[PDF][PDF] Metabolic reprogramming mediated by the mTORC2-IRF4 signaling axis is essential for macrophage alternative activation

SCC Huang, AM Smith, B Everts, M Colonna… - Immunity, 2016 - cell.com
SCC Huang, AM Smith, B Everts, M Colonna, EL Pearce, JD Schilling, EJ Pearce
Immunity, 2016cell.com
Macrophage activation status is intrinsically linked to metabolic remodeling. Macrophages
stimulated by interleukin 4 (IL-4) to become alternatively (or, M2) activated increase fatty
acid oxidation and oxidative phosphorylation; these metabolic changes are critical for M2
activation. Enhanced glucose utilization is also characteristic of the M2 metabolic signature.
Here, we found that increased glucose utilization is essential for M2 activation. Increased
glucose metabolism in IL-4-stimulated macrophages required the activation of the mTORC2 …
Summary
Macrophage activation status is intrinsically linked to metabolic remodeling. Macrophages stimulated by interleukin 4 (IL-4) to become alternatively (or, M2) activated increase fatty acid oxidation and oxidative phosphorylation; these metabolic changes are critical for M2 activation. Enhanced glucose utilization is also characteristic of the M2 metabolic signature. Here, we found that increased glucose utilization is essential for M2 activation. Increased glucose metabolism in IL-4-stimulated macrophages required the activation of the mTORC2 pathway, and loss of mTORC2 in macrophages suppressed tumor growth and decreased immunity to a parasitic nematode. Macrophage colony stimulating factor (M-CSF) was implicated as a contributing upstream activator of mTORC2 in a pathway that involved PI3K and AKT. mTORC2 operated in parallel with the IL-4Rα-Stat6 pathway to facilitate increased glycolysis during M2 activation via the induction of the transcription factor IRF4. IRF4 expression required both mTORC2 and Stat6 pathways, providing an underlying mechanism to explain how glucose utilization is increased to support M2 activation.
cell.com