부산대학교 도서관

Subverting the host immune response to inhibit inflammation is a key virulence strategy of Yersinia pestis. The inflammatory cascade is tightly controlled via the sequential action of lipid and protein mediators of inflammation. Because delayed inflammation is essential for Y. pestis to cause lethal infection, defining the Y. pestis mechanisms to manipulate the inflammatory cascade is necessary to understand this pathogen's virulence. While previous studies have established that Y. pestis actively inhibits the expression of host proteins that mediate inflammation, there is currently a gap in our understanding of the inflammatory lipid mediator response during plague. Here we used the murine model to define the kinetics of the synthesis of leukotriene B4 (LTB4), a pro-inflammatory lipid chemoattractant and immune cell activator, within the lungs during pneumonic plague. Furthermore, we demonstrated that exogenous administration of LTB4 prior to infection limited bacterial proliferation, suggesting that the absence of LTB4 synthesis during plague contributes to Y. pestis immune evasion. Using primary leukocytes from mice and humans further revealed that Y. pestis actively inhibits the synthesis of LTB4. Finally, using Y. pestis mutants in the Ysc type 3 secretion system (T3SS) and Yersinia outer protein (Yop) effectors, we demonstrate that leukocytes recognize the T3SS to initiate the rapid synthesis of LTB4. However, several Yop effectors secreted through the T3SS effectively inhibit this host response. Together, these data demonstrate that Y. pestis actively inhibits the synthesis of the inflammatory lipid LTB4 contributing to the delay in the inflammatory cascade required for rapid recruitment of leukocytes to sites of infection. Author summary: Yersinia pestis targets the host's innate immune response to inhibit inflammation. Because the generation of a non-inflammatory environment is required for infection, defining the mechanisms used by Y. pestis to block inflammation is key to understanding its virulence. Lipid mediators are potent signaling molecules required for timely initiation of host inflammation. While previous studies have demonstrated that Y. pestis inhibits inflammation, there is a gap in our understanding of the inflammatory lipid mediator response during plague. Here we show that Y. pestis inhibits the production of one of these critical lipid mediators, leukotriene B4, by host immune cells. Furthermore, we identify both the signals that induce LTB4 production by leukocytes and the mechanisms used by Y. pestis to inhibit this process. Together, these data represent the first comprehensive analysis of inflammatory lipids produced during pneumonic plague and improve our current understanding of how Y. pestis manipulates the host immune response to generate a permissive non-inflammatory environment required to colonize the mammalian host. [ABSTRACT FROM AUTHOR]