Background/Aims Endoplasmic reticulum (ER) stress in hepatocytes plays a causative role in alcohol-associated liver disease (ALD). The incomplete inhibition of ER stress by targeting canonical ER stress sensor proteins suggests the existence of noncanonical ER stress pathways in ALD pathology. This study aimed to delineate the role of RAB25 in ALD and its regulatory mechanism in noncanonical ER stress pathways.
Methods RAB25 activation was examined in liver samples from ALD patients and ethanol-fed mice. The interaction between RAB25 and GCN1 was confirmed through mass spectrometry and co-immunoprecipitation (Co-IP) assays in vitro. The role of RAB25/GCN1 in promoting noncanonical ER stress in ALD was assessed both in vitro and in vivo.
Result s: RAB25 expression was upregulated and specifically accumulated on the ER in ALD. Mass spectrometry and Co-IP assays confirmed that RAB25 interacts with GCN1, thereby activating a noncanonical ER stress pathway that facilitates ALD progression. Further analysis revealed that RAB25 interaction with GCN1 inhibits K33-ubiquitination-mediated degradation of GCN1, promotes GCN2 phosphorylation, and subsequently activates ATF4-mediated ER stress. This activation modulates lipid metabolism, mitochondrial function, and inflammation, thereby facilitating ALD progression. Knockdown of RAB25 in hepatocytes inhibited ER stress activation and mitigated associated mitochondrial dysfunction, excessive lipid synthesis, and the exaggerated inflammatory response in an ALD model.
Conclusions Our findings demonstrate a causal role for RAB25-GCN1 signaling in activating the ER stress pathway, which contributes to ALD progression. This pathway may provide a proof-of-concept target for treating ALD and associated metabolic disorders.
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Special topic: Alcoholic liver diseases The 14th International Symposium on Alcoholic Liver and Pancreatic Diseases and Cirrhosis (ISALPDC)
Alcoholic and non-alcoholic liver diseases begin from an imbalance in lipid metabolism in hepatocytes as the earliest response. Both liver diseases share common disease features and stages (i.e., steatosis, hepatitis, cirrhosis, and hepatocellular carcinoma). However, the two diseases have differential pathogenesis and clinical symptoms. Studies have elucidated the molecular basis underlying similarities and differences in the pathogenesis of the diseases; the factors contributing to the progression of liver diseases include depletion of sulfhydryl pools, enhanced levels of reactive oxygen and nitrogen intermediates, increased sensitivity of hepatocytes to toxic cytokines, mitochondrial dysfunction, and insulin resistance. Endoplasmic reticulum (ER) stress, which is caused by the accumulation of misfolded proteins and calcium depletion, contributes to the pathogenesis, often causing catastrophic cell death. Several studies have demonstrated a mechanism by which ER stress triggers liver disease progression. Autophagy is an evolutionarily conserved process that regulates organelle turnover and cellular energy balance through decomposing damaged organelles including mitochondria, misfolded proteins, and lipid droplets. Autophagy dysregulation also exacerbates liver diseases. Thus, autophagy-related molecules can be potential therapeutic targets for liver diseases. Since ER stress and autophagy are closely linked to each other, an understanding of the molecules, gene clusters, and networks engaged in these processes would be of help to find new remedies for alcoholic and non-alcoholic liver diseases. In this review, we summarize the recent findings and perspectives in the context of the molecular pathogenesis of the liver diseases.
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