Identification of an iron-regulated virulence determinant in Vibrio cholerae, using TnphoA mutagenesis

Abstract

Several virulence determinants of bacteria are regulated by the concentration of iron in the medium, with increased expression occurring under low-iron conditions. Iron-regulated virulence factors have not been previously described in Vibrio cholerae. We used the transposon vector Tn5 IS50L::phoA (TnphoA) to obtain insertion mutations in iron-regulated genes of V. cholerae 0395. One strain, carrying an insertion mutation in iron-regulated gene irgA, had reduced virulence in an animal model and had lost the 77-kilodalton major iron-regulated outer membrane protein. The 50% lethal dose of this mutant strain (MBG40) in suckling mice was 3 x 10(5) bacteria compared with 4 x 10(3) bacteria for 0395 wild type. In an in vivo competition assay, the wild-type strain out competed the mutant almost 10-fold, suggesting a possible colonization defect in MBG40. The in vitro competitive index and in vitro growth curves in low- and high-iron media showed that the mutant strain had no discernable growth defect. These data suggest that the 77-kilodalton iron-regulated outer membrane protein may play a role in the pathogenesis of V. cholerae infection. It is not yet clear whether the reduction of virulence in MBG40, as assessed by 50% lethal dose analysis, is explained by a colonization defect or whether it relates to another defect associated with loss of the IrgA protein.