An out-of-frame cytochromeb gene deletion from a patient with parkinsonism is associated with impaired complex III assembly and an increase in free radical production

Abstract

We have isolated transmitochondrial cybrids containing a mitochondrial DNA cytochrome b 4-base pair deletion previously identified in a patient with parkinsonism. This presentation is in contrast to that of most patients with cytochrome b mutations, who present with exercise intolerance. Clones containing different levels of the cytochrome b 4-base pair deletion showed that high levels of the mutation were associated with a respiratory deficiency and a specific complex III defect. Newly synthesized full-length cytochrome b was undetectable by metabolic labeling of mutant cells, and these cells were unable to grow in media that restricts proliferation of cells with defective oxidative phosphorylation. Steady state levels of some subunits previously found to be in close association with cytochrome b by crystallography and biochemical analysis (ie, Rieske [2Fe-2S] protein and subunit VI) were drastically reduced in clones containing high levels of the mutation, whereas the reduction in the core-1 subunit was milder. The absence of cytochrome b and complex III activity was also associated with increased hydrogen peroxide production. These findings, together with the variable tissue distribution of pathogenic mitochondrial DNA molecules, provide clues to the heterogeneous phenotypes associated with mitochondrial DNA mutations and establish a link between different forms of parkinsonism and oxidative phosphorylation defects.