使用非人类灵长类动物模型研究肠道通透性对乳房微生物组的影响。

Alaa Bawaneh, Carol A Shively, Janet Austin Tooze, Katherine Loree Cook
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引用次数: 1

摘要

我们之前在非人类灵长类动物(NHP)中证明,地中海饮食改变了乳房和肠道中乳酸杆菌的比例丰度。这一数据强调了肠道-乳房微生物群互联性的潜在联系。为了解决这个问题,我们比较了NHP研究中匹配的乳房和粪便样本中发现的细菌种群。饮食模式同时改变了两个物种;卢氏链球菌和鲁米诺球菌。虽然我们观察到乳房和肠道中乳酸杆菌丰度的相似趋势,但在每个地区发现的物种有所不同;地中海饮食增加了乳房中的乳酸杆菌(未指明种类),但调节了肠道中的动物乳杆菌和罗伊氏乳杆菌。我们还研究了肠道通透性对乳腺微生物组的影响。无论饮食模式如何,肠道通透性生理指标增加的受试者(血浆脂多糖升高,绒毛长度减少,杯状细胞减少)显示出显著不同的乳房微生物群。肠道屏障功能障碍与乳腺组织α-多样性增加和β-多样性差异显著相关。综上所述,我们的数据支持受饮食影响的乳房微生物群的存在,饮食在很大程度上不同于肠道微生物群,但对肠道通透性很敏感。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Impact of gut permeability on the breast microbiome using a non-human primate model.

Impact of gut permeability on the breast microbiome using a non-human primate model.

Impact of gut permeability on the breast microbiome using a non-human primate model.

Impact of gut permeability on the breast microbiome using a non-human primate model.

We previously demonstrated in non-human primates (NHP) that Mediterranean diet consumption shifted the proportional abundance of Lactobacillus in the breast and gut. This data highlights a potential link about gut-breast microbiome interconnectivity. To address this question, we compared bacterial populations identified in matched breast and faecal samples from our NHP study. Dietary pattern concurrently shifted two species in both regions; Streptococcus lutetiensis and Ruminococcus torques. While we observe similar trends in Lactobacillus abundances in the breast and gut, the species identified in each region vary; Mediterranean diet increased Lactobacillus_unspecified species in breast but regulated L. animalis and L. reuteri in the gut.We also investigated the impact of gut permeability on the breast microbiome. Regardless of dietary pattern, subjects that displayed increased physiological measures of gut permeability (elevated plasma lipopolysaccharide, decreased villi length, and decreased goblet cells) displayed a significantly different breast microbiome. Gut barrier dysfunction was associated with increased α-diversity and significant different β-diversity in the breast tissue. Taken together our data supports the presence of a breast microbiome influenced by diet that largely varies from the gut microbiome population but is, however, sensitive to gut permeability.

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