Various bacterial strains were tested for their ability to stimulate immunoglobulin A (IgA) plasmocytes to populate the duodenal lamina propria in axenic mice.The mice were associated with the strains for at least 4 weeks. The strains 532 on August 5, 2020 by guest http://iai.asm.org/ Downloaded from
Fourteen microbial strains isolated from conventional rats were inoculated into axenic rats and mice receiving identical diets. The populations of these organisms which became established in the feces of gnotobiotic adult recipient rats and mice were quite similar. The only major difference was that one strain, belonging to the genus Clostridium, disappeared from the feces of gnotobiotic mice, whereas this strain became established in gnotobiotic rats. Most of the strictly anaerobic strains were absent or present only in small numbers before weaning in young rats and mice. A clear-cut barrier effect against Salmonella typhimurium was found in adult gnotobiotic mice colonized with a complex flora derived from a conventional chicken. The microflora established in these recipient mice exerted the same barrier effect when further transferred into axenic chickens. Inoculation of feces from a human donor into adult gnotobiotic recipient mice produced colonization by several strains from the donor, whereas other strains, belonging to the genera Bifidobacterium, Lactobacillus, and Clostridium were present in the donor, but did not persist in recipient mice. In these mice, nonetheless, the colonizing human fecal flora exerted an effective barrier against a toxigenic strain of Clostridium difficile. This barrier effect spontaneously disappeared several weeks later. Administration of clindamycin to the recipient mice led to large variations in the number of viable cells of C. difficile.
The pathogenicity of Clostridium difficile is due to the production of two toxins (toxins A and B). We prepared monoclonal antibodies against toxin A and determined whether axenic mice passively immunized with the monoclonal antibodies were protected against C. difficile disease. The mice were kept in an isolator and were given ascites fluid intravenously prior to challenge with a toxinogenic strain of C. difficile. Control mice and mice receiving ascites fluid devoid of toxin antibody died within 2 days and had high levels of toxins A and B in their feces. Mice that received ascites fluid containing high amounts of toxin A monoclonal antibodies directed against the repeating units of the toxin survived. In protected mice, toxin B levels were similar to those in dying mice, but toxin A levels were greatly reduced. These data show that passive immunity induced by monoclonal antibodies against toxin A was effective against pseudomembranous cecitis.
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. distasonis 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.
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