Development and organization of pulmonary lymphoid aggregates after Klebsiella pneumoniae infection of the murine respiratory tract

Abstract

Abstract Klebsiella pneumoniae is a worrisome nosocomial pathogen given the widespread emergence of antibiotic resistant strains. Little is known about the host immune response to K. pneumoniae; however, it has recently been shown that aggregates of lymphoid cells can be found in murine lungs 4 weeks after surviving K. pneumoniae pulmonary infection. Others have characterized pulmonary collections of lymphoid cells in response to other pathogens and coined them induced bronchus-associated lymphoid tissue (iBALT). iBALT is believed to assist in protection against re-infection. In our nonlethal model of K. pneumoniae, mice that survive the primary infection and exhibit these structures are indeed protected from K. pneumoniae challenge. To further characterize the development and organization of these structures, pulmonary immune cell populations were analyzed post-infection by flow cytometry, histology, and immunofluorescence. As expected, pulmonary neutrophil populations increase over the first 10 days post-infection. T cells appear to rapidly expand between 7 and 10 days post-infection and both CD4+ and γδ T cell subsets make up the majority of this population. Immunofluorescent imaging of lymphoid aggregates demonstrate that CD4+ and γδ T cells are found within these structures at early time-points. Experiments using TCRβδ−/− mice lacking T cells reveals the absence of lymphoid aggregates 28 days post-infection, suggesting that T cells are essential in the initial formation and development of these structures.