Further characterization of a highly attenuated Yersinia pestis CO92 mutant deleted for the genes encoding Braun lipoprotein and plasminogen activator protease in murine alveolar and primary human macrophages

Autor:	Matthew B. Huante, Eric C. Fitts, Duraisamy Ponnusamy, Christina J. van Lier, Janice J. Endsley, Vladimir L. Motin, Sadhana Chauhan, Jian Sha, Bethany L. Tiner, Ashok K. Chopra
Jazyk:	angličtina
Rok vydání:	2015
Předmět:	Yersinia pestis medicine.medical_treatment Lipoproteins Mutant Vaccines Attenuated Microbiology Article Mice Plasminogen Activators Immune system Macrophages Alveolar medicine Animals Humans Cells Cultured Plague Vaccine Protease Innate immune system Microbial Viability biology Virulence Macrophages biology.organism_classification Immunity Innate Infectious Diseases Plague vaccine Tumor necrosis factor alpha Plasminogen activator Gene Deletion Peptide Hydrolases
Popis:	We recently characterized the Δlpp Δpla double in-frame deletion mutant of Yersinia pestis CO92 molecularly, biologically, and immunologically. While Braun lipoprotein (Lpp) activates toll-like receptor-2 to initiate an inflammatory cascade, plasminogen activator (Pla) protease facilitates bacterial dissemination in the host. The Δlpp Δpla double mutant was highly attenuated in evoking bubonic and pneumonic plague, was rapidly cleared from mouse organs, and generated humoral and cell-mediated immune responses to provide subsequent protection to mice against a lethal challenge dose of wild-type (WT) CO92. Here, we further characterized the Δlpp Δpla double mutant in two murine macrophage cell lines as well as in primary human monocyte-derived macrophages to gauge its potential as a live-attenuated vaccine candidate. We first demonstrated that the Δpla single and the Δlpp Δpla double mutant were unable to survive efficiently in murine and human macrophages, unlike WT CO92. We observed that the levels of Pla and its associated protease activity were not affected in the Δlpp single mutant, and, likewise, deletion of the pla gene from WT CO92 did not alter Lpp levels. Further, our study revealed that both Lpp and Pla contributed to the intracellular survival of WT CO92 via different mechanisms. Importantly, the ability of the Δlpp Δpla double mutant to be phagocytized by macrophages, to stimulate production of tumor necrosis factor-α and interleukin-6, and to activate the nitric oxide killing pathways of the host cells remained unaltered when compared to the WT CO92-infected macrophages. Finally, macrophages infected with either the WT CO92 or the Δlpp Δpla double mutant were equally efficient in their uptake of zymosan particles as determined by flow cytometric analysis. Overall, our data indicated that although the Δlpp Δpla double mutant of Y. pestis CO92 was highly attenuated, it retained the ability to elicit innate and subsequent acquired immune responses in the host similar to that of WT CO92, which are highly desirable in a live-attenuated vaccine candidate.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e34ea23d047057ac575ee3f011fac710 https://europepmc.org/articles/PMC4363157/ Zobrazit plný text záznamu