Literature DB >> 21788485

Binding of Plasmodium merozoite proteins RON2 and AMA1 triggers commitment to invasion.

Prakash Srinivasan1, Wandy L Beatty, Ababacar Diouf, Raul Herrera, Xavier Ambroggio, J Kathleen Moch, Jessica S Tyler, David L Narum, Susan K Pierce, John C Boothroyd, J David Haynes, Louis H Miller.   

Abstract

The commitment of Plasmodium merozoites to invade red blood cells (RBCs) is marked by the formation of a junction between the merozoite and the RBC and the coordinated induction of the parasitophorous vacuole. Despite its importance, the molecular events underlying the parasite's commitment to invasion are not well understood. Here we show that the interaction of two parasite proteins, RON2 and AMA1, known to be critical for invasion, is essential to trigger junction formation. Using antibodies (Abs) that bind near the hydrophobic pocket of AMA1 and AMA1 mutated in the pocket, we identified RON2's binding site on AMA1. Abs specific for the AMA1 pocket blocked junction formation and the induction of the parasitophorous vacuole. We also identified the critical residues in the RON2 peptide (previously shown to bind AMA1) that are required for binding to the AMA1 pocket, namely, two conserved, disulfide-linked cysteines. The RON2 peptide blocked junction formation but, unlike the AMA1-specific Ab, did not block formation of the parasitophorous vacuole, indicating that formation of the junction and parasitophorous vacuole are molecularly distinct steps in the invasion process. Collectively, these results identify the binding of RON2 to the hydrophobic pocket of AMA1 as the step that commits Plasmodium merozoites to RBC invasion and point to RON2 as a potential vaccine candidate.

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Year:  2011        PMID: 21788485      PMCID: PMC3156155          DOI: 10.1073/pnas.1110303108

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  41 in total

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  132 in total

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Review 7.  Host-parasite interactions that guide red blood cell invasion by malaria parasites.

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10.  Identification and Characterization of the Rhoptry Neck Protein 2 in Babesia divergens and B. microti.

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