Two phenotypes believed to contribute to the pathogenesis of Salmonella infections are macrophage survival and invasion of epithelial cells. It was recently observed that the Salmonella macrophage survival factor PagC has significant amino acid similarity to the Yersinia invasion factor Ail. This observation raised the possibilities that macrophage survival is in part determined by the pathway of entry and that PagC confers an entry mechanism that does not trigger the microbicidal activities of the macrophage. Thus, we sought to investigate the role of PagC in invasion by examining (i) the invasion phenotype of pagC mutants and (ii) the invasion phenotype of Escherichia coli carrying pagC. A previously identified invasion-defective TnphoA insertion mutant of Salmonella enteritidis was found to have TnphoA inserted into the signal sequence-encoding region of pagC; the pagC allele from this mutant, SM5T, was designated pagC64. In contrast, Salmonella typhimurium carrying the pagC1 allele (a TnphoA insertion mutation, downstream of the region encoding the signal sequence) was not defective for invasion. Further analysis of these two pagC alleles suggested that the invasion-defective phenotype associated with pagC64 is not due to the loss of PagC function but rather is due to the synthesis of a hybrid PagC-alkaline phosphatase protein that is aberrantly localized, most likely to the inner membrane, and thus may prevent proper localization or function of a factor(s) required for efficient invasion. The observation that pagC did not confer an invasive phenotype to E. coli further suggests that PagC is not an invasion factor. A cloned pagC gene complemented the macrophage survival defect of S. typhimurium pagC1 mutants, but the cloned ail gene did not. Together these results suggest that the structural similarity between PagC and Ail may not extend to a similarity in function. Interestingly, S. enteritidis carrying the pagC64 allele that results in both an invasion defect and a macrophage survival defect was less virulent for mice infected intragastrically or intraperitoneally than was S. enteritidis carrying the pagC1 allele that results only in a macrophage survival defect.

• 出版日期1992-9