5A) as did mice lacking IFNγR1 ( Fig. 5B). These data indicate a significant role for NADPH oxidase and IFNγ in controlling bacterial proliferation following infection with SL1344 atp. Similarly, both immune components were
needed for control of SL3261 replication ( Fig. 5). SL1344 atp was assessed for its ability to protect against subsequent oral re-challenge ( Fig. 6). Again, the wild type challenge grew rapidly, as expected, in unimmunised mice whereas mice immunised with SL1344 atp had significantly reduced bacterial counts in spleens on days 3, 4 and 7 and in livers on days 4 and 7 postinfection ZD1839 ( Fig. 6). Similar levels of protection were observed between SL1344 atp and SL3261-immunised mice ( Fig. 6). Therefore, SL1344 atp is protective
against subsequent oral challenge and this protection is as effective as immunisation with SL3261. SL1344 atp was further assessed for protection following oral immunisation, given that this would Cobimetinib be the preferred route of immunisation with a live attenuated vaccine. The wild type infection grew as expected in unimmunised mice whereas those immunised with SL1344 atp had significantly lower bacterial counts in spleens and livers after being re-challenged intravenously ( Fig. 7A and B). Little net bacterial growth was observed in challenged SL1344 atp immunised mice, with similar levels of bacteria seen over 14 days. Following oral re-challenge, SL1344 atp immunised mice showed reduced bacterial counts on days 3 and 7 postinfection relative to unimmunised mice ( Fig. 7C and D). Furthermore, bacterial numbers following SL1344 atp oral immunisation were comparable to those seen in SL3261-immunised mice Calpain regardless of the re-challenge route. The SL1344 atp mutant is therefore protective following oral administration and is as effective as SL3261 as a vaccine. Pooled sera from mice immunised intravenously and orally were assayed for antibodies specific for S. Typhimurium. Mice intravenously immunised with SL1344 atp had significantly higher levels of total antibody against S. Typhimurium than unimmunised mice
( Fig. 8A). Levels of total antibody in mice intravenously immunised with SL1344 atp were comparable to those elicited in SL3261-immunised mice. Total antibody levels following oral immunisation were lower than those seen in intravenously immunised animals, however SL1344 atp immunised mice showed higher levels of total antibody compared to unimmunised mice although this did reach statistical significance. Compared with SL3261-immunised mice the antibody levels were lower in SL1344 atp immunised mice although this was not statistically significant. The humoral immune response was further characterised with the determination of IgG subclass levels elicited following immunisation with SL1344 atp ( Fig. 8B and C).