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

Abstract

SUMMARYThe mammalian respiratory chain complexes I, III2and IV (CI, CIII2and CIV) are critical for cellular bioenergetics and form a stable assembly, the respirasome (CI- CIII2-CIV), that is biochemically and structurally well documented. The role of the respirasome in bioenergetics and 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 thein vivorole of the respirasome, we generated homozygous knock-in 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 the mouse, but raises questions about their alternate functions, such as relating to regulation of protein stability and prevention of age-associated protein aggregation.