Authors
Boshnakovska A, Pronto JR, Gall T, Aich A, Prochazka J, Nichtova Z, Sedlacek R, Sobitov I, Ainatzi S, Lenz C, Katschinski DM, Urlaub H, Voigt N, Rehling P, Kremer LS
Journal
Cell Reports
Citation
Cell Reports, Volume 44, Issue 6, 115723.
Abstract
Mitochondria are key to cellular energetics, metabolism, and signaling. Their dysfunction is linked to devastating diseases, including mitochondrial disorders, diabetes, neurodegenerative diseases, cardiac disorders, and cancer. Here, we present a knockout mouse model lacking the complex IV assembly factor SMIM20/MITRAC7. SMIM20−/− mice display cardiac pathology with reduced heart weight and cardiac output. Heart mitochondria present with reduced levels of complex IV associated with increased complex I activity, have altered fatty acid oxidation, and display elevated levels of ROS production. Interestingly, mutant mouse ventricular myocytes show unphysiological Ca2+ handling, which can be attributed to the increase in mitochondrial ROS production. Our study presents an example of a tissue-specific phenotype in the context of OXPHOS dysfunction. Moreover, our data suggest a link between complex IV dysfunction and Ca2+ handling at the endoplasmic reticulum through ROS signaling.
