Toxoplasma gondii induction of interleukin-12 is associated with acute virulence in mice and depends on the host genotype

Abstract

The intracellular parasite Toxoplasma gondii can influence host resistance by modulating immune functions in various cell types. The stimulation of interleukin (IL)-12 production in macrophages, dendritic cells and neutrophils by T. gondii has been implicated to be important for skewing anti-parasite immunity early after infection as well as in mediating the pathologic effects induced by the parasite. The present study demonstrates secretion of IL-12 p40 and the bioactive p70 heterodimer by inflammatory macrophages following exposure to live Toxoplasma or tachyzoite lysate. Parasite induction of IL-12 occurred in a dose-dependent manner. Predigestion of T. gondii lysate with proteinase K abrogated its IL-12 inducing activity, thus indicating that a parasite protein(s) triggers this response. Macrophages from various mouse inbred strains showed a differential responsiveness: cells from T. gondii-susceptible mice released more IL-12 upon toxoplasmic challenge than those from resistant mice, although the infection rate and intracellular parasite growth were similar. In triggering macrophage production of IL-12, tachyzoites proved superior to bradyzoites prepared from the same T. gondii isolate. Furthermore, parasites of a mouse-virulent isolate became less efficient inducers of IL-12 following attenuation. The parallel loss in macrophage stimulation in vitro and acute virulence in vivo suggests a linkage of both parasite capacities. Together with the correlation on host side between the genotype-dependent mouse susceptibility to infection and cellular responsiveness to the parasite trigger, these findings indicate that an overproduction of parasite-induced IL-12 might represent a basic mechanism of T. gondii pathogenicity.