Impact of the mitochondrial genetic background in complex III deficiency.

Background: In recent years clinical evidence has emphasized the importance of the mtDNA genetic background that hosts a primary pathogenic mutation in the clinical expression of mitochondrial disorders, but little experimental confirmation has been provided. We have analyzed the pathogenic role of a novel homoplasmic mutation (m.15533 A>G) in the cytochrome b (MT-CYB) gene in a patient presenting with lactic acidosis, seizures, mild mental delay, and behaviour abnormalities.

Cellular pathophysiological consequences of BCS1L mutations in mitochondrial complex III enzyme deficiency.

Mutations in BCS1L, an assembly factor that facilitates the insertion of the catalytic Rieske Iron-Sulfur subunit into respiratory chain complex III, result in a wide variety of clinical phenotypes that range from the relatively mild Björnstad syndrome to the severe GRACILE syndrome. To better understand the pathophysiological consequences of such mutations, we studied fibroblasts from six complex III-deficient patients harboring mutations in the BCS1L gene. Cells from patients with the most severe clinical phenotypes exhibited slow growth rates in glucose medium, variable combined enzyme deficiencies, and assembly defects of respiratory chain complexes I, III, and IV, increased H(2)O(2) levels, unbalanced expression of the cellular antioxidant defenses, and apoptotic cell death.

Pathogenic mutations in the 5' untranslated region of BCS1L mRNA in mitochondrial complex III deficiency.

Mutations in the assembly chaperone BCS1L constitute a major cause of mitochondrial complex III deficiency. We studied the presence of BCS1L mutations in a complex III-deficient patient with metabolic acidosis, liver failure, and tubulopathy. A previously reported mutation, p.

Infantile mitochondrial encephalomyopathy with unusual phenotype caused by a novel BCS1L mutation in an isolated complex III-deficient patient.

Mutations in BCS1L, a respiratory chain complex III assembly chaperone, constitute a major cause of mitochondrial complex III deficiency and are associated with GRACILE and Björnstad syndromes. Here we describe a 4-year-old infant with hyperlactacidemia, mild liver dysfunction, hypotonia, growth and psychomotor retardation, dysmorphic features and mitochondrial complex III deficiency. Respiratory chain enzyme activities showed an isolated complex III defect in muscle and fibroblasts.