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矢车菊素 3-葡萄糖苷通过葡聚糖硫酸钠诱导的小鼠结肠炎模型调节肠道微生物失调和全球代谢组紊乱。

Malvidin 3-Glucoside Modulated Gut Microbial Dysbiosis and Global Metabolome Disrupted in a Murine Colitis Model Induced by Dextran Sulfate Sodium.

机构信息

College of Food Science and Engineering, Ocean University of China, Qingdao, 266003, China.

Produce Safety and Microbiology Research Unit, United States Department of Agriculture, Agriculture Research Service, Albany, CA, 94706, USA.

出版信息

Mol Nutr Food Res. 2019 Nov;63(21):e1900455. doi: 10.1002/mnfr.201900455. Epub 2019 Sep 12.

DOI:10.1002/mnfr.201900455
PMID:31444937
Abstract

SCOPE

This study aims to elucidate the mechanisms of the anthocyanin malvidin 3-glucoside (MV) in alleviating gut dysbiosis using a murine colitis model induced by dextran sulfate sodium (DSS).

METHODS AND RESULTS

The effect of MV on the structure and function of the colon microbiome and microbial metabolism is evaluated using 16S rRNA gene sequencing, global metabolomics, and a network algorithm based on the random-matrix theory. MV ingestion improved histopathological scores and increased IL10 expression in the colon mucosa of colitis mice. While DSS has a profound effect on the gut microbiome and significantly decreases both microbial richness and evenness, MV further reduces evenness but promotes microbial interactions and restores the Firmicutes/Bacteroidetes ratio repressed by DSS. Moreover, MV reduces the abundance of pathogenic bacteria, such as Ruminococcus gnavus, in colitis mice and has a strong modulatory effect on microbial co-occurrence patterns and gut metabolites. In addition, MV reverses several key inflammatory mediators, including sphingolipid metabolites, from elevated levels in DSS colitis mice. As a bioactive ingredient, MV exerts its effect on the gut microbiome in a mechanism that differs from the whole blueberry.

CONCLUSION

MV ingestion ameliorates intestinal inflammation by modulating colon epithelium integrity, gut microbiome, and key inflammatory mediators.

摘要

目的

本研究旨在利用葡聚糖硫酸钠(DSS)诱导的小鼠结肠炎模型阐明花色苷矢车菊素 3-葡萄糖苷(MV)缓解肠道菌群失调的机制。

方法和结果

采用 16S rRNA 基因测序、全局代谢组学和基于随机矩阵理论的网络算法,评估 MV 对结肠微生物组结构和功能以及微生物代谢的影响。MV 摄入可改善结肠炎小鼠结肠黏膜的组织病理学评分和 IL10 表达。DSS 对肠道微生物组有深远影响,显著降低微生物丰富度和均匀度,而 MV 进一步降低均匀度,但促进微生物相互作用,并恢复 DSS 抑制的厚壁菌门/拟杆菌门比例。此外,MV 减少了结肠炎小鼠中致病性细菌如 Ruminococcus gnavus 的丰度,并对微生物共生模式和肠道代谢物具有强烈的调节作用。此外,MV 逆转了几种关键的炎症介质,包括鞘脂代谢物,使其在 DSS 结肠炎小鼠中的水平降低。作为一种生物活性成分,MV 通过调节结肠上皮完整性、肠道微生物组和关键炎症介质来发挥其对肠道微生物组的作用,与整个蓝莓不同。

结论

MV 摄入可通过调节结肠上皮完整性、肠道微生物组和关键炎症介质来改善肠道炎症。

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