The transcriptional coactivator peroxisome proliferator-activated receptor gamma coactivator (PGC)-1 alpha and its splice variant N terminal (NT)-PGC-1 alpha regulate adaptive thermogenesis by transcriptional induction of thermogenic and mitochondrial genes involved in energy metabolism. We previously reported that full-length PGC-1 alpha (FL-PGC-1 alpha) is dispensable for cold-induced nonshivering thermogenesis in FL-PGC-1 alpha(-/-) mice, since a slightly shorter but functionally equivalent form of NT-PGC-1 alpha (NT-PGC-1 alpha(254)) fully compensates for the loss of FL-PGC-1 alpha a in brown and white adipose tissue. In the current study, we challenged FL-PGC-1 alpha(-/-) mice with a high-fat diet (HFD) to investigate the effects of diet-induced thermogenesis on HFD-induced obesity. Despite a large decrease in locomotor activity, FL-PGC-1 alpha(-/-) mice exhibited the surprising ability to attenuate HFD-induced obesity. Reduced fat mass in FL-PGC-1 alpha(-/-) mice was closely associated with an increase in body temperature, energy expenditure, and whole-body fatty acid oxidation (FAO). Mechanistically, FL-PGC-1 alpha(-/-) brown adipose tissue had an increased capacity to oxidize fatty acids and dissipate energy as heat, in accordance with upregulation of thermogenic genes UCP1 and DIO2. Furthermore, augmented expression of FAO and lipolytic genes in FL-PGC-1 alpha(-/-) white adipose tissue was highly correlated with decreased fat storage in adipose tissue. Collectively, our data highlight a protective effect of NT-PGC-1 alpha on diet-induced obesity by enhancing diet-induced thermogenesis and FAO.

• 出版日期2014-11