Limited genetic diversity in the global Plasmodium vivax Cell traversal protein of Ookinetes and Sporozoites (CelTOS) sequences; implications for PvCelTOS-based vaccine development

摘要

Cell traversal protein of Ookinetes and Sporozoites (CelTOS) is a new malaria vaccine candidate antigen. Since one of the main challenges in malaria vaccine development is the extensive antigenic diversity of this parasite, local and global gene diversity analysis is of particular importance. Therefore, in this study, the genetic diversity of pvceltos gene was investigated among Iranian P. vivax isolates (n = 46) and compared with available worldwide pvceltos sequences. One synonymous (C109A) and three amino acid replacements (V118L, K178T, and G179R) were observed in Iranian pvceltos sequences in compare with Sal-1 sequence leading to five haplotypes including PvCelt-A (GSVKGL, 13%), PvCelt-B (GSLKGL, 50%), PvCelt-C (GSLTGL, 17.4%), PvCelt-D (GSVTGL, 13%) and PvCelt-E (GSLTRL, 6.5%). However, amino acid replacements were observed in six positions (G10S, S40N, V118L/M, K178T, G179R/D and L181R) in PvCelTOS antigen of global isolates leading to 11 distinct haplotypes. PvCelt-A and PvCelt-B haplotypes were the most common haplotypes in the world. The overall nucleotide diversity for Iranian isolates was 0.00169, while, the level of nucleotide diversity was ranged from 0.00252 for Thailand to 0.00022 for Peru populations in the world. The analysis of SNPs in relation with the predicted immunodominant regions revealed that only K178T and G179R SNPs are located in putative B-cell epitopes. All replacements were located in CD4+ and/or CD8+ T-cell epitopes. However, the majority of epitopes are located in conserved regions. Knowing whether these changes may alter the affinity of the epitopes for antibodies and/or MHC molecules remains to be investigated in experimental studies. In conclusion, the present study showed a very limited genetic diversity in pvceltos gene among the global clinical isolates that can be regarded as a potential candidate antigen to apply for vivax-based malaria vaccine development. (C) 2017 Elsevier B.V. All rights reserved.