Toxoplasma induced cytokine release syndrome is critically dependent on the expression of pore-forming Perforin-Like Protein-1.

Acute virulence in Toxoplasma gondii is linked to an excessive proinflammatory cytokine cascade during laboratory murine infection. Previous work showed that T. gondii secretes a pore forming protein, PLP1, that is required for efficient cytolytic egress from host cells. Deletion of the PLP1 gene results in defective egress from infected culture cells and a marked reduction in parasite virulence. The goal of the present study was to gain insight into the nature of the attenuated virulence observed in PLP1 knockout compared to wild type (WT) RH parasites. Using in vivo bioluminescence imaging, we show that parasites lacking PLP1 establish an acute infection and disseminate throughout the infected mice. Histological tissue analysis indicates that parasites cause severe pathology, even in the absence of PLP1. However, mice infected with Δplp1 parasites evoke a protective inflammatory response, demonstrated by mouse survival and control of infection. Flow cytometric analysis was used to determine cellular changes occurring during both WT and Δplp1 parasite infection. Parasite control in the Δplp1 infection was associated with earlier activation of myeloid cells and a moderate neutrophil response that, by comparison, becomes the dominant infiltrating cell type of WT infection. Positive disease outcome during Δplp1 parasite infection is also associated with regulated induction of proinflammatory cytokines, including IFN-γ and TNF-α, and an earlier IL-10 regulatory response that is dysregulated during WT infection. Together these findings suggest a key role for Toxoplasma PLP1 in promoting a lethal inflammatory immune response during acute infection with a virulent strain of the parasite.