Abstract
Liver stage Plasmodium parasites reside in a parasitophorous vacuole (PV) that associates with lysosomes. It has previously been shown that these organelles can have beneficial as well as harmful effects on the parasite. Yet it is not clear how the association of lysosomes with the parasite is controlled and how interactions with these organelles lead to the antagonistic outcomes. In this study we used advanced imaging techniques to characterize lysosomal interactions with the PV. In host cells harboring successfully developing parasites we observed that these interaction events reach an equilibrium at the PV membrane (PVM). In a population of arrested parasites, this equilibrium appeared to shift towards a strongly increased lysosomal fusion with the PVM witnessed by strong PVM labeling with the lysosomal marker protein LAMP1. This was followed by acidification of the PV and elimination of the parasite. To systematically investigate elimination of arrested parasites, we generated transgenic parasites that express the photosensitizer KillerRed, which leads to parasite killing after activation. Our work provides insights in cellular details of intracellular killing and lysosomal elimination of Plasmodium parasites independent of cells of the immune system.
Highlights
Malaria is a life-threatening disease, which is prevalent in more than 90 countries
Lysosomal marker protein lysosome-associated membrane protein 1 (LAMP1) colocalizes with the PV membrane (PVM) and tubovesicular network (TVN) of liver stage parasites
We and others have previously shown that lysosomes/late endosomes (LE) are attracted to intracellular P. berghei liver stage parasites[3,9,17] and that PVM material is shed into the TVN to keep detrimental material away from the vulnerable replicative center of the parasite[7]
Summary
Malaria is a life-threatening disease, which is prevalent in more than 90 countries. The causative agents of malaria are unicellular eukaryotic organisms of the genus Plasmodium. Results Lysosomal marker protein LAMP1 colocalizes with the PVM and TVN of liver stage parasites. We quantified the amount of lysosomes/LE associated with the PVM/TVN at different developmental stages of the P. berghei liver parasite.
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