The mechanistic study of diacylglycerol in ameliorating non-alcoholic fatty liver and systemic lipid accumulation

The mechanistic study of diacylglycerol in ameliorating non-alcoholic fatty liver and systemic lipid accumulation

[Display omitted] •Homologous gene was analyzed between DEGs of NAFLD patients and zebrafish model.•DAG feeding can alleviate NAFLD symptoms both in larval and grown zebrafish.•DAG diet can prevent the occurrence of NAFLD in zebrafish model.•Mechanism of DAG in ameliorating NAFLD was investigated th...

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Bibliographic Details
Published in:Journal of functional foods Vol. 121; p. 106373
Main Authors: Kang, Dianlong, Yang, Yucheng, Zhang, Yibo, Zhang, Jianbin, He, Qianyi, Luo, Zhihuo, Hong, An, Wang, Yong, Liang, Xujing, Chen, Jing, Chen, Xiaojia
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2024
Elsevier
Subjects:
Diacylglycerol oil
Lipid accumulation
Microenvironment
Non-alcoholic fatty liver disease
Zebrafish model
Lipid accumulation
Microenvironment
Diacylglycerol oil
Non-alcoholic fatty liver disease
Zebrafish model
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Summary:[Display omitted] •Homologous gene was analyzed between DEGs of NAFLD patients and zebrafish model.•DAG feeding can alleviate NAFLD symptoms both in larval and grown zebrafish.•DAG diet can prevent the occurrence of NAFLD in zebrafish model.•Mechanism of DAG in ameliorating NAFLD was investigated through transcriptomic analysis. The escalating prevalence of non-alcoholic fatty liver disease (NAFLD), driven by inadequate dietary habits and metabolic imbalances, underscores the urgent need for effective dietary interventions. This study investigated the potential of 80 % peanut diacylglycerol (DAG) as a functional lipid component in preventing NAFLD and associated intestinal microenvironment based on a high-cholesterol diet (HCD)-induced zebrafish model. We first found that the zebrafish fatty liver model shared multiple similar pathways like lipid-induced atherosclerosis, insulin resistance with NAFLD patient in terms of lipid metabolism. Employing larvae and grown zebrafish, we aimed to elucidate the preventive and alleviating effect of a DAG diet on NAFLD respectively. Results showed that DAG post-intervention significantly decreased hepatic lipid accumulation and diminished intestinal inflammatory in fatty liver zebrafish model. Notably, transcriptomic sequencing illuminated upregulation in genes related to lipid metabolism (e.g., fasn, mogat2, cd36), suggesting that peanut DAG accelerated lipid transportation and fostered a metabolic environment less conducive to NAFLD symptoms. Besides, reduced liver lipid droplets and hepatic inflammatory suggested DAG feeding could also prevent the formation of NAFLD. The study provided compelling evidence supporting the incorporation of DAG into the diet as a strategy for the prevention and management of fatty liver disease, proposing a novel approach to functional food development aimed at combating metabolic diseases.
ISSN:1756-4646
DOI:10.1016/j.jff.2024.106373