CD59 was selected as it is known to localise to these micro-domains and could therefore act as a marker. The results show co-localisation
of Ifp and CD59, which was reduced with MBP-IfpC337G (Figure 5A), suggesting that there is a putative receptor for Ifp within these lipid rafts. The Ifp receptor within these lipid rafts has yet to be determined, but as not all of the MBP-Ifp co-localised, no conclusions can currently be made as to the exact receptor of Ifp. Inv is differentially thermoregulated with lower levels being expressed at 37°C compared to 28°C [38]. In comparison, yadA shows maximal expression at 37°C in exponential phase culture, conditions where inv expression is repressed [51]. YadA is a virulence plasmid (pYV) encoded adhesin, known to be involved during the infection ATM/ATR inhibitor of Y. pseudotuberculosis [51–53]. The pattern of inv expression was confirmed by this study, click here where inv was expressed both at 28°C and 37°C during lag and early log phase culture, although at a greater degree at 28°C (Figure 2). The ifp gene appears to be expressed at 37°C
at a later time point in the late log or early stationary phase, when inv expression is reduced. As ifp and yadA are expressed at similar time points and at the same temperature, Ifp may have a similar role to YadA during the infection of Y. pseudotuberculosis [51]. Although inv expression is decreased at a later time point, it still appears to have an effect on the invasion of Y. pseudotuberculosis (Figure 6B); this is despite using stationary phase cultures which had been grown at 37°C. The western blot analysis for presence of invasin under these conditions (Figure 6D), confirmed that although inv may no longer be actively expressed, invasin was still present in the cell and could therefore have a role in invasion of HEp-2 cells. The invasion and adhesion assays confirmed the microscopy and flow cytometry results, in demonstrating a role for Ifp as an adhesin, as the levels of adhesion were reduced with IPΔIFP in comparison to wild type (Figure 6A). The inv mutant did not show as great a decrease in adhesion as the ifp
mutant, but the double mutant showed similar if not a marginally greater reduction in adhesion as IPΔIFP, in comparison to the wild type. Although levels of invasion were significantly affected by IPΔIFP, Astemizole this may be due to reduced adhesion, suggesting that Ifp is an adhesin. Any differences between IPΔINV and IPΔIFPΔINV were beyond the detection capability of this assay, but it appeared that invasin was the dominant protein involved in the invasion of the HEp-2 cells. Removal of the pYV and therefore the YadA and Yop virulence factors allowed greater distinction of the role of Ifp. Without these extra virulence determinants compensating for the mutation of ifp, the IPΔIFP mutant showed a statistically significant reduction in adhesion compared to IPWT (Figure 6C).