parapertussis infection. Because previous investigations in our lab have demonstrated a role for PT in the enhancement of infection with B. pertussis (Carbonetti et al., 2003), we considered that PT may also facilitate infection by B. parapertussis. Coadministration of PT in mice has been shown to enhance infection of PT-deficient strains of B. pertussis (Carbonetti et al., 2003) and also enhances influenza virus infection (Ayala et al., 2011). We found that coadministration
ERK inhibitor of PT with B. parapertussis, which does not produce PT itself, resulted in a significant increase in the bacterial load. The effect of coadministered PT was small in the mixed infection, probably because B. pertussis in the inoculum provides a source of PT. This enhancing effect in a mixed infection was lost when a PT-deficient
B. pertussis strain was used. We conclude that PT produced by B. pertussis has an enhancing effect on B. parapertussis infection. PT has immunosuppressive effects on both innate and adaptive immunity to B. pertussis infection (Carbonetti et al., 2004; Kirimanjeswara et al., 2005; Andreasen & Carbonetti, 2008), and a suppressive effect on innate immunity is a likely mechanism by which PT enhances B. parapertussis infection. We also found that AM depletion Selleck Atezolizumab altered the dynamics of the mixed infection, providing B. pertussis with a significant advantage over B. parapertussis. We found previously that AM depletion enhances B. pertussis infection, but is also associated with Arachidonate 15-lipoxygenase an influx of neutrophils (Carbonetti et al., 2007), and so it is possible that this influx has a negative effect on B. parapertussis infection. However, neutrophil depletion did not enhance B. parapertussis infection or alter its advantage in the
mixed infection, calling into question any role for neutrophils in this competition. It is unclear why B. parapertussis did not significantly outcompete B. pertussis in PL-treated control mice, and we cannot rule out the possibility that liposomes had some negative effect on B. parapertussis infection. We can, however, conclude that AM depletion does not enhance B. parapertussis infection and that AM do not play a major role in protection against infection with this organism, unlike B. pertussis. Therefore, it is unlikely that the enhancing effect of PT on B. parapertussis infection is due to its suppressive activity on AM. Bordetella parapertussis differs from B. pertussis in the structure of their lipopolysaccharides. While they have some shared structural elements, B. pertussis lipooligosaccharide lacks the O antigen that is present on B. parapertussis lipopolysaccharides (Di Fabio et al., 1992; Allen et al., 1998; Caroff et al., 2001). In vitro, purified B. parapertussis lipopolysaccharides is a stronger activator of the innate immune response than purified B. pertussis lipooligosaccharide with regard to maturation of human dendritic cells and cytokine production (Fedele et al., 2008).