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Published online before print July 1, 2008, 10.1110/ps.035923.108
Protein Science (2008), 17:1719-1730. Published by Cold Spring Harbor Laboratory Press. Copyright © 2008 The Protein Society
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Identification of Plasmodium falciparum RhopH3 protein peptides that specifically bind to erythrocytes and inhibit merozoite invasion

Carlos Giovanni Pinzón1, Hernando Curtidor1,2, Claudia Reyes1, David Méndez1, and Manuel Elkin Patarroyo1,3

1 Fundación Instituto de Inmunología de Colombia (FIDIC), Bogotá 020304, Colombia
2 Universidad del Rosario, Bogotá 020304, Colombia
3 Universidad Nacional de Colombia, Bogotá 020304, Colombia

(RECEIVED April 21, 2008; FINAL REVISION May 30, 2008; ACCEPTED June 25, 2008)

The identification of sequences involved in binding to erythrocytes is an important step for understanding the molecular basis of merozoite–erythrocyte interactions that take place during invasion of the Plasmodium falciparum malaria parasite into host cells. Several molecules located in the apical organelles (micronemes, rhoptry, dense granules) of the invasive-stage parasite are essential for erythrocyte recognition, invasion, and establishment of the nascent parasitophorous vacuole. Particularly, it has been demonstrated that rhoptry proteins play an important role in binding to erythrocyte surface receptors, among which is the PfRhopH3 protein, which triggers important immune responses in patients from endemic regions. It has also been reported that anti-RhopH3 antibodies inhibit in vitro invasion of erythrocytes, further supporting its direct involvement in erythrocyte invasion processes. In this study, PfRhopH3 consecutive peptides were synthesized and tested in erythrocyte binding assays for identifying those regions mediating binding to erythrocytes. Fourteen PfRhopH3 peptides presenting high specific binding activity were found, whose bindings were saturable and presented nanomolar dissociation constants. These high-activity binding peptides (HABPs) were characterized by having {alpha}-helical structural elements, as determined by circular dichroism, and having receptors of a possible sialic acid-dependent and/or glycoprotein-dependent nature, as evidenced in enzyme-treated erythrocyte binding assays and further corroborated by cross-linking assay results. Furthermore, these HABPs inhibited merozoite in vitro invasion of normal erythrocytes at 200 µM by up to 60% and 90%, suggesting that some RhopH3 protein regions are involved in the P. falciparum erythrocyte invasion.

Keywords: malaria; Plasmodium falciparum; RhopH3 protein; high-activity binding peptides


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