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Abstract Title:Metabolic impact of polyphenol-rich aronia fruit juice mediated by inflammation status of gut人性化小鼠模型中的微生物组供体。
抽象来源:
前养营。 2023; 10:1244692。 EPUB 2023 9月1日。PMID: 37727634 37727634 Hunter Fausset,Zachary t Miller,Seth T Walk,Carl J Yeoman,Brian Bothner,Mary P Miles
文章隶属关系:Stephanie M G Wilson
摘要:
METHOD: Humanized mice were generated by colonizing gnotobiotic mice with microbiomes from human donors presenting disparate inflammation levels.在整个为期8周的饮食干预过程中,与阿罗尼亚果汁或碳水化合物匹配的饮料(2周)或与高脂饮食结合使用以诱发炎症(6周)。使用16S rRNA基因测序(粪便)和液相色谱 - 质量谱法(血清)。第二代人源化小鼠的低炎症水平和高炎症水平。补充阿罗尼亚为高脂饮食诱导的代谢组和微生物组变化提供了强大的保护,部分取决于微生物组供体。 Aronia诱导的Theus细菌(7倍)的升高与已知的代谢(Poly)苯酚和磷脂酰胆碱代谢物的已知能力相一致,这与改善的肠道障碍功能一致。 The gut microbiome from a low inflammation phenotype donor provided protection against high-fat diet induced loss of microbiomeβ-diversity and global metabolomic shifts compared to that from the high inflammation donor.
CONCLUSION: These metabolic changes elucidate pathway-specific drivers of reduced inflammation stemming来自阿罗尼亚和肠道菌群。