Prevention of gut inflammation by Bifidobacterium in dextran sulfate-treated gnotobiotic mice associated with Bacteroides strains isolated from ulcerative colitis patients

Indigenous Bacteroides strains are closely associated with the occurrence and exacerbation of ulcerative colitis (UC). In this study, we aimed to clarify the effect of Bifidobacterium strains, another major member of colonic bacteria, on the development of gut inflammation using gnotobiotic mouse models associated with Bacteroides strains isolated from UC patients. Dextran sulfate (DSS) administration induced inflammation in the large intestine, in particular of the cecum, in the gnotobiotic mice associated with three strains of Bacteroides vulgatus, judging from the myeloperoxidase activity, occult blood score, and IgG leakage into the intestinal contents. However, the severity of the inflammation was greatly reduced in the gnotobiotic mice associated with both B. vulgatus and Bifidobacterium strains. The severity of the cecal inflammation was well correlated with the concentration of succinic acid in the cecum. Bacteriologically, the density of B. vulgatus strain A (BV-A) greatly decreased and the predominant strain changed from BV-A to BV-B on additional association with Bifidobacterium strains. Among gnotobiotic mice associated with a single B. vulgatus strain, the severity of cecal inflammation in BV-A-associated mice was greater than that in BV-B-associated mice. Each Bifidobacterium strain produced compound(s) more effectively inhibiting the growth of BV-A than BV-B in in vitro culture. Taken together, these results suggest that the severity of DSS-induced gut inflammation is closely associated with a particular B. vulgatus strain, and that Bifidobacterium strains may repress exacerbation of intestinal inflammation through growth inhibition of the B. vulgatus strain.     

Structural elucidation of a capsular polysaccharide from a clinical isolate of Bacteroides vulgatus from a patient with Crohn's disease.

The structure of a capsular polysaccharide (CPS) from a clinical isolate of Bacteroides vulgatus was elucidated. B. vulgatus IMCJ 1204 was isolated from feces of a patient with Crohn's disease. CPS was prepared by phenol/water extraction of the bacterial cells followed by hydrophobic interaction chromatography and then gel filtration chromatography of the extract. The structure of CPS was determined by chemical analysis and NMR spectroscopy including DQF-COSY, TOCSY, ROESY, HSQC-TOCSY, HMQC and HMBC to be a polysaccharide composed of the following repeating unit: -->3)beta-D-Glcp(1-->6)[alpha-D-GalpNAc(1-->2)beta-D-Galp(1-->4)]beta-D-GlcpNAc(1-->3)alpha-D-Galp(1-->4)beta-D-Manp(1-->.     

Anaerobic gram-negative faecal flora in patients with Crohn's Disease and healthy subjects

The anaerobic gram-negative faecal flora of five patients with Crohn's Disease (CD) was identified and compared with that of healthy subjects. For isolation and cultivation of the anaerobic gram-negative rods a non-selective medium was used. There were no significant differences in numbers of Bacteroides and Fusobacterium spp. between patients with CD and healthy subjects. However, the numbers of the "Bacteroides fragilis" group were significantly higher in patients than in controls. The high numbers of the "B. fragilis" group in the faeces of patients were particularly due to B. vulgatus which was 6 times more frequent in patients than in healthy subjects. This indicated that B. vulgatus was responsible for the higher numbers of anaerobic gram-negative rods in the faecal flora of patients with CD.     

Bacteroides and appendicitis (author's transl)]

Bacteroides fragilis is frequently recovered from cases of appendicitis with perforation and from infections developing secondary to appendicitis. In order to assess the part played by B. fragilis in the aetiology of appendicitis, quantitative aerobic and anaerobic culture studies of the contents of 49 inflammated appendices were performed. Anaerobic gram-negative non-sporing rods were cultivated from 43 appendices in the range 10(3)-10(9)/g. A total of 1,473 isolates was differentiated by biochemical methods, and 1,374 cultures were found to belong to the saccharolytic species of the genus Bacteroides (B. fragilis, B. thetaiotaomicron, B. vulgatus, B. distasonis etc.). B fragilis was detected in 31 appendices; the species predominated in 18 samples. B theraiotamicron, recovered from 27 samples, was prevalent in 4 appendices. In one sample, B. fragilis and B. thetaiotaomicron outnumbered the other appendicular bacterial. B. vulgatus was cultivated from 12 appendices, but did once constitute the prevalent group. It has been previously shown that B. vulgatus (43% of intestinal isolates) and B. thetaiomicron predominate in the normal narge bowel flora. On the other hand, approximately 80% of pyrogenic Bacteroides strains belong to B. fragilis, B. thetaiotaomicron accounting for 19% and B. vulgatus being virtually absent. From these striking differences in species distribution the conclusion was drawn that B. fragilis possesses the highest virulence for man. Species distribution within the 1,374 appendicular isolates of saccharolytic Bacteroides (percentages of 62, 19 and 4.3 for B. fragilis, B. thetaiotaomicron, and B. vulgatus, respectively) was very similar to that encountered in clinical specimens. From the results obtained it becomes evident that pyrogenic Bacteroides, in particular B. fragilis, plays an important role in nearly 50% of cases of appendicitis.     

The suppressive effect of bifidobacteria on Bacteroides vulgatus,a putative pathogenic microbe in inflammatory bowel disease

Bacteroides, a predominant commensal bacteria in the gut, are thought to be responsible for the development of inflammatory bowel disease (IBD). In the present study, we examined whether or not bifidobacteria suppress B. vulgatus, a representative pathogenic Bacteroides species, in both the coculture system and the gnotobiotic murine model. As a result, Bifidobacterium infantis 1222 highly inhibited the growth of B. vulgatus in the coculture and also significantly suppressed the systemic antibody response raised by B. vulgatus colonizing the gut in gnotobiotic mice. Colonization of the mice by B. vulgatus increased the number of Peyer's patch (PP) cells bearing PNA (peanut agglutinin)+/anti-kappa+ phenotype, which represents plasma cell-like B cells. Moreover, treatment of those B. vulgatus-implanted mice with B. infantis 1222 abrogated such increase in the number of PNA+/anti-kappa+ cells. These results thus suggested that B. infantis 1222 protected the gut epithelial layer including the PP from being invaded by Bacteroides, thereby suppressing the systemic antibody response raised by Bacteroides.     

Screening for the presence of the insertion sequence IS1 in the genus Bacteroides

Abstract A specific DNA probe, containing a conserved region of the insertion sequence IS1, was hybridised to dot blots of total genomic DNA from 2 oral and 5 intestinal Bacteroides spp. Using Escherichia coli K12 as a positive control and Pseudomonas aeruginosa as a negative control, DNA homologous to the probe could not be detected in Bacteroides corporis, Bacteroides intermedius, Bacteroides ovatus, Bacteroides vulgatus, Bacteroides thetaiotaomicron or 2 strains of Bacteroides fragilis . The total DNA included plasmid DNA of 30.2, 42.7 and 42.7 MDa from B. fragilis, B. intermedius and B. corporis , respectively.
IS1 is commonly found in members of the Enterobacteriaceae, and it was concluded that the 2 groups of bacteria are not closely related.     

Influence of environmental and genetic factors linked to celiac disease risk on infant gut colonization by Bacteroides species

Celiac disease (CD) is an immune-mediated enteropathy involving genetic and environmental factors whose interaction might influence disease risk. The aim of this study was to determine the effects of milk-feeding practices and the HLA-DQ genotype on intestinal colonization of Bacteroides species in infants at risk of CD development. This study included 75 full-term newborns with at least one first-degree relative suffering from CD. Infants were classified according to milk-feeding practice (breast-feeding or formula feeding) and HLA-DQ genotype (high or low genetic risk). Stools were analyzed at 7 days, 1 month, and 4 months by PCR and denaturing gradient gel electrophoresis (DGGE). The Bacteroides species diversity index was higher in formula-fed infants than in breast-fed infants. Breast-fed infants showed a higher prevalence of Bacteroides uniformis at 1 and 4 months of age, while formula-fed infants had a higher prevalence of B. intestinalis at all sampling times, of B. caccae at 7 days and 4 months, and of B. plebeius at 4 months. Infants with high genetic risk showed a higher prevalence of B. vulgatus, while those with low genetic risk showed a higher prevalence of B. ovatus, B. plebeius, and B. uniformis. Among breast-fed infants, the prevalence of B. uniformis was higher in those with low genetic risk than in those with high genetic risk. Among formula-fed infants, the prevalence of B. ovatus and B. plebeius was increased in those with low genetic risk, while the prevalence of B. vulgatus was higher in those with high genetic risk. The results indicate that both the type of milk feeding and the HLA-DQ genotype influence the colonization process of Bacteroides species, and possibly the disease risk.     

Role of starch as a substrate for Bacteroides vulgatus growing in the human colon.

Bacteroides vulgatus is the numerically predominant Bacteroides species in the human colonic microflora. Unlike other colonic Bacteroides species, B. vulgatus is not a versatile utilizer of polysaccharides. The only types of polysaccharide that support rapid growth and high growth yields by all strains are the starches amylose and amylopectin. Amylase and alpha-glucosidase activities are among the highest found in a bacterial fraction obtained from human feces. This observation raised the question of whether B. vulgatus was the source of the fecal enzymes. Both alpha-glucosidase and amylase were produced at 20- to 40-fold-higher levels when B. vulgatus was grown on maltose, amylose, or amylopectin than when B. vulgatus was grown on glucose or other monosaccharides. Both enzymes had the same pI (4.6 to 5.0) and undenatured molecular weight (150,000). The pIs and molecular weights of the B. vulgatus amylase and alpha-glucosidase were the same as those of the fecal enzymes. To determine whether the B. vulgatus alpha-glucosidase was identical to the fecal alpha-glucosidase, we partially purified the B. vulgatus enzyme and raised an antiserum against it. Using this antiserum, we showed that all strains of B. vulgatus produced the same enzyme. The antiserum did not detect the B. vulgatus alpha-glucosidase in the bacterial fraction from human feces, even when a partially purified preparation of the fecal enzyme was used. Thus the alpha-glucosidase activity in the bacterial fraction from human feces is not the B. vulgatus enzyme.     

Role of starch as a substrate for Bacteroides vulgatus growing in the human colon

Bacteroides vulgatus is the numerically predominant Bacteroides species in the human colonic microflora. Unlike other colonic Bacteroides species, B. vulgatus is not a versatile utilizer of polysaccharides. The only types of polysaccharide that support rapid growth and high growth yields by all strains are the starches amylose and amylopectin. Amylase and alpha-glucosidase activities are among the highest found in a bacterial fraction obtained from human feces. This observation raised the question of whether B. vulgatus was the source of the fecal enzymes. Both alpha-glucosidase and amylase were produced at 20- to 40-fold-higher levels when B. vulgatus was grown on maltose, amylose, or amylopectin than when B. vulgatus was grown on glucose or other monosaccharides. Both enzymes had the same pI (4.6 to 5.0) and undenatured molecular weight (150,000). The pIs and molecular weights of the B. vulgatus amylase and alpha-glucosidase were the same as those of the fecal enzymes. To determine whether the B. vulgatus alpha-glucosidase was identical to the fecal alpha-glucosidase, we partially purified the B. vulgatus enzyme and raised an antiserum against it. Using this antiserum, we showed that all strains of B. vulgatus produced the same enzyme. The antiserum did not detect the B. vulgatus alpha-glucosidase in the bacterial fraction from human feces, even when a partially purified preparation of the fecal enzyme was used. Thus the alpha-glucosidase activity in the bacterial fraction from human feces is not the B. vulgatus enzyme.     

Selective enumeration of Bacteroides vulgatus and B. distasonis organisms in the predominant human fecal flora by using monoclonal antibodies.

The genus Bacteroides represents about one-third of the isolates from human fecal samples. The proportions of the different species are difficult to estimate because there is no method for rapid identification of mixtures of anaerobes. Monoclonal antibodies against Bacteroides vulgatus and B. distasonis were prepared. They did not react with the other Bacteroides species of the B. fragilis group. These reagents allowed direct enumeration of B. vulgatus and B. diastasonis organisms in human fecal samples. Anaerobic bacteria resistant to 1-h contact with air were enumerated in fecal human samples, a filter was layered on the colonies, and then B. vulgatus colonies were identified by an immunoassay performed with the prepared monoclonal antibodies. Healthy human adult volunteers were tested. Most of them harbored B. vulgatus at high levels, while the B. distasonis levels were always lower. Kinetic studies suggested that time variations for each volunteer were small. The simplified quantification of Bacteroides strains at the species level described here will prove useful in complementing our knowledge of the factors which may influence the predominant human fecal flora.