Abstract
Pneumonic plague is the deadliest form of disease caused by Yersinia pestis Key to the progression of infection is the activity of the plasminogen activator protease Pla. Deletion of Pla results in a decreased Y. pestis bacterial burden in the lung and failure to progress into the lethal proinflammatory phase of disease. While a number of putative functions have been attributed to Pla, its precise role in the pathogenesis of pneumonic plague is yet to be defined. Here, we show that Pla facilitates type 3 secretion into primary alveolar macrophages but not into the commonly used THP-1 cell line. We also establish human precision-cut lung slices as a platform for modeling early host/pathogen interactions during pneumonic plague and solidify the role of Pla in promoting optimal type 3 secretion using primary human tissue with relevant host cell heterogeneity. These results position Pla as a key player in the early host/pathogen interactions that define pneumonic plague and showcase the utility of human precision-cut lung slices as a platform to evaluate pulmonary infection by bacterial pathogens.
Highlights
Pneumonic plague is the deadliest form of disease caused by Yersinia pestis
Addition of plasminogen activator (Pla) to Y. pestis lacking all five known adhesins partially restores adherence and Yersinia outer proteins (Yops) delivery to macrophages derived from the human monocytic cell line THP-1 and human epithelial type 2 (HEp-2) cells, suggesting that Pla may contribute to adherence and Yop translocation in vitro [24, 25]
The finding that deletion of Pla impairs Y. pestis growth in the lung at 24 hpi suggests that Pla contributes to early host/pathogen interactions during pneumonic plague, the targeting of alveolar macrophages for type 3 secretion (T3S)
Summary
Pneumonic plague is the deadliest form of disease caused by Yersinia pestis. Key to the progression of infection is the activity of the plasminogen activator protease Pla. We establish human precision-cut lung slices as a platform for modeling early host/pathogen interactions during pneumonic plague and solidify the role of Pla in promoting optimal type 3 secretion using primary human tissue with relevant host cell heterogeneity. These results position Pla as a key player in the early host/pathogen interactions that define pneumonic plague and showcase the utility of human precision-cut lung slices as a platform to evaluate pulmonary infection by bacterial pathogens. We show that Pla facilitates optimal type 3 secretion (T3S), primarily into alveolar macrophages, and that its absence results in increased proinflammatory cytokine secretion We confirmed this finding using Y. pestis lacking Pla in a mouse intranasal infection model. This work uses a novel and highly relevant human infection platform to further define the role of a key Yersinia virulence factor that is essential to the progression of primary pneumonic plague
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