Abstract
Skeletal muscle plays important roles in whole-body energy homeostasis. Excessive skeletal muscle lipid accumulation is associated with some metabolic diseases such as obesity and Type 2 Diabetes. The energy sensor AMPK (AMP-activated protein kinase) is a key regulator of skeletal muscle lipid metabolism, but the precise regulatory mechanism remains to be elucidated. Here, we provide a novel mechanism by which AMPK regulates skeletal muscle lipid accumulation through fat mass and obesity-associated protein (FTO)-dependent demethylation of N6-methyladenosine (m6A). We confirmed an inverse correlation between AMPK and skeletal muscle lipid content. Moreover, inhibition of AMPK enhanced lipid accumulation, while activation of AMPK reduced lipid accumulation in skeletal muscle cells. Notably, we found that mRNA m6A methylation levels were inversely correlated with lipid content in skeletal muscle. Furthermore, AMPK positively regulated the m6A methylation levels of mRNA, which could negatively regulate lipid accumulation in C2C12. At the molecular level, we demonstrated that AMPK regulated lipid accumulation in skeletal muscle cells by regulating FTO expression and FTO-dependent demethylation of m6A. Together, these results provide a novel regulatory mechanism of AMPK on lipid metabolism in skeletal muscle cells and suggest the possibility of controlling skeletal muscle lipid deposition by targeting AMPK or using m6A related drugs.
Highlights
Skeletal muscle plays important roles in whole-body energy homeostasis
We provide a novel mechanism for AMPK in the regulation of skeletal muscle lipid accumulation through fat mass and obesityassociated protein (FTO)-dependent demethylation of mRNA m6A
The p-AMPKα2 levels in SOL were lower than extensor digitorumlongus (EDL) (Fig. 1B), indicating that p-AMPK levels inversely correlate with skeletal muscle lipid content
Summary
Skeletal muscle plays important roles in whole-body energy homeostasis. Excessive skeletal muscle lipid accumulation is associated with some metabolic diseases such as obesity and Type 2 Diabetes. We provide a novel mechanism by which AMPK regulates skeletal muscle lipid accumulation through fat mass and obesityassociated protein (FTO)-dependent demethylation of N6-methyladenosine (m6A). We demonstrated that AMPK regulated lipid accumulation in skeletal muscle cells by regulating FTO expression and FTOdependent demethylation of m6A. Together, these results provide a novel regulatory mechanism of AMPK on lipid metabolism in skeletal muscle cells and suggest the possibility of controlling skeletal muscle lipid deposition by targeting AMPK or using m6A related drugs. Depletion of FTO (fat mass and obesity-associated protein) results in an increased mRNA m6A level, while overexpression of FTO leads to a decreased m6A level. Whether the AMPK pathway could affect FTO and m6A methylation is unknown
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