Kripa Gopal Madnani scite author profile

Summary Variant surface antigens play an important role in the pathogenesis of Plasmodium falciparum malaria. To date, intensive work has mainly focused on the role in parasite virulence of the P. falciparum Erythrocyte Membrane Protein 1 (PfEMP1) encoded by the var multigene family. Two other multigene families coding for STEVOR and RIFIN have recently also been shown to be expressed in the invasive merozoite as well as on the surface of the infected erythrocyte, implicating them as potential parasite virulence factors. Here we report that STEVOR is an erythrocyte-binding protein recognizing Glycophorin C on the red blood cell (RBC) surface. STEVOR expression on the RBC leads to PfEMP1-independent rosette formation, while antibodies targeting STEVOR in the merozoite can effectively inhibit invasion. Our results suggest a novel role of STEVOR in enabling infected erythrocytes at the schizont stage to bind uninfected erythrocytes to form rosettes, thereby protecting released merozoites from immune detection.

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Three Is a Crowd – New Insights into Rosetting in Plasmodium falciparum

Yam

Niang

Madnani

et al. 2017

Trends in Parasitology

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Expression dynamics and physiologically relevant functional study of STEVOR in asexual stages ofPlasmodium falciparuminfection

Singh

Madnani

Lim

et al. 2017

Cellular Microbiology

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The extensive modification of Plasmodium falciparum-infected erythrocytes by variant surface antigens plays a major role in immune evasion and malaria-induced pathology. Here, using high-resolution microscopy, we visualize the spatio-temporal expression dynamics of STEVOR, an important variant surface antigens family, in a stage-dependent manner. We demonstrate that it is exported to the cell surface where protein molecules cluster and preferentially localize in proximity to knobs. Quantitative evidence from our force measurements and microfluidic assays reveal that STEVOR can effectively mediate the formation of stable, robust rosettes under static and physiologically relevant flow conditions. Our results extend previously published studies in P. falciparum and emphasize the role of STEVOR in rosetting, an important contributor to disease pathology.

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Functional significance of the STEVOR multigene family of plasmodium falciparum

Madnani¹

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