The transcriptional coregulators PGC-1α and PGC-1β modulate the expression of numerous partially overlapping genes involved in mitochondrial biogenesis and energetic metabolism. The physiological role of PGC-1β is poorly understood in skeletal muscle, a tissue of high mitochondrial content to produce ATP levels required for sustained contractions.
Scientists determine the physiological role of PGC-1β in skeletal muscle using mice, in which PGC-1β is selectively ablated in skeletal myofibres at adulthood (PGC-1β(i)skm−/− mice).
They show that myofibre myosin heavy chain composition and mitochondrial number, muscle strength and glucose homeostasis are unaffected in PGC-1β(i)skm−/− mice.
However, decreased expression of genes controlling mitochondrial protein import, translational machinery and energy metabolism in PGC-1β(i)skm−/−muscles leads to mitochondrial structural and functional abnormalities, impaired muscle oxidative capacity and reduced exercise performance.
Moreover, enhanced free-radical leak and reduced expression of the mitochondrial anti-oxidant enzyme Sod2 increase muscle oxidative stress.
PGC-1β is therefore instrumental for skeletal muscles to cope with high energetic demands.
http://www.nature.com/ncomms/2015/151217/ncomms10210/full/ncomms10210.html
Edited