Adipose tissue conditioned media support macrophage lipid-droplet biogenesis by interfering with autophagic flux

•Adipose Tissue Conditioned Media (AT-CM) enhances lipid droplet (LD) biogenesis rate in M0 macrophages.•AT-CM inhibits macrophage autophagy, affecting autophagosome growth > biogenesis rate.•3MA and siRNA-Atg12 interference with early autophagy steps inhibits LD biogenesis.•Inhibiting late autophagy steps augments macrophage LD biogenesis rate

Obesity promotes the biogenesis of adipose tissue (AT) foam cells (FC), which contribute to AT insulin resistance. Autophagy, an evolutionarily-conserved house-keeping process, was implicated in cellular lipid handling by either feeding and/or degrading lipid-droplets (LDs). We hypothesized that beyond phagocytosis of dead adipocytes, AT-FC biogenesis is supported by the AT microenvironment by regulating autophagy. Non-polarized (“M0”) RAW264.7 macrophages exposed to AT conditioned media (AT-CM) exhibited a markedly enhanced LDs biogenesis rate compared to control cells (8.3 Vs 0.3 LDs/cells/h, p < 0.005). Autophagic flux was decreased by AT-CM, and fluorescently following autophagosomes over time revealed ~ 20% decline in new autophagic vesicles' formation rate, and 60–70% decrease in autophagosomal growth rate, without marked alternations in the acidic lysosomal compartment. Suppressing autophagy by either targeting autophagosome formation (pharmacologically, with 3-methyladenine or genetically, with Atg12 ± Atg7-siRNA), decreased the rate of LD formation induced by oleic acid. Conversely, interfering with late autophago-lysosomal function, either pharmacologically with bafilomycin-A1, chloroquine or leupeptin, enhanced LD formation in macrophages without affecting LD degradation rate. Similarly enhanced LD biogenesis rate was induced by siRNA targeting Lamp-1 or the V-ATPase. Collectively, we propose that secreted products from AT interrupt late autophagosome maturation in macrophages, supporting enhanced LDs biogenesis and AT-FC formation, thereby contributing to AT dysfunction in obesity.

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