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1. Metabolomics of the Protective Effect of Ampelopsis grossedentata and Its Major Active Compound Dihydromyricetin on the Liver of High-Fat Diet Hamster.

Author

Fan, Lanlan, Qu, Xiaosheng, Yi, Tao, Peng, Yong, Jiang, Manjing, Miao, Jianhua, and Xiao, Peigen

Subjects

DRUG therapy for hyperlipidemia, ANIMAL experimentation, BODY weight, CHOLESTEROL, DIETARY supplements, ENERGY metabolism, FATTY acids, FLAVONOIDS, FAT content of food, HAMSTERS, HERBAL medicine, HYPERLIPIDEMIA, KETONES, LIPIDS, LIQUID chromatography, LIVER, MASS spectrometry, CHINESE medicine, METABOLISM, METABOLITES, MOLECULAR structure, TRIGLYCERIDES, TRICARBOXYLIC acids, METABOLOMICS

Abstract

The flavonoid dihydromyricetin (DMY) is the main component of Ampelopsis grossedentata (Hand-Mazz) W. T. Wang (AG), a daily beverage and folk medicine used in Southern China to treat jaundice hepatitis, cold fever, and sore throat. Recently, DMY and AG were shown to have a beneficial effect on lipid metabolism disorder. However, the mechanisms of how DMY and AG protect the liver during lipid metabolism disorder remain unclear. In this study, we first analyzed the chemical compounds of AG by HPLC-DAD-ESI-IT-TOF-MSn. Of the 31 compounds detected, 29 were identified based on previous results. Then, the effects of DMY and AG on high-fat diet hamster livers were studied and the metabolite levels and metabolic pathway activity of the liver were explored by 1H NMR metabolomics. Compared to the high-fat diet group, supplementation of AG and DMY attenuated the high-fat-induced increase in body weight, liver lipid deposition, serum triglycerides and total cholesterol levels, and normalized endogenous metabolite concentrations. PCA and PLS-DA score plots demonstrated that while the metabolic profiles of hamsters fed a high-fat diet supplemented with DMY or AG were both far from those of hamsters fed a normal diet or a high-fat diet alone, they were similar to each other. Our data suggest that the underlying mechanism of the protective effect of DMY and AG might be related to an attenuation of the deleterious effect of high-fat diet-induced hyperlipidemia on multiple metabolic pathways including amino acid metabolism, ketone body metabolism, energy metabolism, tricarboxylic acid cycle, and enhanced fatty acid oxidation. [ABSTRACT FROM AUTHOR]

Published

2020