Genetic polymorphism and natural selection of Duffy binding protein of Plasmodium vivaxMyanmar isolates

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Plasmodium vivax Duffy binding protein (PvDBP) plays an essential role in erythrocyte invasion and a potential asexual blood stage vaccine candidate antigen against P. vivax . The polymorphic nature of PvDBP, particularly amino terminal cysteine-rich region (PvDBPII), represents a major impediment to the successful design of a protective vaccine against vivax malaria. In this study, the genetic polymorphism and natural selection at PvDBPII among Myanmar P. vivax isolates were analysed. Methods Fifty-four P. vivax infected blood samples collected from patients in Myanmar were used. The region flanking PvDBPII was amplified by PCR, cloned into Escherichia coli , and sequenced. The polymorphic characters and natural selection of the region were analysed using the DnaSP and MEGA4 programs. Results Thirty-two point mutations (28 non-synonymous and four synonymous mutations) were identified in PvDBPII among the Myanmar P. vivax isolates. Sequence analyses revealed that 12 different PvDBPII haplotypes were identified in Myanmar P. vivax isolates and that the region has evolved under positive natural selection. High selective pressure preferentially acted on regions identified as B- and T-cell epitopes of PvDBPII. Recombination may also be played a role in the resulting genetic diversity of PvDBPII. Conclusions PvDBPII of Myanmar P. vivax isolates displays a high level of genetic polymorphism and is under selective pressure. Myanmar P. vivax isolates share distinct types of PvDBPII alleles that are different from those of other geographical areas. These results will be useful for understanding the nature of the P. vivax population in Myanmar and for development of PvDBPII-based vaccine.
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01 janvier 2012

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Juet al.Malaria Journal2012,11:60 http://www.malariajournal.com/content/11/1/60
R E S E A R C HOpen Access Genetic polymorphism and natural selection of Duffy binding protein ofPlasmodium vivax Myanmar isolates 112 34 51 HyeLim Ju, JungMi Kang, SungUng Moon , JungYeon Kim , HyeongWoo Lee , Khin Lin , WoonMok Sohn , 6 7*1* JinSoo Lee , TongSoo Kimand ByoungKuk Na
Abstract Background:Plasmodium vivaxDuffy binding protein (PvDBP) plays an essential role in erythrocyte invasion and a potential asexual blood stage vaccine candidate antigen againstP. vivax. The polymorphic nature of PvDBP, particularly amino terminal cysteinerich region (PvDBPII), represents a major impediment to the successful design of a protective vaccine against vivax malaria. In this study, the genetic polymorphism and natural selection at PvDBPII among MyanmarP. vivaxisolates were analysed. Methods:FiftyfourP. vivaxinfected blood samples collected from patients in Myanmar were used. The region flanking PvDBPII was amplified by PCR, cloned intoEscherichia coli, and sequenced. The polymorphic characters and natural selection of the region were analysed using the DnaSP and MEGA4 programs. Results:Thirtytwo point mutations (28 nonsynonymous and four synonymous mutations) were identified in PvDBPII among the MyanmarP. vivaxisolates. Sequence analyses revealed that 12 different PvDBPII haplotypes were identified in MyanmarP. vivaxisolates and that the region has evolved under positive natural selection. High selective pressure preferentially acted on regions identified as B and Tcell epitopes of PvDBPII. Recombination may also be played a role in the resulting genetic diversity of PvDBPII. Conclusions:PvDBPII of MyanmarP. vivaxisolates displays a high level of genetic polymorphism and is under selective pressure. MyanmarP. vivaxisolates share distinct types of PvDBPII alleles that are different from those of other geographical areas. These results will be useful for understanding the nature of theP. vivaxpopulation in Myanmar and for development of PvDBPIIbased vaccine. Keywords:Plasmodium vivax, Duffy binding protein, Myanmar
Background Plasmodium vivaxDuffy binding protein (PvDBP) is one of the erythrocytebinding proteins, which belongs to the large erythrocyte binding protein family [1]. PvDBP is expressed on the merozoite ofP. vivaxand plays an essential role in erythrocyte invasion of the parasite by mediating irreversible binding with its corresponding receptor, the duffy antigen receptor for chemokines
* Correspondence: tongsookim@inha.ac.kr; bkna@gnu.ac.kr Contributed equally 1 Department of Parasitology and Institute of Health Sciences, Gyeongsang National University School of Medicine, Jinju 660751, Korea 7 Department of Parasitology and Inha Research Institute for Medical Sciences, Inha University School of Medicine, Incheon 400712, Korea Full list of author information is available at the end of the article
(DARC), on the surface of erythrocytes [14]. Similar to other plasmodial proteins known to participate in such processes, PvDBP is suggested to be an important vac cine candidate antigen, because it elicits strong immune responses in humans [5,6]. Experimental evidences that antibodies against PvDBP inhibit the interaction of this protein with DARCin vitroand block the invasion of P. vivaxinto human erythrocytes also support the notion that this protein is a potential asexual blood stage vaccine candidate antigen againstP. vivax[79]. PvDBP is divided into seven regions (regions IVII), and the amino terminal cysteinerich region, region II (PvDBPII), contains the central binding motifs necessary for adherence to DARC [1012]. Critical binding motifs
© 2012 Ju et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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