Abstract

The cell surface properties of Yersinia pseudotuberculosis and Yersinia enterocolitica mutants, constructed by insertional inactivation of genes located on the 40- to 50-megadalton virulence plasmid, were examined. Electron microscopy revealed an absolute correlation between expression of four plasmid-dependent, temperature-inducible properties related to the bacterial surface: (i) a fibrillar matrix covering the outer membrane, (ii) outer membrane protein YOP1, (iii) spontaneous autoagglutination, and (iv) mannose-resistant hemagglutination of guinea pig erythrocytes. Immunoelectron microscopy indicated that YOP1 is a structural component of the fibrillae. Experiments demonstrating inhibition of hemagglutination by anti-YOP1 monoclonal antibody suggested a potential role for YOP1 in adhesion. Insertional inactivation of the gene coding for YOP1, with resultant loss of the ability to express fibrillae, led to a significant reduction in the capacity of Y. enterocolitica, but not Y. pseudotuberculosis, to colonize the ileum of orogastrically infected mice. In both Y. enterocolitica and Y. pseudotuberculosis, inactivation of the genes coding for Ca2+ dependency reduced the ability to maintain intestinal colonization, regardless of the ability to express fibrillae. Both surface fibrillae and Ca2+ dependency seem to reflect pathogenic determinants which are required for the establishment of Y. enterocolitica infection. In Y. pseudotuberculosis, however, no clinical significance of the fibrillae has so far been defined.

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