Abstract 428: An Unexpected Role for ACC in Lipid Droplet Formation in Macrophages in Response to Acellular Adipocyte Fat

In adipose tissues of obese mice, macrophages accumulate in crown-like structures (CLS) formed around dying adipocytes. The CLS macrophages are thought to clear the dead adipocytes by exophagy, which involves exocytosis of lysosomes and digestion of apoptotic adipocytes. After digesting the plasma membrane and other cytosolic contents of the adipocyte, CLS macrophages come in contact with the large lipid droplet, however, it is unknown how macrophages response to such acellular adipocytes. We hypothesized that the acelular adipocytes in CLSs promote inflammation and metabolically activate the macrophages to promote clearance of the lipid. To mimic the in vivo scenario, we exposed cultured murine bone marrow-derived macrophages to lipid droplets isolated from the adipocytes of high-fat diet-induced obese C57BL/6 mice. In response to adipocyte lipid, macrophages accumulated lipid droplets, which were similar in size and number to lipid droplets of CLS macrophages in vivo . Acellular lipid exposure significantly increased TNF-α gene expression, which was suppressed by the CD36 inhibitor sulfo-N-succinimidyl oleate, supporting CD36-mediated inflammatory response. Moreover, lipid exposure significantly lowered metabolic activity of macrophages and impaired clearance of apoptotic bodies from 3T3-L1 adipocytes. Using specific inhibitors, unexpectedly we found that lipid droplet accumulation in macrophages was independent of CD36 activity or processes involved in exophagy such as exocytosis of lysosomes, extracellular lipase activity, lipolysis and phagocytosis. Interestingly, lipid droplet accumulation was dependent on acetyl-CoA carboxylase (ACC) as determined by use of ACC inhibitors soraphen A and TOFA, and siRNA knock-down of ACC in macrophages. Furthermore, confocal microscopy of whole mount adipose tissue revealed expression of ACC in CLS macrophages. Altogether, using a novel in vitro model we demonstrate that acelular adipocytes suppress metabolic activity, but induce inflammation and de novo lipogenesis-mediated lipid droplet formation in macrophages.