Extensive surface diversity of a commensal microorganism by multiple DNA inversions.

The dynamic interactions between a host and its intestinal microflora that lead to commensalism are unclear. Bacteria that colonize the intestinal tract do so despite the development of a specific immune response by the host. The mechanisms used by commensal organisms to circumvent this immune response have yet to be established. Here we demonstrate that the human colonic microorganism, Bacteroides fragilis, is able to modulate its surface antigenicity by producing at least eight distinct capsular polysaccharides-a number greater than any previously reported for a bacterium-and is able to regulate their expression in an on-off manner by the reversible inversion of DNA segments containing the promoters for their expression. This means of generating surface diversity allows the organism to exhibit a wide array of distinct surface polysaccharide combinations, and may have broad implications for how the predominant human colonic microorganisms, the Bacteroides species, maintain an ecological niche in the intestinal tract.

Role of the 25 kDa major outer membrane protein of Legionella pneumophila in attachment to U-937 cells and its potential as a virulence factor for chick embryos.

The gene encoding the 25 kDa major outer membrane protein (MOMP) of Legionella pneumophila was transformed into Escherichia coli JM 83 and the resultant E. coli LP 116 clone expressed the Legionella-MOMP. Compared with the parent E. coli strain, the clone showed a fivefold increase in opsonin-independent binding to U-937 cells. Furthermore, this gene was incorporated by electroporation into a low virulence derivative of Leg. pneumophila which showed reduced expression of the MOMP but enhanced expression of a 31 kDa protein in the OMP profile. After electroporation, the attenuated strain showed an increased expression of the MOMP while the 31 kDa protein was eliminated and virulence for the chick embryo was re-established. The use of a monoclonal antibody specific for the MOMP abolished virulence and adherence. These studies suggest that the 25 kDa MOMP of Leg. pneumophila serves as an adhesive molecule for host cells and that this protein plays a major role in the virulence of the organism for the chick embryo.