Bordetella parapertussis Survives the Innate Interaction with Human Neutrophils by Impairing Bactericidal Trafficking inside the Cell through a Lipid Raft-Dependent Mechanism Mediated by the Lipopolysaccharide O Antigen

Abstract

ABSTRACTWhooping cough is a reemerging disease caused by two closely related pathogens,Bordetella pertussisandBordetella parapertussis. The incidence ofB. parapertussisin whooping cough cases has been increasing since the introduction of acellular pertussis vaccines containing purified antigens that are common to both strains. Recently published results demonstrated that these vaccines do not protect againstB. parapertussisdue to the presence of the O antigen on the bacterial surface that impairs antibody access to shared antigens. We have investigated the effect of the lack of opsonization ofB. parapertussison the outcome of its interaction with human neutrophils (polymorphonuclear leukocytes [PMNs]). In the absence of opsonic antibodies, PMN interaction withB. parapertussisresulted in nonbactericidal trafficking upon phagocytosis. A high percentage of nonopsonizedB. parapertussiswas found in nonacidic lysosome marker (lysosome-associated membrane protein [LAMP])-negative phagosomes with access to the host cell-recycling pathway of external nutrients, allowing bacterial survival as determined by intracellular CFU counts. The lipopolysaccharide (LPS) O antigen was found to be involved in directingB. parapertussisto PMN lipid rafts, eventually determining the nonbactericidal fate inside the PMN. IgG opsonization ofB. parapertussisdrastically changed this interaction by not only inducing efficient PMN phagocytosis but also promoting PMN bacterial killing. These data provide new insights into the immune mechanisms of hosts againstB. parapertussisand document the crucial importance of opsonic antibodies in immunity to this pathogen.