Boulet Aren

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  • Article
    Elesclomol restores mitochondrial function in genetic models of copper deficiency
    (National Academy of Sciences, 2018-07-23) Soma, Shivatheja ; Latimer, Andrew J. ; Chun, Haarin ; Vicary, Alison C. ; Timbalia, Shrishiv A. ; Boulet, Aren ; Rahn, Jennifer J. ; Chan, Sherine S. L. ; Leary, Scot C. ; Kim, Byung-Eun ; Gitlin, Jonathan D. ; Gohil, Vishal M.
    Copper is an essential cofactor of cytochrome c oxidase (CcO), the terminal enzyme of the mitochondrial respiratory chain. Inherited loss-of-function mutations in several genes encoding proteins required for copper delivery to CcO result in diminished CcO activity and severe pathologic conditions in affected infants. Copper supplementation restores CcO function in patient cells with mutations in two of these genes, COA6 and SCO2, suggesting a potential therapeutic approach. However, direct copper supplementation has not been therapeutically effective in human patients, underscoring the need to identify highly efficient copper transporting pharmacological agents. By using a candidate-based approach, we identified an investigational anticancer drug, elesclomol (ES), that rescues respiratory defects of COA6-deficient yeast cells by increasing mitochondrial copper content and restoring CcO activity. ES also rescues respiratory defects in other yeast mutants of copper metabolism, suggesting a broader applicability. Low nanomolar concentrations of ES reinstate copper-containing subunits of CcO in a zebrafish model of copper deficiency and in a series of copper-deficient mammalian cells, including those derived from a patient with SCO2 mutations. These findings reveal that ES can restore intracellular copper homeostasis by mimicking the function of missing transporters and chaperones of copper, and may have potential in treating human disorders of copper metabolism.