Abstract
Impairment of skeletal muscle function causes disabilities in elderly people. Therefore, in an aged society, prevention and treatment of sarcopenia are important for expanding healthy life expectancy. In addition to aging, adipose tissue disfunction and inflammation also contribute to the pathogenesis of sarcopenia by causing the combined state called ‘sarcopenic obesity’. Muscle quality as well as muscle mass contributes to muscle strength and physical performance. Mitochondria in the skeletal muscles affect muscle quality by regulating the production of energy and reactive oxygen species. A certain portion of the mitochondrial respiratory chain complexes form a higher-order structure called a “supercomplex”, which plays important roles in efficient energy production, stabilization of respiratory chain complex I, and prevention of reactive oxygen species (ROS) generation. Several molecules including phospholipids, proteins, and certain chemicals are known to promote or stabilize mitochondrial respiratory chain supercomplex assembly directly or indirectly. In this article, we review the distinct mechanisms underlying the promotion or stabilization of mitochondrial respiratory chain supercomplex assembly by supercomplex assembly factors. Further, we introduce regulatory pathways of mitochondrial respiratory chain supercomplex assembly and discuss the roles of supercomplex assembly factors and regulatory pathways in skeletal muscles and adipose tissues, believing that this will lead to discovery of potential targets for prevention and treatment of muscle disorders such as sarcopenia.
Highlights
In eukaryotic cells, mitochondria play important roles in efficient production of ATP through a process called oxidative phosphorylation (OXPHOS)
The roles of mitochondrial respiratory chain supercomplex formation have not been studied in adipose tissues in comparison with muscular tissues, but functions of some of the supercomplex assembly factors suggest its importance in adipose tissues as well
We focus on mitochondrial respiratory chain supercomplex formation in mammalian cells, especially from mice and humans, as they possess the muscular tissues and output of its function can be evaluated as several parameters of exercise
Summary
Mitochondria play important roles in efficient production of ATP through a process called oxidative phosphorylation (OXPHOS). A proton gradient is established across the inner membrane, which is essential for ATP generation by complex V. The biological significance of the mitochondrial respiratory chain supercomplexes is efficient energy production [3,4,5], stabilization of complex I [6], and prevention of reactive oxygen species (ROS) generation [7,8]. We discuss the biological significance of mitochondrial respiratory chain supercomplex formation in muscular tissues and in adipose tissues. The roles of mitochondrial respiratory chain supercomplex formation have not been studied in adipose tissues in comparison with muscular tissues, but functions of some of the supercomplex assembly factors suggest its importance in adipose tissues as well. Adipose tissue disfunction and inflammation cause the combined state called ‘sarcopenic obesity’ with elevated risks of disability [9]
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