Macroautophagy/autophagy is a dynamic process, and newly synthesized autophagosomes need to fuse with lysosomes to complete the full process, which is referred to as autophagic degradation or autophagic flux. Therefore, the proper number and function of lysosomes are critical for accomplishing autophagic flux. In a recent study, we found that chronic ethanol consumption impairs TFEB (transcription factor EB) function, which leads to decreased lysosomal biogenesis resulting in hepatic steatosis and liver injury in mice. Interestingly, using the autophagic flux assay recommended by the autophagy guidelines, we discovered a novel autophagic flux scenario, which we termed insufficient autophagy. Insufficient autophagy is a scenario in which cells have a decreased number of lysosomes resulting in the accumulation of early autophagosomes. Insufficient autophagy is marked by a partially increased autophagic flux, but the process cannot reach its full degradative capacity due to the lack of a sufficient number of lysosomes. Our work demonstrated that pharmacological or genetic activation of TFEB-mediated lysosomal biogenesis enhances autophagic flux coupled with mitochondrial biogenesis in protecting against ethanol-induced liver injury. Overall, these findings not only identified the steps in which chronic ethanol impairs autophagic flux, but also discovered insufficient autophagy as a novel previously unappreciated autophagic flux scenario.
Keywords: Autophagosome; GFP-LC3; ethanol; liver injury; steatosis.