Metabolic signaling of ceramides through the FPR2 receptor inhibits adipocyte thermogenesis

Ceramides play a central role in human health and disease, yet their role as systemic signaling molecules remain poorly understood. In this work, we identify FPR2 as a membrane receptor that specifically binds long-chain ceramides (C14-C20). In brown and beige adipocytes, C16:0 ceramide binding to FPR2 inhibits thermogenesis via G i -cyclic AMP signaling pathways, an effect that is reversed in the absence of FPR2. We present three cryo–electron microscopy structures of FPR2 in complex with G i trimers bound to C16:0, C18:0 and C20:0 ceramides. The hydrophobic tails are deeply embedded in the orthosteric ligand pocket, which has a limited amount of plasticity. Modification of the ceramide binding motif in closely related receptors, such as FPR1 or FPR3, converts them from inactive to active ceramide receptors. Our findings provide a structural basis for adipocyte thermogenesis mediated by FPR2.