B. Vulliez-Le Normand scite author profile

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.

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Crystal Structure of the Malaria Vaccine Candidate Apical Membrane Antigen 1

Pizarro

Normand

Chesne-Seck

et al. 2005

Science

178

207

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Apical membrane antigen 1 from Plasmodium is a leading malaria vaccine candidate. The protein is essential for host-cell invasion, but its molecular function is unknown. The crystal structure of the three domains comprising the ectoplasmic region of the antigen from P. vivax, solved at 1.8 angstrom resolution, shows that domains I and II belong to the PAN motif, which defines a superfamily of protein folds implicated in receptor binding. We also mapped the epitope of an invasion-inhibitory monoclonal antibody specific for the P. falciparum ortholog and modeled this to the structure. The location of the epitope and current knowledge on structure-function correlations for PAN domains together suggest a receptor-binding role during invasion in which domain II plays a critical part. These results are likely to aid vaccine and drug design.

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Structural and Functional Studies of FkpA from Escherichia coli, a cis/trans Peptidyl-prolyl Isomerase with Chaperone Activity

Saul

Arié

Normand

et al. 2004

Journal of Molecular Biology

121

149

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Characterization of Functional Oligosaccharide Mimics of the Shigella flexneri Serotype 2a O-Antigen: Implications for the Development of a Chemically Defined Glycoconjugate Vaccine

et al. 2006

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Protection against reinfection with noncapsulated Gram-negative bacteria, such as Shigella, an enteroinvasive bacterium responsible for bacillary dysentery, is mainly achieved by Abs specific for the O-Ag, the polysaccharide part of the LPS, the major bacterial surface Ag. The use of chemically defined glycoconjugates encompassing oligosaccharides mimicking the protective determinants carried by the O-Ag, thus expected to induce an efficient anti-LPS Ab response, has been considered an alternative to detoxified LPS-protein conjugate vaccines. The aim of this study was to identify such functional oligosaccharide mimics of the S. flexneri serotype 2a O-Ag. Using protective murine mAbs specific for S. flexneri serotype 2a and synthetic oligosaccharides designed to analyze the contribution of each sugar residue of the branched pentasaccharide repeating unit of the O-Ag, we demonstrated that the O-Ag exhibited an immunodominant serotype-specific determinant. We also showed that elongating the oligosaccharide sequence improved Ab recognition. From these antigenicity data, selected synthetic oligosaccharides were assessed for their potential to mimic the O-Ag by analyzing their immunogenicity in mice when coupled to tetanus toxoid via single point attachment. Our results demonstrated that induction of an efficient serotype 2a-specific anti-O-Ag Ab response was dependent on the length of the oligosaccharide sequence. A pentadecasaccharide representing three biological repeating units was identified as a potential candidate for further development of a chemically defined glycoconjugate vaccine against S. flexneri 2a infection.

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Structural comparison of apical membrane antigen 1 orthologues and paralogues in apicomplexan parasites

Chesne-Seck

Pizarro

Normand

et al. 2005

Molecular and Biochemical Parasitology

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Structures of synthetic O-antigen fragments from serotype 2aShigella flexneriin complex with a protective monoclonal antibody

Normand

Saul

Phalipon

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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The anti-LPS IgG mAb F22-4, raised against Shigella flexneri serotype 2a bacteria, protects against homologous, but not heterologous, challenge in an experimental animal model. We report the crystal structures of complexes formed between Fab F22-4 and two synthetic oligosaccharides, a decasaccharide and a pentadecasaccharide that were previously shown to be both immunogenic and antigenic mimics of the S. flexneri serotype 2a O-antigen. F22-4 binds to an epitope contained within two consecutive 2a serotype pentasaccharide repeat units (RU). Six sugar residues from a contiguous nine-residue segment make direct contacts with the antibody, including the nonreducing rhamnose and both branching glucosyl residues from the two RUs. The glucosyl residue, whose position of attachment to the tetrasaccharide backbone of the RU defines the serotype 2a O-antigen, is critical for recognition by F22-4. Although the complete decasaccharide is visible in the electron density maps, the last four pentadecasaccharide residues from the reducing end, which do not contact the antibody, could not be traced. Although considerable mobility in the free oligosaccharides can thus be expected, the conformational similarity between the individual RUs, both within and between the two complexes, suggests that short-range transient ordering to a helical conformation might occur in solution. Although the observed epitope includes the terminal nonreducing residue, binding to internal epitopes within the polysaccharide chain is not precluded. Our results have implications for vaccine development because they suggest that a minimum of two RUs of synthetic serotype 2a oligosaccharide is required for optimal mimicry of O-Ag epitopes.antibody complex ͉ carbohydrate ͉ crystal structure ͉ polyliposaccharide ͉ shigellosis S higellosis (1), or bacillary dysentery, causes significant morbidity and mortality worldwide, particularly among young children (2). The disease arises from colonization and subsequent destruction of the colonic mucosa by the Gram-negative enteroinvasive bacteria Shigella. Immune protection induced by natural infection derives from antibodies directed against the bacterial surface antigen lipopolysaccharide (LPS) (3). Moreover, protection shows a serotype specificity that is determined by the repeat unit (RU) structure of the O-antigen (O-Ag), the polysaccharide moiety of LPS (4). In the species Shigella flexneri, which is responsible for endemic infections in developing countries, the serotype is defined by glucosyl and O-acetyl modifications added to the basic tri-rhamnose-N-acetyl-glucosamine tetrasaccharide (designated ABCD) of the O-Ag backbone (5). (Serotype 6 is an exception.) Of the 14 S. flexneri serotypes identified to date, the 2a serotype is the most prevalent in developing countries (2). The serotype 2a RU is characterized by a branching glucose (residue E) linked to the third rhamnose (residue C) to form the motif AB(E)CD (Fig. 1).The induction of protective immunity by natural infection with Shigella suggests that an effe...

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Cross-reactivity Studies of an Anti-Plasmodium vivax Apical Membrane Antigen 1 Monoclonal Antibody: Binding and Structural Characterisation

Igonet

Normand

Faure

et al. 2007

Journal of Molecular Biology

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Comparative structural studies of two natural isoforms of ammodytoxin, phospholipases A2 from Vipera ammodytes ammodytes which differ in neurotoxicity and anticoagulant activity☆

Saul

Prijatelj-Žnidaršič

Normand

et al. 2010

Journal of Structural Biology

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