肠道菌群
胆汁酸
甘油三酯
益生菌
功能性食品
胆固醇
双歧杆菌
肥胖
医学
食品科学
粪便
草本植物
肠道菌群
体内
长双歧杆菌
药理学
体外
化学
中草药
代谢活性
饮食性肥胖
传统医学
生物
体重
乳酸菌
胆酸
色氨酸
西餐
肠道细菌
脂质代谢
植物疗法
生物化学
高脂血症
代谢综合征
作者
Yi Sun,Yihong Zeng,Ziyi Yue,Hang Yang,Zhang Y,Haoxin Cui,Haiwei Liu,Hua Xiao,Yì Wáng,Dancai Fan,Bowei Zhang,Huan Lv,Shuo Wang
出处
期刊:Foods
[Multidisciplinary Digital Publishing Institute]
日期:2026-05-11
卷期号:15 (10): 1679-1679
标识
DOI:10.3390/foods15101679
摘要
Hyperlipidemia-associated obesity is frequently accompanied by hepatic injury, bile acid dysregulation, gut microbial remodeling, and anxiety-like behavioral alterations. As emerging functional food ingredients, postbiotics and dietary herbs (DH) may provide practical dietary strategies for metabolic health management, but the most suitable postbiotic form and its compatibility with DH remain unclear. In this study, FB 3-14-derived postbiotics were first screened in vitro for cholesterol micellar binding. Inactivated bacterial cells (Postcell) exhibited the strongest cholesterol-binding capacity and were therefore selected for in vivo validation, alone or in combination with DH, in a high-fat, high-cholesterol (HFHC) mouse model. Consistently, Postcell showed superior efficacy in attenuating body weight gain, jejunal triglyceride accumulation, and hepatic dysfunction compared with other postbiotic forms. Importantly, Postcell_DH exerted broader metabolic benefits, including reductions in weight gain, food efficiency, bile acid dysregulation, and neuroinflammation. Multi-omics analysis further indicated that these effects may be mediated through remodeling of the gut microbiota and metabolome, particularly pathways involved in bile acid and tryptophan metabolism. Notably, Clostridioides and taurochenodeoxycholate-7-sulfate were negatively associated with total cholesterol (TC) and leptin, whereas Clostridium_sensu_stricto_1 and 3-Hydroxyindolin-2-1-sulfate were negatively correlated with brain inflammatory level, lipid, and bile acid-related index. This study supports a practical postbiotic–herbal combination strategy relevant to functional food and dietary supplement development for hyperlipidemia-associated metabolic disturbances.
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