Segregation of the G8993 mutant mitochondrial DNA through generations and embryonic tissues in a family at risk of Leigh syndrome.

We identified the T8993G mitochondrial mutation in a female infant who died of Leigh syndrome. The proportion of mutant mitochondrial DNA increased to near homoplasmy in three generations of the pedigree. A similarly high proportion of mutant mitochondrial DNA was found in the chorionic villi and in fetal tissues from a pregnancy interrupted because of the risk of Leigh syndrome. This study supports the concept that prenatal diagnosis can be used for Leigh syndrome with the T8993G mitochondrial DNA mutation.

Detection of mitochondrial DNA deletions by a screening procedure using the polymerase chain reaction.

We describe an accurate procedure for a rapid diagnosis of heteroplasmic mtDNA deletions based on the polymerase chain reaction (PCR). For a selective amplification of deleted mtDNA across the breakpoints of the deletion, we used seven combinations of primers surrounding the most common deleted region between the two origins of mtDNA replication. This procedure was performed on muscle biopsies of twenty patients harboring a single mtDNA deletion and one patient with multiple mtDNA deletions. The results were compared with Southern-blotting analysis. We conclude that this PCR procedure is a sensitive and convenient screening method for the detection of mtDNA deletions.

Identification of a large-scale mitochondrial deoxyribonucleic acid deletion in endocrinopathies and deafness: report of two unrelated cases with diabetes mellitus and adrenal insufficiency, respectively.

In recent years, a broad variety of chronic diseases have been related to different mitochondrial DNA (mtDNA) rearrangements. We have investigated two 16-yr-old unrelated girls with unexplained endocrine disorders for a mtDNA mutation. One initially presented with an adrenal crisis at the age of 4 yr. Complete adrenal insufficiency for nearly 15 yr was the main clinical manifestation, along with insiduous growth retardation and sensorineural hearing loss since age 6. The other girl presented with ketoacidosis at the age of 15 yr. She exhibited incomplete deafness since age 6 and poor growth. In both patients, brain magnetic resonance imaging abnormalities and raised cerebrospinal fluid protein concentration indicated mild leucodystrophy. Biopsy of skeletal muscle showed a mitochondrial dysfunction; molecular analysis using a PCR screening procedure revealed a 7.4 kb deletion of the mtDNA in skeletal muscle but not in leucocytes. Direct sequence analysis of the junctional regions showed that the deletion spanned 7.436 kb (nucleotide 8649 to nucleotide 16084). The relative amount of deleted mtDNA estimated by Southern blot analysis was 25 and 15%, respectively. No deletion was present in leukocytes obtained from the asymptomatic mothers. The presence of the same mutation in different patients with various endocrine conditions supports the view that the 7.4 kb mtDNA deletion should be considered as one of the candidate causes for phenotypically uncommon cases of endocrinopathies, specially in children with deafness. This is the first report of a mitochondrial disease with primary adrenocortical insufficiency as the clinical onset.

A novel gly290asp mitochondrial cytochrome b mutation linked to a complex III deficiency in progressive exercise intolerance.

We have identified a new mitochondrial (mt) cytochrome b mutation in a 29-year-old man with progressive exercise muscle intolerance associated with a marked deficiency of complex III activity and a decreased amount of mitochondrial-encoded cytochrome b. This G to A transition at mtDNA position 15615 leads to the substitution (G290D) of a very highly conserved amino acid of cytochrome b during evolution. The mutant mtDNA was heteroplasmic (80% mutant) in patient muscle but was undetectable in blood from the patient and his healthy mother and sisters. A maternally inherited cytochrome b polymorphism was also identified in this patient. Molecular screening of 150 individuals showed that the G290D mutation associated with the described phenotype. We suggest that this molecular defect is the primary cause of the muscle disease in this patient.

Fine mapping of randomly distributed multiple deletions of mitochondrial DNA in a case of chronic progressive external ophthalmoplegia.

Multiple deletions of mitochondrial DNA have been detected by Southern blotting in the skeletal muscle of a 42-year-old woman with chronic progressive external ophthalmoplegia. A PCR method, using several combinations of primers covering the whole mtDNA as well as sequence analysis, disclosed the wide spectrum of these multiple deletions differing in size, location and sequence at the breakpoint junction. Most involved the major region between the two replication origins. However, three deletions affected the minor region and lacked either the light strand origin of replication or the heavy strand promoter. These data suggest an impairment of mtDNA replication leading to illegitimate recombination and extensive damage of mtDNA.