TY - JOUR
T1 - Plasmodium vivax ligand-receptor interaction: PvAMA-1 domain I contains the minimal regions for specific interaction with CD71+ reticulocytes
AU - Arévalo-Pinzón, Gabriela
AU - Bermúdez, Maritza
AU - Hernández, Diana
AU - Curtidor, Hernando
AU - Patarroyo, Manuel Alfonso
N1 - Funding Information:
We are grateful to Prof. Asif Mohmmed and Prof. Chetan E. Chitnis from the International Centre for Genetic Engineering and Biotechnology (New Delhi, India) for providing pRE4 and pHVDR22 plasmids, Prof. Brigitte Vulliez-Le Normand from the Institut Pasteur (Paris, France) for providing the F8.12.19 monoclonal antibody, Dr. Bernardo Camacho and Dr. Ana María Perdomo from Bogotá’s District Blood Centre (Colombia) for providing umbilical cord blood samples and Dr. Carlos Fernando Suárez from FIDIC (Bogotá, Colombia) for his help depicting peptide and polymorphism location on the PvAMA-1 3D structure. We would also like to thank Jason Garry for translating this manuscript. This research was financed by the Colombian Science, Technology and Innovation Department (COLCIENCIAS) through contract RC#0309-2013. DH was financed via COLCIENCIAS cooperation agreement # 0289-2014 during the course of this research. MB was financed by the project “Formación de talento humano de alto nivel” approved by the “Fondo de Ciencia Tecnología e Innovación” (CTeI) from the “Sistema General de Regalias” (SGR)-BPIN 2013000100103, Gobernación del Tolima, Colombia. The sponsors had no role in study design or data collection, analysis and/or interpretation.
Publisher Copyright:
© 2017 The Author(s).
Copyright:
Copyright 2017 Elsevier B.V., All rights reserved.
PY - 2017/12/1
Y1 - 2017/12/1
N2 - The malarial parasite's invasion is complex, active and coordinated, involving many low and high affinity interactions with receptors on target cell membrane. Proteomics analysis has described around 40 proteins in P. vivax which could be involved in reticulocyte invasion; few have been studied with the aim of elucidating how many of them establish specific interactions with their respective host cells. Given the importance of knowing which of the parasite's protein regions are functionally important for invasion, minimum regions mediating specific interaction between Plasmodium vivax apical membrane antigen 1 (PvAMA-1) and its host cell were here elucidated. The region covering PvAMA-1 domains I and II (PvAMA-DI-II) specifically bound to the CD71+ red blood cell subpopulation. A 20 residue-long region (81EVENAKYRIPAGRCPVFGKG100) located in domain I was capable of inhibiting PvAMA-DI-II recombinant protein binding to young reticulocytes (CD71+CD45-) and rosette formation. This conserved peptide specifically interacted with high affinity with reticulocytes (CD71+) through a neuraminidase-and chymotrypsin-treatment sensitive receptor. Such results showed that, despite AMA-1 having universal functions during late Plasmodium invasion stages, PvAMA-1 had reticulocyte-preferring binding regions, suggesting that P. vivax target cell selection is not just restricted to initial interactions but maintained throughout the erythrocyte invasion cycle, having important implications for designing a specific anti-P. vivax vaccine.
AB - The malarial parasite's invasion is complex, active and coordinated, involving many low and high affinity interactions with receptors on target cell membrane. Proteomics analysis has described around 40 proteins in P. vivax which could be involved in reticulocyte invasion; few have been studied with the aim of elucidating how many of them establish specific interactions with their respective host cells. Given the importance of knowing which of the parasite's protein regions are functionally important for invasion, minimum regions mediating specific interaction between Plasmodium vivax apical membrane antigen 1 (PvAMA-1) and its host cell were here elucidated. The region covering PvAMA-1 domains I and II (PvAMA-DI-II) specifically bound to the CD71+ red blood cell subpopulation. A 20 residue-long region (81EVENAKYRIPAGRCPVFGKG100) located in domain I was capable of inhibiting PvAMA-DI-II recombinant protein binding to young reticulocytes (CD71+CD45-) and rosette formation. This conserved peptide specifically interacted with high affinity with reticulocytes (CD71+) through a neuraminidase-and chymotrypsin-treatment sensitive receptor. Such results showed that, despite AMA-1 having universal functions during late Plasmodium invasion stages, PvAMA-1 had reticulocyte-preferring binding regions, suggesting that P. vivax target cell selection is not just restricted to initial interactions but maintained throughout the erythrocyte invasion cycle, having important implications for designing a specific anti-P. vivax vaccine.
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U2 - 10.1038/s41598-017-10025-6
DO - 10.1038/s41598-017-10025-6
M3 - Research Article
C2 - 28855657
AN - SCOPUS:85028550296
SN - 2045-2322
VL - 7
JO - Scientific Reports
JF - Scientific Reports
IS - 1
M1 - 9616
ER -