Effects of Antibiotics on the Uterine Microbial Community of Mice.

Sang-Gyu Kim, Dae-Wi Kim, Hoon Jang
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Abstract

The gut microbiota is involved in the maintenance of physiological homeostasis and is now recognized as a regulator of many diseases. Although germ-free mouse models are the standard for microbiome studies, mice with antibiotic-induced sterile intestines are often chosen as a fast and inexpensive alternative. Pathophysiological changes in the gut microbiome have been demonstrated, but there are no reports so far on how such alterations affect the bacterial composition of the uterus. Here we examined changes in uterine microbiota as a result of gut microbiome disruption in an antibiotics-based sterile-uterus mouse model. Sterility was induced in 6-week-old female mice by administration of a combination of antibiotics, and amplicons of a bacteria marker gene (16S rRNA) were sequenced to decipher bacterial community structures in the uterus. At the phylum-level, Proteobacteria, Firmicutes, and Actinobacteria were found to be dominant, while Ralstonia, Escherichia, and Prauserella were the major genera. Quantitative comparisons of the microbial contents of an antibiotic-fed and a control group revealed that the treatment resulted in the reduction of bacterial population density. Although there was no significant difference in bacterial community structures between the two animal groups, β-diversity analysis showed a converged profile of uterus microbiotain the germ-free model. These findings suggest that the induction of sterility does not result in changes in the levels of specific taxa but in a reduction of individual variations in the mouse uterus microbiota, accompanied by a decrease in overall bacterial population density.

Abstract Image

Abstract Image

Abstract Image

抗生素对小鼠子宫微生物群落的影响。
肠道微生物群参与维持生理稳态,现在被认为是许多疾病的调节剂。尽管无菌小鼠模型是微生物组研究的标准,但使用抗生素诱导的无菌肠道的小鼠通常被选为快速且廉价的替代方法。肠道微生物组的病理生理变化已经得到证实,但目前还没有关于这种改变如何影响子宫细菌组成的报道。在这里,我们在基于抗生素的无菌子宫小鼠模型中检查了肠道微生物群破坏导致的子宫微生物群变化。通过联合使用抗生素诱导6周龄雌性小鼠不育,并对细菌标记基因(16S rRNA)的扩增子进行测序,以破译子宫内的细菌群落结构。门水平上以变形菌门(Proteobacteria)、厚壁菌门(Firmicutes)和放线菌门(Actinobacteria)为主,Ralstonia、Escherichia和Prauserella为主要属。定量比较抗生素喂养组和对照组的微生物含量显示,治疗导致细菌种群密度降低。尽管两组动物之间的细菌群落结构没有显著差异,但β-多样性分析显示,无菌模型的子宫微生物具有趋同特征。这些发现表明,不育的诱导不会导致特定分类群水平的变化,而是导致小鼠子宫微生物群个体差异的减少,同时伴随着总体细菌种群密度的下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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