pseudomallei 1026b. Despite these differences, our data constitute independent proof of the role of BpaC as an adhesin. These results are substantiated by showing that expression of BpaC on the surface of recombinant E. coli bacteria increases adherence to NHBE, A549
and HEp-2 cells (Figure 2). Given the phenotype of mutants in assays with NHBE cultures and that adherence is a key step in pathogenesis by most infectious agents, we expected the bpaC mutation to reduce the virulence of B. mallei and/or B. pseudomallei in a mouse model of aerosol infection. However, the results of our animal experiments indicate that the mutants are as virulent as wild-type strains (Table 2). Presumably, other adhesins expressed by the bpaC mutants provide sufficient adherence to the murine selleck chemicals airway mucosa to allow colonization at wild-type levels
and for the normal course of disease to ensue. It is unlikely that the lack of phenotype we observed in vivo is due to non-expression of BpaC. Though we discovered that B. pseudomallei DD503 and B. mallei ATCC 23344 do not produce detectable amounts of BpaC under routine laboratory growth conditions, ELISA with sera from mice that survived acute aerosol infection with the agents show that animals produce Abs against the protein (Figure 4A and B). Moreover, sera from horses with experimental glanders have been shown to contain high antibody titers against BpaC [70]. These Aurora Kinase inhibitor results are particularly significant as horses are the natural host and reservoir for B. mallei and arguably the most relevant surrogate to study glanders. Together, these data demonstrate that BpaC is expressed in vivo and elicits the production of Abs during infection. The infection model we used to examine the effect of the bpaC mutation might have impacted the outcome of virulence experiments. This hypothesis is supported by the
Campos et al. study in which they show that the bpaC mutation reduces the ability of B. pseudomallei strain 340 to disseminate and/or survive in the liver [51]. Chorioepithelioma In these experiments, BALB/c mice were infected intranasally with 500 CFU of the agent and bacterial loads in tissues were determined 48 hours post-infection. In contrast, we see more inoculated BALB/c mice intratracheally using a Microsprayer®, which nebulizes bacteria directly into the lungs, infected animals with doses ranging from 102 to 105 CFU, and determined bacterial burden in survivors 6–10 days post-infection (Table 2). It is also known that the choice of bacterial strains [71], inoculation route [72], and animal background [73] can significantly affect the course of disease by B. pseudomallei and B. mallei. For example, the LD50 value of the same B. pseudomallei isolate has been shown to differ by several orders of magnitude in C57BL/6 mice and BALB/c mice [74]. Therefore, a complete understanding of the role of BpaC in pathogenesis may require the use of multiple infection models.