Lactobacillus oris improves non-alcoholic fatty liver in mice and inhibits endogenous cholesterol biosynthesis

We previously confirmed that a strain of Lactobacillus oris isolated from the fecal samples of healthy Hainan centenarian having potent lipid-lowering ability in HepG2 cells; and this study was to investigate the effect of the stain on non-alcoholic fatty liver in mice in vivio. The Lactobacillus or...

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Published in:Scientific reports 2023-08, Vol.13 (1), p.12946-12946, Article 12946
Main Authors: Zhao, Yiming, Li, Congyong, Luan, Zhe, Chen, Jun, Wang, Cong, Jing, Yujia, Qi, Shirui, Zhao, Zhizhuang, Zhang, Hanwen, Wu, Junling, Chen, Yi, Li, Zhuanyu, Zhao, Bowen, Wang, Shufang, Yang, Yunsheng, Sun, Gang
Format: Article
Language:English
Subjects:
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Aging
Animal models
Bile acids
Biosynthesis
Cell culture
Centenarians
Cholesterol
Fatty liver
Feces
Geriatrics
Humanities and Social Sciences
Lactobacillus
Lipids
multidisciplinary
Oldest old people
Probiotics
Reabsorption
Science
Science (multidisciplinary)
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Summary:We previously confirmed that a strain of Lactobacillus oris isolated from the fecal samples of healthy Hainan centenarian having potent lipid-lowering ability in HepG2 cells; and this study was to investigate the effect of the stain on non-alcoholic fatty liver in mice in vivio. The Lactobacillus oris strain isolated from Hainan centenarian fecal samples were frozen stored in our laboratory. Thirty ob/ob mice (10 in each group) were orally gavaged with Lactobacillus oris (Lactobacillus, 5 × 10 9  cfu), mixed probiotics (Mixed, 5 × 10 9  cfu, a mixture with known lipid-lowering ability), or culture medium (Control) respectively. Lactobacillus oris isolated from fecal samples of Hainan centenarians showed significantly in vivo lipid lowering ability compared with the controls, and the ability was comparable with mixed probiotics strains in mice The possible mechanisms of lipid-lowering of probiotics and Lactobacillus oris may be associated with HMGR inhibition to suppress the synthesis of endogenous cholesterol; bile acids reabsorption, and intestinal FXR-FGF15 signaling pathways promoting the cholesterol conversion into bile acids secretion.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-38530-x