AOX delays the onset of the lethal phenotype in a mouse model of Uqcrh (complex III) disease

Howard T. Jacobs, Marten Szibor, Birgit Rathkolb, Patricia da Silva-Buttkus, Juan Antonio Aguilar-Pimentel, Oana V. Amarie, Lore Becker, Julia Calzada-Wack, Nathalia Dragano, Lillian Garrett, Raffaele Gerlini, Sabine M. Hölter, Tanja Klein-Rodewald, Markus Kraiger, Stefanie Leuchtenberger, Susan Marschall, Manuela A. Östereicher, Kristina Pfannes, Adrián Sanz-Moreno, Claudia SeisenbergerNadine Spielmann, Claudia Stoeger, Wolfgang Wurst, Helmut Fuchs, Martin Hrabě de Angelis, Valérie Gailus-Durner

    Research output: Contribution to journalArticleScientificpeer-review

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    Abstract

    The alternative oxidase, AOX, provides a by-pass of the cytochrome segment of the mitochondrial respiratory chain when the chain is unavailable. AOX is absent from mammals, but AOX from Ciona intestinalis is benign when expressed in mice. Although non-protonmotive, so does not contribute directly to ATP production, it has been shown to modify and in some cases rescue phenotypes of respiratory-chain disease models. Here we studied the effect of C. intestinalis AOX on mice engineered to express a disease-equivalent mutant of Uqcrh, encoding the hinge subunit of mitochondrial respiratory complex III, which results in a complex metabolic phenotype beginning at 4–5 weeks, rapidly progressing to lethality within a further 6–7 weeks. AOX expression delayed the onset of this phenotype by several weeks, but provided no long-term benefit. We discuss the significance of this finding in light of the known and hypothesized effects of AOX on metabolism, redox homeostasis, oxidative stress and cell signaling. Although not a panacea, the ability of AOX to mitigate disease onset and progression means it could be useful in treatment.

    Original languageEnglish
    Article number166760
    Number of pages12
    JournalBiochimica et Biophysica Acta - Molecular Basis of Disease
    Volume1869
    Issue number7
    DOIs
    Publication statusPublished - Oct 2023
    Publication typeA1 Journal article-refereed

    Funding

    The study was supported by the German Federal Ministry of Education and Research (Infrafrontier grant 01KX1012 to MHdA) and the German Center for Diabetes Research (DZD), also to MHdA. HTJ was supported in this work by grants from the European Research Council ( 232738 ) and Academy of Finland ( 283157 and 307431 ).

    Keywords

    • Alternative oxidase
    • Complex III
    • Growth impairment
    • Hyperglycemia
    • Insulin sensitivity
    • Mitochondrial disease

    Publication forum classification

    • Publication forum level 1

    ASJC Scopus subject areas

    • Molecular Medicine
    • Molecular Biology

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