Morgan-Hughes Ja scite author profile

About 40 per cent of patients with mitochondrial myopathies have two populations of mitochondrial DNA (mtDNA) in muscle, one of which is deleted. All patients with single mtDNA deletions and neurological disease are sporadic cases, suggesting that deletions arise as fresh mutational events. We have detected a low abundance heteroplasmic tandem duplication involving the displacement loop of mtDNA in 18 of 58 patients with deletions and 5/5 of their mothers, but not in normal subjects. The location of the duplication to a region that controls both replication and transcription of mtDNA could explain features suggesting mild mitochondrial dysfunction in the muscle biopsies of three patients' mothers, and a predisposition to deletion.

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Mitochondrial DNA (mtDNA) diseases: correlation of genotype to phenotype

Cooper

et al. 1995

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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This study examines the relationship of genotype to phenotype in 14 unselected patients who were found to harbour the A3243G transition in the mitochondrial transfer RNALeu(UUR) gene commonly associated with the syndrome of mitochondrial encephalopathy, lactic acidosis and strokes (MELAS). Only 6 of the 14 cases (43%) had seizures and recurrent strokes, the core clinical features of the MELAS phenotype. Of the remaining cases, four had an encephalomyopathy with deafness, ataxia and dementia, two had syndromes with progressive external ophthalmoplegia and two had limb weakness alone. Even within the MELAS subgroup, the majority of patients had one or more clinical manifestations considered to be atypical of the MELAS syndrome. They included developmental delay, ophthalmoparesis, pigmentary retinopathy and intestinal pseudo-obstruction. The proportion of mutant mitochondrial DNA (mtDNA) in muscle was generally higher in patients with recurrent strokes than in those without strokes, the highest levels being observed in MELAS cases with early onset disease. Studies of isolated muscle mitochondria identified a range of respiratory chain abnormalities mostly involving Complex I; immunoblots of Complex I in 3 of 10 cases showed selective loss of specific subunits encoded by nuclear genes. In the group as a whole, however, no clear correlations were observed between the severity or extent of the respiratory chain abnormality and clinical phenotype or the proportion of mutant mtDNA in biopsied skeletal muscle. These discrepancies suggest that, in patients harbouring the common MELAS3243 mutation, differences in heteroplasmy and the proportions of mutant mtDNA may not be the sole determinants of disease expression and that additional genetic mechanisms are involved in defining the range of clinical and biochemical phenotypes associated with this aberrant mitochondrial genome.

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Molecular defects of NADH-ubiquinone oxidoreductase (Complex I) in mitochondrial diseases

Schapira²,

et al. 1988

J Bioenerg Biomembr

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Defects in Complex I of the mitochondrial respiratory chain have been identified in 38 patients. The clinical and laboratory features are reviewed and the results of recently devised strategies aimed at characterizing the primary molecular and genetic abnormalities are presented. Although not exhaustive, these studies have provided a molecular basis for the contention that defects in Complex I may have their origin in nuclear or in mitochondrial genes.

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Mitochondrial myopathies: clinical defects

Holt

et al. 1990

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Painful disorders of muscle

1984

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Morgan-Hughes Ja

A tandem duplication in the D–loop of human mitochondrial DNA is associated with deletions in mitochondrial myopathies

Mitochondrial DNA (mtDNA) diseases: correlation of genotype to phenotype

Molecular defects of NADH-ubiquinone oxidoreductase (Complex I) in mitochondrial diseases

Mitochondrial myopathies: clinical defects

Painful disorders of muscle

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