Abstract
Over 30 million women living in P. falciparum endemic areas are at risk of developing malaria during pregnancy every year. Placental malaria is characterized by massive accumulation of infected erythrocytes in the intervillous space of the placenta, accompanied by infiltration of immune cells, particularly monocytes. The consequent local inflammation and the obstruction of the maternofetal exchanges can lead to severe clinical outcomes for both mother and child. Even if protection against the disease can gradually be acquired following successive pregnancies, the malaria parasite has developed a large panel of evasion mechanisms to escape from host defense mechanisms and manipulate the immune system to its advantage. Infected erythrocytes isolated from placentas of women suffering from placental malaria present a unique phenotype and express the pregnancy-specific variant VAR2CSA of the Plasmodium falciparum Erythrocyte Membrane Protein (PfEMP1) family at their surface. The polymorphic VAR2CSA protein is able to mediate the interaction of infected erythrocytes with a variety of host cells including placental syncytiotrophoblasts and leukocytes but also with components of the immune system such as non-specific IgM. This review summarizes the described VAR2CSA-mediated host defense evasion mechanisms employed by the parasite during placental malaria to ensure its survival and persistence.
Highlights
Half the world’s population, implicating 90 countries, lives in areas at risk of malaria transmission
The pregnancy-specific variant of the Plasmodium falciparum erythrocyte membrane protein 1 family (PfEMP1) VAR2CSA has been identified as the sole parasite-derived protein interacting with placental chondroitin sulfate A (CSA) [23,24,25,26,27,28]
This review focuses on the roles played by VAR2CSA in placental malaria (PM) pathogenesis and introduces the latest information on its involvement in host defense evasion mechanisms ranging from cytoadhesion in the placenta, modulation of the placental microenvironment to escape of pregnancy-specific infected erythrocytes (IEs) from recognition by protective antibodies
Summary
Half the world’s population, implicating 90 countries, lives in areas at risk of malaria transmission. Several transcriptomic and proteomic studies revealed that parasitized red blood cells isolated from P. falciparum-infected pregnant women display specific signatures, over-expressing a variety of different genes [11,12,13] and proteins [14,15,16] as compared to non-pregnancy-specific parasites.
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