Exploiting pyocyanin to treat mitochondrial disease due to respiratory complex III dysfunction

Mitochondrial diseases impair oxidative phosphorylation and ATP production, while effective treatment is still lacking. Defective complex III is associated with a highly variable clinical spectrum. We show that pyocyanin, a bacterial redox cycler, can replace the redox functions of complex III, acting as an electron shunt. Sub-mu M pyocyanin was harmless, restored respiration and increased ATP production in fibroblasts from five patients harboring pathogenic mutations in TTC19, BCS1L or LYRM7, involved in assembly/stabilization of complex III. Pyocyanin normalized the mitochondrial membrane potential, and mildly increased ROS production and biogenesis. These in vitro effects were confirmed in both Drosophila(TTC19KO) and in Danio rerio(TTC19KD), as administration of low concentrations of pyocyanin significantly ameliorated movement proficiency. Importantly, daily administration of pyocyanin for two months was not toxic in control mice. Our results point to utilization of redox cyclers for therapy of complex III disorders. Mitochondrial diseases, including those caused by defects in complex III of the respiratory chain, lack curative treatments. Here the authors report that the small molecule pyocyanin has beneficial effects in cells derived from patients with complex III-deficiency as well as in fly and zebrafish genetic models with reduced complex III activity.

Automated summary

Pyocyanin, a bacterial redox cycler, has been shown to replace the redox functions of complex III in cells from patients with complex III deficiencies, as well as in genetic models of fruit flies and zebrafish. This suggests the potential use of redox cyclers for the treatment of complex III disorders in mitochondrial diseases.