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Browsing by Author "Shen, Xinchun"
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Item Zeaxanthin Drives Dynamic Changes in the Mouse Metabolome Through Gut Microbiome Shift(Elsevier, 2021) Lu, Peiran; Wong, Siau Yen; Chai, Jianmin; Jasbi, Paniz; Wu, Lei; Lyu, Yi; Tang, Minghua; Smith, Brenda; Lucas, Edralin; Clarke, Stephen L.; Chowanadisai, Winyoo; Shen, Xinchun; He, Hui; Zhao, Jiangchao; Gu, Haiwei; Conway, Tyrrell; Wyss, Adrian; Lin, Dingbo; Obstetrics and Gynecology, School of MedicineObjectives: Zeaxanthin, an oxygenized carotenoid, exerts antioxidant properties in human nutrition and metabolism. Like other carotenoids, zeaxanthin is poorly absorbed in the small intestine. The large portion of zeaxanthin reaches the colon and is not fully recovered in the colon. In this study, we aimed to investigate the association of zeaxanthin intake with the gut microbiome homeostasis and metabolomic responses in mice. Methods: Six-week-old male and female C57BL/6J wild type (WT), beta-carotene oxygenase 2 (BCO2) knockout mice were fed with AIN93M chow diets supplemented with or without zeaxanthin (0.02% w/w) for 10 weeks. At the termination of the study, mice were fasted for 3 hrs prior to euthanization. Cecal contents, colon, serum, feces, and other tissues were collected for laboratory assessments.16S rRNA sequencing and LC-MS/MS were performed for gut microbiota profiling and serum and fecal metabolomics analysis, respectively. Results: Significant zeaxanthin accumulation occurred in BCO2 KO, but not WT mice. Zeaxanthin accumulation was associated with the alteration of colonic gut microbiota composition, for example, zeaxanthin-increased abundance in Lachnospiraceae, Proteobacteria, and Parabacteroides, indicating enhanced short-chain production, improved intestinal integrity, and anaerobic bacterial colonization. The results of fecal and serum metabolomics revealed that zeaxanthin significantly altered tyrosine metabolism, branched-chain fatty acid oxidation, fatty acid biosynthesis, and phospholipid biosynthesis, and suppressed levels of kynurenine and trimethylamine N-oxide (TMAO). Conclusions: The results suggested that zeaxanthin accumulation promotes gut microbiome homeostasis and alters the gut microbial metabolites as signals in stimulating the host-gut microbe interplay.