Tea intervention ameliorated metabolic dysfunction caused by circadian rhythm disorders via gut microbiota-bile acid-FXR axis

被引：0

作者：

Wei, Yang ^{[1
]}

Miao, Siwei ^{[1
]}

Wei, Kang ^{[1
]}

Peng, Lanlan ^{[1
]}

Wei, Xinlin ^{[1
]}

机构：

[1] Shanghai Jiao Tong Univ, Sch Agr & Biol, Dept Food Sci & Engn, 800 Dongchuan Rd, Shanghai 200240, Peoples R China

来源：

JOURNAL OF FUNCTIONAL FOODS | 2024年 / 123卷

基金：

中国国家自然科学基金;

关键词：

Tea; Circadian rhythm disorder; Metabolic dysfunction; Gut microbiota; Bile acid metabolism; Farnesoid X receptor; PU-ERH; CLOCKS; POLYPHENOLS;

D O I：

10.1016/j.jff.2024.106566

中图分类号：

TS2 [食品工业];

学科分类号：

0832 ;

摘要：

With the rapid development of society and changing lifestyles, people often encounter circadian rhythm disorder (CRD). Although tea active components have shown promise in improving CRD, a comprehensive comparison of different types of tea in improving CRD is still lacking, and the mechanism of regulating CRD-induced metabolic disorders remained unclear. This study selected three representative teas (Green tea, black tea, and dark tea) and compared the ameliorative effects of different teas on CRD-induced metabolic dysfunction. Furthermore, tea intervention improved the metabolic syndrome associated with CRD mainly through decreasing relative abundance of BSH-producing microbes, increasing conjugated bile acids (BAs) that act in an antagonistic manner on intestinal farnesoid X receptor (FXR), and promoting elimination of BAs via the feces. Our results shed light into the mechanisms behind the ameliorative effect of tea intervention on metabolic dysfunction caused by CRD, and suggest that the gut microbiota-bile acid-FXR axis may be potential therapies.

引用

页数：19

共 15 条

[1] Aflatoxin B1 induces liver injury by disturbing gut microbiota-bile acid-FXR axis in mice
Liu, Yunhuan
Li, Jinyan
Kang, Weili
Liu, Shuiping
Liu, Jinyan
Shi, Mengdie
Wang, Yubo
Liu, Xianjiao
Chen, Xingxiang
Huang, Kehe
FOOD AND CHEMICAL TOXICOLOGY, 2023, 176
[2] Lonicerin attenuates high-fat diet-induced hepatic steatosis through modulation of the gut microbiota-bile acid-FXR axis in mice
Wang, Shuang
Zhao, Chunyue
Huang, Xueran
Gao, Yongfen
Qiu, Yang
Jiao, Rui
Zhu, Hanyue
Ding, Huafang
Lin, Rui
He, Zouyan
JOURNAL OF FUNCTIONAL FOODS, 2024, 122
[3] Capsaicin Improves Glucose Tolerance and Insulin Sensitivity Through Modulation of the Gut Microbiota-Bile Acid-FXR Axis in Type 2 Diabetic db/db Mice
Hui, Suocheng
Liu, Yang
Chen, Mengting
Wang, Xiaolan
Lang, Hedong
Zhou, Min
Yi, Long
Mi, Mantian
MOLECULAR NUTRITION & FOOD RESEARCH, 2019, 63 (23)
[4] Mulberry leaf polysaccharides ameliorate glucose and lipid metabolism disorders via the gut microbiota-bile acids metabolic pathway
Dai, Hongyu
Shan, Ziyi
Shi, Lu
Duan, Yuhui
An, Yongcheng
He, Changhao
Lyu, Yinglan
Zhao, Yige
Wang, Menglu
Du, Yuhang
Xie, Jiamei
Yang, Yang
Zhao, Baosheng
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 2024, 282
[5] Gut microbiota-bile acid crosstalk regulates murine lipid metabolism via the intestinal FXR-FGF19 axis in diet-induced humanized dyslipidemia
Xu, Hongtao
Fang, Fang
Wu, Kaizhang
Song, Jiangping
Li, Yaqian
Lu, Xingyu
Liu, Juncheng
Zhou, Liuyang
Yu, Wenqing
Yu, Fei
Gao, Jie
MICROBIOME, 2023, 11 (01)
[6] Gut microbiota-bile acid crosstalk regulates murine lipid metabolism via the intestinal FXR-FGF19 axis in diet-induced humanized dyslipidemia
Hongtao Xu
Fang Fang
Kaizhang Wu
Jiangping Song
Yaqian Li
Xingyu Lu
Juncheng Liu
Liuyang Zhou
Wenqing Yu
Fei Yu
Jie Gao
Microbiome, 11
[7] Amentoflavone ameliorates DSS-induced ulcerative colitis via gut microbiota-bile acid metabolism axis modulation
Chen, Yuting
Li, Kaipeng
Zhang, Meiyan
Liu, Jie
Wang, Man
Xiu, Yuhan
Zhang, Qiaoyue
Zhao, Ding
JOURNAL OF FUNCTIONAL FOODS, 2025, 126
[8] Preparation and characterisation of baicalin magnesium and its protective effect in ulcerative colitis via gut microbiota-bile acid axis modulation
Zhang, Lin
Miao, Ceyu
Wang, Zhixuan
Guan, Xiulu
Ma, Yechao
Song, Jingyu
Shen, Shiyuan
Song, Hongru
Li, Mingqian
Liu, Cuizhe
PHYTOMEDICINE, 2024, 126
[9] The gut microbiota-bile acid axis mediates the beneficial associations between plasma vitamin D and metabolic syndrome in Chinese adults: A prospective study
Lin, Hong-Rou
Xu, Fengzhe
Chen, Danyu
Xie, Keliang
Yang, Yingdi
Hu, Wei
Li, Bang-Yan
Jiang, Zengliang
Liang, Yuhui
Tang, Xin-Yi
Zheng, Ju-Sheng
Chen, Yu-Ming
CLINICAL NUTRITION, 2023, 42 (06) : 887 - 898
[10] Differences in the Ability of Lactic Acid Bacteria To Prevent Acute Alcohol-Induced Liver Injury via the Gut Microbiota-Bile Acid-Liver Axis
Duan, Wenhui
Liu, Fei
Ren, Yilin
Zhang, Xiaojuan
Shi, Jin-Song
Xue, Yuzheng
Xu, Zheng-Hong
Geng, Yan
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, 2024, 72 (27) : 15265 - 15275

← 1 2 →