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Preserved respiratory chain capacity and physiology in mice with profoundly reduced levels of mitochondrial respirasomes

Dusanka Milenkovic, Jelena Misic, Johannes F. Hevler, Thibaut Molinié, Injae Chung, Ilian Atanassov, Xinping Li, Roberta Filograna, Andrea Mesaros, Arnaud Mourier, Albert J. R. Heck, Judy Hirst, Nils‐Göran Larsson

2023Cell Metabolism65 citationsDOIOpen Access PDF

Abstract

-CIV), that is biochemically and structurally well documented. The role of the respirasome in bioenergetics and the regulation of metabolism is subject to intense debate and is difficult to study because the individual respiratory chain complexes coexist together with high levels of respirasomes. To critically investigate the in vivo role of the respirasome, we generated homozygous knockin mice that have normal levels of respiratory chain complexes but profoundly decreased levels of respirasomes. Surprisingly, the mutant mice are healthy, with preserved respiratory chain capacity and normal exercise performance. Our findings show that high levels of respirasomes are dispensable for maintaining bioenergetics and physiology in mice but raise questions about their alternate functions, such as those relating to the regulation of protein stability and prevention of age-associated protein aggregation.

Topics & Concepts

Respiratory chainPhysiologyRespiratory systemMitochondrionMitochondrial respiratory chainBiologyRespiratory physiologyCell biologyMedicineInternal medicineMitochondrial Function and PathologyAdipose Tissue and MetabolismCancer, Hypoxia, and Metabolism
Preserved respiratory chain capacity and physiology in mice with profoundly reduced levels of mitochondrial respirasomes | Litcius