Division of Biotechnology, Department of Chemistry, Lund University, Lund, Sweden.
Appl Environ Microbiol. 2013 Aug;79(16):5030-7. doi: 10.1128/AEM.01456-13. Epub 2013 Jun 14.
Growing evidence indicates that the gut microbiota could have an important role in the development of diet- and lifestyle-induced diseases. It has been shown that modulation of the gut microbiota by means of probiotics and prebiotics could improve host health. An oat-based product fermented by the exopolysaccharide (EPS)-producing organism Pediococcus parvulus 2.6 has been reported to have a bifidogenic effect. To find out whether the effect could be attributed to the EPS or the bacterium, mice were fed a diet supplemented with 2% purified EPS or 10(8) CFU/g of live P. parvulus 2.6 for 6 weeks. Both supplementations altered the gut microbiota composition but in different directions. Purified EPS not only significantly lowered the microbial diversity (P < 0.001) but decreased the bifidobacterial population (P = 0.01). In contrast, the live EPS-producing bacterium P. parvulus 2.6 antagonized Enterobacteriaceae without disturbing the homeostasis of the cecal microbiota.
越来越多的证据表明,肠道微生物群可能在饮食和生活方式引起的疾病的发展中起重要作用。已经表明,通过益生菌和益生元来调节肠道微生物群可以改善宿主健康。由产胞外多糖(EPS)的肠膜明串珠菌 2.6 发酵的燕麦基产品已被报道具有双歧杆菌作用。为了查明这种作用是否归因于 EPS 或细菌,将小鼠用添加 2%纯化 EPS 或 10(8)CFU/g 活肠膜明串珠菌 2.6 的饮食喂养 6 周。这两种补充剂都改变了肠道微生物群的组成,但方向不同。纯化的 EPS 不仅显著降低了微生物多样性(P < 0.001),而且降低了双歧杆菌的数量(P = 0.01)。相比之下,活的产 EPS 肠膜明串珠菌 2.6 拮抗肠杆菌科而不扰乱盲肠微生物群的内稳态。