Abstract
Autophagy has been shown to contribute to defense against intracellular bacteria and parasites. In comparison, the ability of such pathogens to manipulate host cell autophagy to their advantage has not been examined. Here we present evidence that infection by Toxoplasma gondii, an intracellular protozoan parasite, induces host cell autophagy in both HeLa cells and primary fibroblasts, via a mechanism dependent on host Atg5 but independent of host mammalian target of rapamycin suppression. Infection led to the conversion of LC3 to the autophagosome-associated form LC3-II, to the accumulation of LC3-containing vesicles near the parasitophorous vacuole, and to the relocalization toward the vacuole of structures labeled by the phosphatidylinositol 3-phosphate indicator YFP-2xFYVE. The autophagy regulator beclin 1 was concentrated in the vicinity of the parasitophorous vacuole in infected cells. Inhibitor studies indicated that parasite-induced autophagy is dependent on calcium signaling and on abscisic acid. At physiologically relevant amino acid levels, parasite growth became defective in Atg5-deficient cells, indicating a role for host cell autophagy in parasite recovery of host cell nutrients. A flow cytometric analysis of cell size as a function of parasite content revealed that autophagy-dependent parasite growth correlates with autophagy-dependent consumption of host cell mass that is dependent on parasite progression. These findings indicate a new role for autophagy as a pathway by which parasites may effectively compete with the host cell for limiting anabolic resources.
Highlights
On the other hand, autophagy can serve to maintain cellular homeostasis by facilitating the removal of damaged or deleterious elements, such as misfolded protein aggregates [3]
An important example of the latter function is the role of autophagy in restricting the growth of intracellular pathogens, including both free bacteria that have escaped into host cytosol, such as group A Streptococcus, and pathogens, such as Mycobacterium tuberculosis, that reside in parasitophorous vacuoles in macrophages [4, 5]
We provide evidence that T. gondii induces host cell autophagy by a mechanism dependent on calcium but independent of mTOR and that it exploits the nutritive function of host autophagy to enhance its proliferation
Summary
Autophagy can serve to maintain cellular homeostasis by facilitating the removal of damaged or deleterious elements, such as misfolded protein aggregates [3]. In macrophages infected with Toxoplasma gondii, fusion of the parasitophorous vacuole with lysosomes can be induced in an autophagy-dependent manner when host cell anti-parasitic function is activated via CD40 [6].
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