Population Genetic Analysis of the Plasmodium Falciparum Erythrocyte Binding Antigen-175 (EBA-175) Gene in Equatorial Guinea
Abstract Background: Plasmodium falciparum erythrocyte binding antigen-175 (PfEBA-175) is a candidate antigen for a blood-stage malaria vaccine, while various polymorphisms in the PfEBA-175 gene among global P. falciparum populations have prevented the development of effective vaccines based on this gene. At the same time, the dimorphism of the F- and C-fragments associated with high endemic of severe malaria has been described. This study aimed to investigate the dimorphism of PfEBA-175 on both the Bioko island and continent of Equatorial Guinea, as well as the genetic polymorphism and natural selection of global PfEBA-175.Methods: A total of 218 blood samples were collected from patients with P. falciparum malaria on Bioko Island and Bata district in 2018 and 2019. The allelic dimorphism of PfEBA-175 region II was investigated by nested polymerase chain reaction and sequencing. Polymorphic characteristics and the effect of natural selection were analyzed using MEGA 7.0, DnaSP 6.0 and PopART programs. Genetic diversity in 312 global PfEBA-175 region II sequences was also analyzed. Protein function prediction of new amino acid mutation sites was performed using PolyPhen-2 and Foldx program.Results: Allelic dimorphism of PfEBA-175 was identified in the study area, and the frequency of the F-fragment was higher than that of the C-fragment in both Bioko Island and Bata district populations. Additionally, single infections (87.80%) were more frequent than mixed infections (12.20%). A total of 49 monoclonal PfEBA-175 region II sequences of Bioko Island and Bata district were sequenced successfully. PfEBA-175 of Bioko Island and Bata district isolates showed a high degree of genetic variability and heterogeneity, with π values of 0.00407 & 0.00411 and Hd values of 0.958 & 0.976 for nucleotide diversity, respectively. The values of Tajima's D of PfEBA-175 on Bata district and Bioko Island were 0.56395 and -0.27018, respectively. Globally, PfEBA-175 isolates from Asia were more diverse than those from Africa and South America, and genetic differentiation quantified by the fixation index between Asian and South American countries populations was significant (Fst>0.15, P<0.05). A total of 312 global isolates clustered in 92 haplotypes, and only one cluster contained isolates from three continents. The mutations A34T, K109E, D278Y, K301N, L305V and D329N were predicted as probably damaging by PolyPhen-2. Among them, mutations A34T, K301N and L305V led to significant increases in the free energy difference (ΔΔG>1), indicating destabilization of the protein structure.Conclusions: This study proved the dimorphism of PfEBA-175, and also demonstrated that the F-fragment was remarkably predominant in the study area. The distribution patterns and genetic diversity of PfEBA-175 in Equatorial Guinea isolates were similar to those of isolates worldwide. High levels of recombination events were observed in PfEBA-175 isolates globally, suggesting that natural selection and intragenic recombination might be the main drivers of genetic diversity in global PfEBA-175. These results have important reference value for the development of blood-stage malaria vaccine based on this antigen.