Preterm birth is a leading cause of perinatal morbidity and mortality. Studies using a cultivation method or molecular identification have shown that bacterial vaginosis is one of the risk factors for preterm birth. However, an association between preterm birth and intestinal microbiota has not been reported using molecular techniques, although the vaginal microbiota changes during pregnancy. Our aim here was to clarify the difference in intestinal and vaginal microbiota between women with preterm birth and women without preterm labor. 16S ribosomal ribonucleic acid genes were amplified from fecal and vaginal DNA by polymerase chain reaction. Using terminal restriction fragment length polymorphism (T-RFLP), we compared the levels of operational taxonomic units of both intestinal and vaginal flora among three groups: pregnant women who delivered term babies without preterm labor (non-PTL group) (n = 20), those who had preterm labor but delivered term babies (PTL group) (n = 11), and those who had preterm birth (PTB group) (n = 10). Significantly low levels of Clostridium subcluster XVIII, Clostridium cluster IV, Clostridium subcluster XIVa, and Bacteroides, and a significantly high level of Lactobacillales were observed in the intestinal microbiota in the PTB group compared with those in the non-PTL group. The levels of Clostridium subcluster XVIII and Clostridium subcluster XIVa in the PTB group were significantly lower than those in the PTL group, and these levels in the PTL group were significantly lower than those in non-PTL group. However, there were no significant differences in vaginal microbiota among the three groups. Intestinal microbiota in the PTB group was found to differ from that in the non-PTL group using the T-RFLP method.
The present study was performed to examine whether probiotics affect Toll-like receptor 4 (TLR4) expression in human colonic epithelial cells. Culture supernatants or heat-killed bacteria of Bacillus mesentericus TO-A, Clostridium butyricum TO-A, and Streptococcus faecalis T-110 were applied to human colonic epithelial cells. Treatment with C. butyricum TO-A culture supernatant significantly reduced TLR4 mRNA level (x0.16), even in the presence of interferon-gamma (IFN-gamma; x0.21) as compared with untreated controls. High-performance liquid chromatography analysis showed that C. butyricum TO-A supernatant contains formate, acetate, and butyrate. Interestingly, TLR4 mRNA was significantly suppressed (x0.15-x0.22) only when cells were treated with solutions containing butyrate. Electrophoretic mobility shift assay suggested that the binding affinity of PU.1 to the promoter region of the TLR4 gene was markedly inhibited when the cells were treated with butyrate. This study suggested that butyrate produced by C. butyricum TO-A downregulates TLR4 mRNA level in human colonic epithelial cells.
The intestinal microbiota composition of 92 volunteers living in Japan was identified following the consumption of 'identical meals' (1,879 kcal/day) for 3 days. When faecal samples were analysed by terminal restriction fragment length polymorphism with several primer-restriction enzyme systems and then clustered, the patterns could be divided into 2 clusters. Contribution tests and partition modelling showed that OTU211 of the 35f-MspI system and OTU237 of the 35f-AluI system were key factors in the distribution of these groups. However, significant differences among these groups in terms of body mass index and age were not observed.
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