Abstract
The human malaria parasite Plasmodium falciparum relies on lipids to survive; this makes its lipid metabolism an attractive drug target. The lipid phosphatidylserine (PS) is usually confined to the inner leaflet of the red blood cell membrane (RBC) bilayer; however, some studies suggest that infection with the intracellular parasite results in the presence of this lipid in the RBC membrane outer leaflet, where it could act as a recognition signal to phagocytes. Here, we used fluorescent lipid analogues and probes to investigate the enzymatic reactions responsible for maintaining asymmetry between membrane leaflets, and found that in parasitised RBCs the maintenance of membrane asymmetry was partly disrupted, and PS was increased in the outer leaflet. We examined the underlying causes for the differences between uninfected and infected RBCs using fluorescent dyes and probes, and found that calcium levels increased in the infected RBC cytoplasm, whereas membrane cholesterol was depleted from the erythrocyte plasma membrane. We explored the resulting effect of PS exposure on enhanced phagocytosis by monocytes, and show that infected RBCs must expend energy to limit phagocyte recognition, and provide experimental evidence that PS exposure contributes to phagocytic recognition of P. falciparum-infected RBCs. Together, these findings underscore the pivotal role for PS exposure on the surface of Plasmodium falciparum-infected erythrocytes for in vivo interactions with the host immune system, and provide a rationale for targeted antimalarial drug design.
Highlights
Malaria is a devastating infectious disease, caused by blood infection with Plasmodium parasites [1,2]
To examine the influence of CD36-mediated PfEMP1 binding on phagocytosis, we examined red blood cells (RBCs) infected with the P. falciparum strain CS2, which expresses VAR2CSA, a PfEMP1 variant which binds to chondroitin sulfate A (CSA) instead of CD36 [79]
We present a series of interconnected relationships between Plasmodium falciparum parasites and their host RBCs
Summary
Malaria is a devastating infectious disease, caused by blood infection with Plasmodium parasites [1,2]. During the asexual phase of their lifecycle, Plasmodium parasites invade and develop inside red blood cells (RBCs). The parasite exports proteins which allow the host RBC to cytoadhere to the vascular endothelium. This prevents the infected RBC from circulating through the spleen, where it would otherwise be vulnerable to immune clearance [5,6]. The parasite induces changes to the permeability of its host cell to enhance the uptake of nutrients, though this may leave the parasite vulnerable to other consequences of altered solute permeability [7]
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