[PDF][PDF] Adipocyte-derived Th2 cytokines and myeloid PPARδ regulate macrophage polarization and insulin sensitivity

K Kang, SM Reilly, V Karabacak, MR Gangl… - Cell metabolism, 2008 - cell.com
K Kang, SM Reilly, V Karabacak, MR Gangl, K Fitzgerald, B Hatano, CH Lee
Cell metabolism, 2008cell.com
The polarization of adipose tissue-resident macrophages toward the alternatively activated,
anti-inflammatory M2 phenotype is believed to improve insulin sensitivity. However, the
mechanisms controlling tissue macrophage activation remain unclear. Here we show that
adipocytes are a source of Th2 cytokines, including IL-13 and to a lesser extent IL-4, which
induce macrophage PPARδ/β (Ppard/b) expression through a STAT6 binding site on its
promoter to activate alternative activation. Coculture studies indicate that Ppard ablation …
Summary
The polarization of adipose tissue-resident macrophages toward the alternatively activated, anti-inflammatory M2 phenotype is believed to improve insulin sensitivity. However, the mechanisms controlling tissue macrophage activation remain unclear. Here we show that adipocytes are a source of Th2 cytokines, including IL-13 and to a lesser extent IL-4, which induce macrophage PPARδ/β (Ppard/b) expression through a STAT6 binding site on its promoter to activate alternative activation. Coculture studies indicate that Ppard ablation renders macrophages incapable of transition to the M2 phenotype, which in turns causes inflammation and metabolic derangement in adipocytes. Remarkably, a similar regulatory mechanism by hepatocyte-derived Th2 cytokines and macrophage PPARδ is found to control hepatic lipid metabolism. The physiological relevance of this paracrine pathway is demonstrated in myeloid-specific PPARδ−/− mice, which develop insulin resistance and show increased adipocyte lipolysis and severe hepatosteatosis. These findings provide a molecular basis to modulate tissue-resident macrophage activation and insulin sensitivity.
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