Geographical distribution and genetic diversity of Plasmodium vivax reticulocyte binding protein 1a correlates with patient antigenicity

Author:

Park Ji-HoonORCID,Kim Min-HeeORCID,Sutanto EdwinORCID,Na Seok-WonORCID,Kim Min-Jae,Yeom Joon SupORCID,Nyunt Myat HtutORCID,Abbas Elfaki Mohammed MohieldienORCID,Abdel Hamid Muzamil MahdiORCID,Cha Seok HoORCID,Alemu Sisay Getachew,Sriprawat Kanlaya,Anstey Nicholas M.,Grigg Matthew J.ORCID,Barber Bridget E.,William Timothy,Gao QiORCID,Liu Yaobao,Pearson Richard D.ORCID,Price Ric N.ORCID,Nosten Francois,Yoon Sung-Il,No Joo Hwan,Han Eun-Taek,Auburn SarahORCID,Russell Bruce,Han Jin-HeeORCID

Abstract

Plasmodium vivax is the most widespread cause of human malaria. Recent reports of drug resistant vivax malaria and the challenge of eradicating the dormant liver forms increase the importance of vaccine development against this relapsing disease. P. vivax reticulocyte binding protein 1a (PvRBP1a) is a potential vaccine candidate, which is involved in red cell tropism, a crucial step in the merozoite invasion of host reticulocytes. As part of the initial evaluation of the PvRBP1a vaccine candidate, we investigated its genetic diversity and antigenicity using geographically diverse clinical isolates. We analysed pvrbp1a genetic polymorphisms using 202 vivax clinical isolates from six countries. Pvrbp1a was separated into six regions based on specific domain features, sequence conserved/polymorphic regions, and the reticulocyte binding like (RBL) domains. In the fragmented gene sequence analysis, PvRBP1a region II (RII) and RIII (head and tail structure homolog, 152–625 aa.) showed extensive polymorphism caused by random point mutations. The haplotype network of these polymorphic regions was classified into three clusters that converged to independent populations. Antigenicity screening was performed using recombinant proteins PvRBP1a-N (157–560 aa.) and PvRBP1a-C (606–962 aa.), which contained head and tail structure region and sequence conserved region, respectively. Sensitivity against PvRBP1a-N (46.7%) was higher than PvRBP1a-C (17.8%). PvRBP1a-N was reported as a reticulocyte binding domain and this study identified a linear epitope with moderate antigenicity, thus an attractive domain for merozoite invasion-blocking vaccine development. However, our study highlights that a global PvRBP1a-based vaccine design needs to overcome several difficulties due to three distinct genotypes and low antigenicity levels.

Funder

Kangwon National University

National Research Foundation of Korea

Marsden Fund

Australian National Health and Medical Research Council

Wellcome Trust

Publisher

Public Library of Science (PLoS)

Subject

Infectious Diseases,Public Health, Environmental and Occupational Health

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