Abstract
Upon infection, the intracellular parasite Toxoplasma gondii co-opts critical functions of its host cell to avoid immune clearance and gain access to nutritional resources. One route by which Toxoplasma co-opts its host cell is through hijacking host organelles, many of which have roles in immunomodulation. Here we demonstrate that Toxoplasma infection results in increased biogenesis of host lipid droplets through rewiring of multiple components of host neutral lipid metabolism. These metabolic changes cause increased responsiveness of host cells to free fatty acid, leading to a radical increase in the esterification of free fatty acids into triacylglycerol. We identified c-Jun kinase and mammalian target of rapamycin (mTOR) as components of two distinct host signaling pathways that modulate the parasite-induced lipid droplet accumulation. We also found that, unlike many host processes dysregulated during Toxoplasma infection, the induction of lipid droplet generation is conserved not only during infection with genetically diverse Toxoplasma strains but also with Neospora caninum, which is closely related to Toxoplasma but has a restricted host range and uses different effector proteins to alter host signaling. Finally, by showing that a Toxoplasma strain deficient in exporting a specific class of effectors is unable to induce lipid droplet accumulation, we demonstrate that the parasite plays an active role in this process. These results indicate that, despite their different host ranges, Toxoplasma and Neospora use a conserved mechanism to co-opt these host organelles, which suggests that lipid droplets play a critical role at the coccidian host-pathogen interface.
Highlights
Upon infection, the intracellular parasite Toxoplasma gondii co-opts critical functions of its host cell to avoid immune clearance and gain access to nutritional resources
Few Lipid droplets (LDs) were visible without the addition of free fatty acid (FFA), after incubation with oleic acid (OA), parasite-infected cells had significant neutral lipid buildup compared with uninfected cells (Fig. 1)
As we have demonstrated that Neospora infection induces LD accumulation, we asked whether both parasites required similar host pathways to modulate host neutral lipid metabolism
Summary
Dept. of Pharmacology, University of Texas Southwestern Medical Center, 6001 Forest Park Rd., Dallas, TX 75390-9041. We demonstrate that Toxoplasma infection radically alters its host cell metabolism, changing how the cells respond to and process fatty acids. These changes result in buildup of neutral lipids in LDs, some of which appear to be captured by the PV. We demonstrate that this metabolic dysregulation requires secretion of parasite effectors, revealing host LDs as a previously unknown platform for coccidian parasite interaction with their hosts.
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