Sarcolipin is a newly identified regulator of muscle-based thermogenesis in mammals

Animals use their muscles to shiver to generate heat when exposed to the cold. But this is a short-term adaptation. Long term, it is believed the body relies on the brown adipose tissue (BAT) to generate heat in a nonshivering fashion. New work from Muthu Periasamy and colleagues challenge this BAT-centric view by showing that the muscle is also a key site of nonshivering thermogenesis. The role of skeletal muscle in nonshivering thermogenesis (NST) is not well understood. Here we show that sarcolipin (Sln), a newly identified regulator of the sarco/endoplasmic reticulum Ca2+-ATPase (Serca) pump1,2,3,4,5, is necessary for muscle-based thermogenesis. When challenged to acute cold (4 °C), Sln−/− mice were not able to maintain their core body temperature (37 °C) and developed hypothermia. Surgical ablation of brown adipose tissue and functional knockdown of Ucp1 allowed us to highlight the role of muscle in NST. Overexpression of Sln in the Sln-null background fully restored muscle-based thermogenesis, suggesting that Sln is the basis for Serca-mediated heat production. We show that ryanodine receptor 1 (Ryr1)-mediated Ca2+ leak is an important mechanism for Serca-activated heat generation. Here we present data to suggest that Sln can continue to interact with Serca in the presence of Ca2+, which can promote uncoupling of the Serca pump and cause futile cycling. We further show that loss of Sln predisposes mice to diet-induced obesity, which suggests that Sln-mediated NST is recruited during metabolic overload. These data collectively suggest that SLN is an important mediator of muscle thermogenesis and whole-body energy metabolism.