Structural and Functional Insights into the Malaria Parasite Moving Junction Complex

Overview

Journal PLoS Pathog

Specialty Microbiology

Date 2012 Jun 28

PMID 22737069

Citations 77

Authors

Brigitte Vulliez-Le Normand

Michelle L Tonkin

Mauld H Lamarque

Susann Langer

Sylviane Hoos

Magali Roques

Frederick A Saul

Bart W Faber

Graham A Bentley

Martin J Boulanger

Maryse Lebrun

Affiliations

Soon will be listed here.

Abstract

Members of the phylum Apicomplexa, which include the malaria parasite Plasmodium, share many features in their invasion mechanism in spite of their diverse host cell specificities and life cycle characteristics. The formation of a moving junction (MJ) between the membranes of the invading apicomplexan parasite and the host cell is common to these intracellular pathogens. The MJ contains two key parasite components: the surface protein Apical Membrane Antigen 1 (AMA1) and its receptor, the Rhoptry Neck Protein (RON) complex, which is targeted to the host cell membrane during invasion. In particular, RON2, a transmembrane component of the RON complex, interacts directly with AMA1. Here, we report the crystal structure of AMA1 from Plasmodium falciparum in complex with a peptide derived from the extracellular region of PfRON2, highlighting clear specificities of the P. falciparum RON2-AMA1 interaction. The receptor-binding site of PfAMA1 comprises the hydrophobic groove and a region that becomes exposed by displacement of the flexible Domain II loop. Mutations of key contact residues of PfRON2 and PfAMA1 abrogate binding between the recombinant proteins. Although PfRON2 contacts some polymorphic residues, binding studies with PfAMA1 from different strains show that these have little effect on affinity. Moreover, we demonstrate that the PfRON2 peptide inhibits erythrocyte invasion by P. falciparum merozoites and that this strong inhibitory potency is not affected by AMA1 polymorphisms. In parallel, we have determined the crystal structure of PfAMA1 in complex with the invasion-inhibitory peptide R1 derived by phage display, revealing an unexpected structural mimicry of the PfRON2 peptide. These results identify the key residues governing the interactions between AMA1 and RON2 in P. falciparum and suggest novel approaches to antimalarial therapeutics.

Citing Articles

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Conformational variability in the D2 loop of Apical Membrane antigen 1.

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Plasmodium RON11 triggers biogenesis of the merozoite rhoptry pair and is essential for erythrocyte invasion.

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A broadly cross-reactive i-body to AMA1 potently inhibits blood and liver stages of Plasmodium parasites.

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AMA1 and CSP antigen diversity in parasite isolates from southern Ghana.

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