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Cell-intrinsic lysosomal lipolysis is essential for alternative activation of macrophages

2014; Nature Portfolio; Volume: 15; Issue: 9 Linguagem: Inglês

10.1038/ni.2956

1529-2916

Stanley Ching‐Cheng Huang, Bart Everts, Yulia Ivanova, David O’Sullivan, Márcia Nascimento, Amber M. Smith, Wandy L. Beatty, Latisha Love‐Gregory, Wing Y. Lam, Christina M. O’Neill, Cong Yan, Hong Du, Nada A. Abumrad, Joseph F. Urban, Maxim N. Artyomov, Erika L. Pearce, Edward J. Pearce,

Calcium signaling and nucleotide metabolism

Alternatively activated (M2) macrophages use fatty acid oxidation for their metabolic needs. Pearce and colleagues show that triacylglycerols metabolized by lysosomal acid lipase are required for the M2 activation of and function of macrophages. Alternative (M2) activation of macrophages driven via the α-chain of the receptor for interleukin 4 (IL-4Rα) is important for immunity to parasites, wound healing, the prevention of atherosclerosis and metabolic homeostasis. M2 polarization is dependent on fatty acid oxidation (FAO), but the source of the fatty acids that support this metabolic program has not been clear. We found that the uptake of triacylglycerol substrates via the scavenger receptor CD36 and their subsequent lipolysis by lysosomal acid lipase (LAL) was important for the engagement of elevated oxidative phosphorylation, enhanced spare respiratory capacity (SRC), prolonged survival and expression of genes that together define M2 activation. Inhibition of lipolysis suppressed M2 activation during infection with a parasitic helminth and blocked protective responses to this pathogen. Our findings delineate a critical role for cell-intrinsic lysosomal lipolysis in M2 activation.