Indole-3-lactic acid associated with Bifidobacterium-dominated microbiota significantly decreases inflammation in intestinal epithelial cells

生物 代谢组 微生物学 长双歧杆菌 细胞因子 脂多糖 炎症 双歧杆菌 免疫学 代谢物 内分泌学 生物化学 乳酸菌 发酵
作者
Amy M. Ehrlich,Alline R. Pacheco,Bethany M. Henrick,Diana H. Taft,Gege Xu,M. Nazmul Huda,Darya O. Mishchuk,Michael L. Goodson,Carolyn M. Slupsky,Daniela Barile,Carlito B. Lebrilla,Charles B. Stephensen,David A. Mills,Helen E. Raybould
出处
期刊:BMC Microbiology [BioMed Central]
卷期号:20 (1): 357-357 被引量:250
标识
DOI:10.1186/s12866-020-02023-y
摘要

Abstract Background Bifidobacterium longum subsp. infantis ( B. infantis ) is a commensal bacterium that colonizes the gastrointestinal tract of breast-fed infants. B. infantis can efficiently utilize the abundant supply of oligosaccharides found in human milk (HMO) to help establish residence. We hypothesized that metabolites from B. infantis grown on HMO produce a beneficial effect on the host. Results In a previous study, we demonstrated that B. infantis routinely dominated the fecal microbiota of a breast fed Bangladeshi infant cohort (1). Characterization of the fecal metabolome of binned samples representing high and low B. infantis populations from this cohort revealed higher amounts of the tryptophan metabolite indole-3-lactic acid (ILA) in feces with high levels of B. infantis . Further in vitro analysis confirmed that B. infantis produced significantly greater quantities of the ILA when grown on HMO versus lactose, suggesting a growth substrate relationship to ILA production. The direct effects of ILA were assessed in a macrophage cell line and intestinal epithelial cell lines. ILA (1-10 mM) significantly attenuated lipopolysaccharide (LPS)-induced activation of NF-kB in macrophages. ILA significantly attenuated TNF-α- and LPS-induced increase in the pro-inflammatory cytokine IL-8 in intestinal epithelial cells. ILA increased mRNA expression of the aryl hydrogen receptor (AhR)-target gene CYP1A1 and nuclear factor erythroid 2–related factor 2 (Nrf2)-targeted genes glutathione reductase 2 (GPX2), superoxide dismutase 2 (SOD2), and NAD(P) H dehydrogenase (NQO1). Pretreatment with either the AhR antagonist or Nrf-2 antagonist inhibited the response of ILA on downstream effectors. Conclusions These findings suggest that ILA, a predominant metabolite from B. infantis grown on HMO and elevated in infant stool high in B. infantis , and protects gut epithelial cells in culture via activation of the AhR and Nrf2 pathway.
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