Trehalose Ameliorates Nonalcoholic Fatty Liver Disease by Regulating IRE1α-TFEB Signaling Pathway

Nonalcoholic fatty liver disease (NAFLD), characterized by hepatic lipid deposition, is one of the most prevalent chronic metabolic disorders globally, and its pharmaceutical treatments are still limited. Excessive lipid accumulation triggers endoplasmic reticulum (ER) stress and autophagy flux dysf...

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Published in:Journal of agricultural and food chemistry 2024-12
Main Authors: Su, Shan, Liu, Xiaohong, Zhu, Min, Liu, Wen, Liu, Jingyi, Yuan, Yujia, Fu, Fudong, Rao, Zhiyong, Liu, Jingping, Lu, Yanrong, Chen, Younan
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container_title Journal of agricultural and food chemistry
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creator Su, Shan
Liu, Xiaohong
Zhu, Min
Liu, Wen
Liu, Jingyi
Yuan, Yujia
Fu, Fudong
Rao, Zhiyong
Liu, Jingping
Lu, Yanrong
Chen, Younan
description Nonalcoholic fatty liver disease (NAFLD), characterized by hepatic lipid deposition, is one of the most prevalent chronic metabolic disorders globally, and its pharmaceutical treatments are still limited. Excessive lipid accumulation triggers endoplasmic reticulum (ER) stress and autophagy flux dysfunction, which are important mechanisms for NAFLD. Trehalose (Tre), a natural disaccharide, has been identified to reduce hepatic steatosis and glucose intolerance. However, its underlying mechanisms for NAFLD remain unclear. In this study, a high-fat-diet (HFD)-induced mouse NAFLD model and a saturated fatty acid palmitic acid (PA)-stimulated cell model were constructed. The results indicated that Tre supplementation ameliorated hepatocyte lipid deposition , as well as hepatic steatosis and hyperlipidemia . Mechanistically, Tre alleviated both autophagy flux dysfunction and endoplasmic reticulum (ER) stress. Under the stimulation of HFD or PA, Tre remarkably increased the expression and nucleic translocation of the lysosomal master protein transcription factor EB (TFEB), while decreasing the accumulation of p62 and also decreasing the ER stress markers (inositol-requiring enzyme 1 (IRE1α), XBP-1, CHOP, and BIP). Similar results were observed in an ER stressor tunicamycin (TM)-induced and models. In addition, the transcriptomic analysis of NAFLD patients revealed significant differences in ER stress-related and autophagy-related biomarkers, including TFEB, ATG7, IRE1α, and CHOP. Molecular docking results demonstrated a strong affinity between Tre and both IRE1α and TFEB. Overall, Tre protected hepatocytes from lipotoxicity-related ER stress and autophagy dysfunction, and its regulatory effect on the IRE1α-TFEB signaling pathway may be a critical mechanism. These findings suggest that Tre, as a bioactive substance with significant medicinal potential, holds considerable promise for drug development and clinical application in treating NAFLD.
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Excessive lipid accumulation triggers endoplasmic reticulum (ER) stress and autophagy flux dysfunction, which are important mechanisms for NAFLD. Trehalose (Tre), a natural disaccharide, has been identified to reduce hepatic steatosis and glucose intolerance. However, its underlying mechanisms for NAFLD remain unclear. In this study, a high-fat-diet (HFD)-induced mouse NAFLD model and a saturated fatty acid palmitic acid (PA)-stimulated cell model were constructed. The results indicated that Tre supplementation ameliorated hepatocyte lipid deposition , as well as hepatic steatosis and hyperlipidemia . Mechanistically, Tre alleviated both autophagy flux dysfunction and endoplasmic reticulum (ER) stress. Under the stimulation of HFD or PA, Tre remarkably increased the expression and nucleic translocation of the lysosomal master protein transcription factor EB (TFEB), while decreasing the accumulation of p62 and also decreasing the ER stress markers (inositol-requiring enzyme 1 (IRE1α), XBP-1, CHOP, and BIP). Similar results were observed in an ER stressor tunicamycin (TM)-induced and models. In addition, the transcriptomic analysis of NAFLD patients revealed significant differences in ER stress-related and autophagy-related biomarkers, including TFEB, ATG7, IRE1α, and CHOP. Molecular docking results demonstrated a strong affinity between Tre and both IRE1α and TFEB. Overall, Tre protected hepatocytes from lipotoxicity-related ER stress and autophagy dysfunction, and its regulatory effect on the IRE1α-TFEB signaling pathway may be a critical mechanism. 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Under the stimulation of HFD or PA, Tre remarkably increased the expression and nucleic translocation of the lysosomal master protein transcription factor EB (TFEB), while decreasing the accumulation of p62 and also decreasing the ER stress markers (inositol-requiring enzyme 1 (IRE1α), XBP-1, CHOP, and BIP). Similar results were observed in an ER stressor tunicamycin (TM)-induced and models. In addition, the transcriptomic analysis of NAFLD patients revealed significant differences in ER stress-related and autophagy-related biomarkers, including TFEB, ATG7, IRE1α, and CHOP. Molecular docking results demonstrated a strong affinity between Tre and both IRE1α and TFEB. Overall, Tre protected hepatocytes from lipotoxicity-related ER stress and autophagy dysfunction, and its regulatory effect on the IRE1α-TFEB signaling pathway may be a critical mechanism. 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Under the stimulation of HFD or PA, Tre remarkably increased the expression and nucleic translocation of the lysosomal master protein transcription factor EB (TFEB), while decreasing the accumulation of p62 and also decreasing the ER stress markers (inositol-requiring enzyme 1 (IRE1α), XBP-1, CHOP, and BIP). Similar results were observed in an ER stressor tunicamycin (TM)-induced and models. In addition, the transcriptomic analysis of NAFLD patients revealed significant differences in ER stress-related and autophagy-related biomarkers, including TFEB, ATG7, IRE1α, and CHOP. Molecular docking results demonstrated a strong affinity between Tre and both IRE1α and TFEB. Overall, Tre protected hepatocytes from lipotoxicity-related ER stress and autophagy dysfunction, and its regulatory effect on the IRE1α-TFEB signaling pathway may be a critical mechanism. 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title Trehalose Ameliorates Nonalcoholic Fatty Liver Disease by Regulating IRE1α-TFEB Signaling Pathway
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