Abstract
All Yersinia species target and bind to phagocytic cells, but uptake and destruction of bacteria are prevented by injection of anti-phagocytic Yop proteins into the host cell. Here we provide evidence that CD8+ T cells, which canonically eliminate intracellular pathogens, are important for restricting Yersinia, even though bacteria are primarily found in an extracellular locale during the course of disease. In a model of infection with attenuated Y. pseudotuberculosis, mice deficient for CD8+ T cells were more susceptible to infection than immunocompetent mice. Although exposure to attenuated Y. pseudotuberculosis generated TH1-type antibody responses and conferred protection against challenge with fully virulent bacteria, depletion of CD8+ T cells during challenge severely compromised protective immunity. Strikingly, mice lacking the T cell effector molecule perforin also succumbed to Y. pseudotuberculosis infection. Given that the function of perforin is to kill antigen-presenting cells, we reasoned that cell death marks bacteria-associated host cells for internalization by neighboring phagocytes, thus allowing ingestion and clearance of the attached bacteria. Supportive of this model, cytolytic T cell killing of Y. pseudotuberculosis–associated host cells results in engulfment by neighboring phagocytes of both bacteria and target cells, bypassing anti-phagocytosis. Our findings are consistent with a novel function for cell-mediated immune responses protecting against extracellular pathogens like Yersinia: perforin and CD8+ T cells are critical for hosts to overcome the anti-phagocytic action of Yops.
Highlights
Three Yersinia species cause disease in humans: Y. pestis, Y. pseudotuberculosis, and Y. enterocolitica [1]
Yersinia binds to specialized immune cells called macrophages, which attempt to engulf and destroy the bacteria
We present data consistent with the model that CD8+ T cells can restrict extracellular bacteria by showing that T cells target host cells with extracellularly attached Yersinia, allowing the host cells and associated bacteria to be engulfed and removed by neighboring macrophages
Summary
Three Yersinia species cause disease in humans: Y. pestis, Y. pseudotuberculosis, and Y. enterocolitica [1]. The importance of Yop-induced inhibition of phagocytosis is supported by two lines of evidence: 1) Yop-deficient Yersinia species fail to cause disease [20,21,22,23], and 2) histological studies demonstrate that Yersinia localize to the extracellular space of infected tissues [24,25,26]. This anti-phagocytosis phenotype can be reproduced during Yersinia association with tissue culture cells [27]. The combined action of adhesins and Yops synergize to localize Yersinia in a discrete niche as extracellularly attached bacteria [29]
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