital brain infarct, ophthalmoplegia, cerebral white-matter disease, basal-ganglia calcifications, hypertrophic cardiomyopathy, or ataxia were ascertained on the basis of defined clinical criteria and family-history data. A total of 615 patients were identified, and 480 samples were examined for the mutation. The mutation was found in 11 pedigrees, and its frequency was calculated to be >=16. 3/100,000 in the adult population (95% confidence interval 11.3-21. 4/100,000). The mutation had arisen in the population at least nine times, as determined by mtDNA haplotyping. Clinical evaluation of the probands revealed a syndrome that most frequently consisted of hearing impairment, cognitive decline, and short stature. The high prevalence of the common MELAS mutation in the adult population suggests that mitochondrial disorders constitute one of the largest diagnostic categories of neurogenetic diseases.
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PMID:Epidemiology of A3243G, the mutation for mitochondrial encephalomyopathy, lactic acidosis, and strokelike episodes: prevalence of the mutation in an adult population. 968 91

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


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