4.8 Article

The direct binding of Plasmodium vivax AMA1 to erythrocytes defines a RON2-independent invasion pathway

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NATL ACAD SCIENCES
DOI: 10.1073/pnas.2215003120

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Plasmodium vivax; transgenic parasites; apical membrane antigen

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This study used a transgenic parasite to investigate the invasion process mediated by PvAMA1. The findings showed that PfRON2 had no effect on the invasion of transgenic parasites expressing PvAMA1, while PvRON2p blocked the invasion of PvAMA1 transgenic parasites. Additionally, the study revealed that PvAMA1 directly interacts with erythrocytes during invasion, and the invasion blocking by PvRON2p may be due to its interference with PvAMA1 binding to erythrocytes.
We used a transgenic parasite in which Plasmodium falciparum parasites were genetically modified to express Plasmodium vivax apical membrane antigen 1 (PvAMA1) protein in place of PfAMA1 to study PvAMA1-mediated invasion. In P. falciparum, AMA1 interaction with rhoptry neck protein 2 (RON2) is known to be crucial for invasion, and PfRON2 peptides (PfRON2p) blocked the invasion of PfAMA1 wild-type parasites. However, PfRON2p has no effect on the invasion of transgenic parasites expressing PvAMA1 indicating that PfRON2 had no role in the invasion of PvAMA1 transgenic parasites. Interestingly, PvRON2p blocked the invasion of PvAMA1 transgenic parasites in a dose-dependent manner. We found that recombinant PvAMA1 domains 1 and 2 (rPvAMA1) bound to reticulocytes and normocytes indicating that PvAMA1 directly interacts with erythrocytes during the invasion, and invasion blocking of PvRON2p may result from it interfering with PvAMA1 binding to erythrocytes. It was previously shown that the peptide containing Loop1a of PvAMA1 (PvAMA1 Loop1a) is also bound to reticulocytes. We found that the Loop1a peptide blocked the binding of PvAMA1 to erythrocytes. PvAMA1 Loop1a has no polymorphisms in contrast to other PvAMA1 loops and may be an attractive vaccine target. We thus present the evidence that PvAMA1 binds to erythrocytes in addition to interacting with PvRON2 suggesting that the P. vivax merozoites may exploit complex pathways during the invasion process.

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