Autophagy is an evolutionarily conserved intracellular degradative function that is important for liver homeostasis.Accumulating evidence suggests that autophagy is deregulated during the progression and development of alcoholic and non-alcoholic liver diseases.Impaired autophagy prevents the clearance of excessive lipid droplets(LDs),damaged mitochondria,and toxic protein aggregates,which can be generated during the progression of various liver diseases,thus contributing to the development of steatosis,injury,steatohepatitis,fibrosis,and tumors.In this review,we look at the status of hepatic autophagy during the pathogenesis of alcoholic and non-alcoholic liver diseases.We also examine the mechanisms of defects in autophagy,and the hepato-protective roles of autophagy in non-alcoholic fatty liver disease(NAFLD)and alcoholic liver disease(ALD),focusing mainly on steatosis and liver injury.Finally,we discuss the therapeutic potential of autophagy modulating agents for the treatment of these two common liver diseases.

Metabolic homeostasis requires dynamic catabolic and anabolic processes. Autophagy, an intracellular lysosomal degradative pathway, can rewire cellular metabolism linking catabolic to anabolic processes and thus sustain homeostasis. This is especially relevant in the liver, a key metabolic organ that governs body energy metabolism. Autophagy's role in hepatic energy regulation has just begun to emerge and autophagy seems to have a much broader impact than what has been appreciated in the field. Though classically known for selective or bulk degradation of cellular components or energy-dense macromolecules, emerging evidence indicates autophagy selectively regulates various signaling proteins to directly impact the expression levels of metabolic enzymes or their upstream regulators. Hence, we review three specific mechanisms by which autophagy can regulate metabolism: A) nutrient regeneration, B) quality control of organelles, and C) signaling protein regulation. The plasticity of the autophagic function is unraveling a new therapeutic approach. Thus, we will also discuss the potential translation of promising preclinical data on autophagy modulation into therapeutic strategies that can be used in the clinic to treat common metabolic disorders.