The autophagic degradation of lipid droplets (LDs), termed lipophagy, is a major mechanism that contributes to lipid turnover in numerous cell types. While numerous factors, including nutrient depriva Show more
The autophagic degradation of lipid droplets (LDs), termed lipophagy, is a major mechanism that contributes to lipid turnover in numerous cell types. While numerous factors, including nutrient deprivation or overexpression of PNPLA2/ATGL (patatin-like phospholipase domain containing 2) drive lipophagy, the trafficking of fatty acids (FAs) produced from this pathway is largely unknown. Herein, we show that PNPLA2 and nutrient deprivation promoted the extracellular efflux of FAs. Inhibition of autophagy or lysosomal lipid degradation attenuated FA efflux highlighting a critical role for lipophagy in this process. Rather than direct transport of FAs across the lysosomal membrane, lipophagy-derived FA efflux requires lysosomal fusion to the plasma membrane. The lysosomal Ca2+ channel protein MCOLN1/TRPML1 (mucolipin 1) regulates lysosomal-plasma membrane fusion and its overexpression increased, while inhibition blocked FA efflux. In addition, inhibition of autophagy/lipophagy or MCOLN1, or sequestration of extracellular FAs with BSA attenuated the oxidation and re-esterification of lipophagy-derived FAs. Overall, these studies show that the well-established pathway of lysosomal fusion to the plasma membrane is the primary route for the disposal of FAs derived from lipophagy. Moreover, the efflux of FAs and their reuptake or subsequent extracellular trafficking to adjacent cells may play an important role in cell-to-cell lipid exchange and signaling. Show less