Structural diversity, natural selection and intragenic recombination in the Plasmodium vivax merozoite surface protein 9 locus in Thailand.

The merozoite surface protein 9 (MSP9) of malarial parasite forms co-ligand complex with the 19 kDa fragment of merozoite surface protein 1 (MSP1) prior to erythrocyte invasion. Interruption of this process could hamper subsequent asexual erythrocytic development of malaria parasites; therefore, these proteins are considered potential vaccine candidates. In Plasmodium vivax, MSP9 (PvMSP9) contains both conserved and polymorphic repetitive domains that were immunogenic upon natural malaria exposure and conferred protection in vaccination studies in animal models. To investigate the extent of sequence diversity at this locus, 104 P. vivax isolates from 4 major malaria endemic areas of Thailand were analyzed. Results revealed that pvmsp9 contained 3 repeat domains (R1-R3) flanked by conserved domains. Repeat domains exhibit extensive sequence and length variation, in which 14, 39 and 16 haplotypes for domains R1-R3, respectively, circulated in this country. Sequence diversity in pvmsp9 among P. vivax isolates from each endemic area displayed population structure. The extent of sequence diversity in pvmsp9 isolates from the provinces of Tak, Chanthaburi, Ubon Ratchathani and Prachuap Khiri Khan in northwestern, eastern, northeastern and southwestern areas, respectively, was almost comparable and was remarkably higher than that from Yala/Narathiwat population in southern Thailand. Evidence for intragenic recombination in this locus was observed within each P. vivax population except among isolates from Yala and Narathiwat. Synonymous nucleotide diversity significantly exceeded nonsynonymous nucleotide diversity in domains R2 and R3, indicating purifying selection. However, micro-scale signatures of positive and negative selections occurred in both conserved and repeat domains, implying two opposing forces, probably from functional or structural constraint and host immune pressure, could have influenced diversity at this locus. The immunodominant T and B cell epitopes so far identified were invariant or highly conserved across isolates. Further analysis of global isolates is warranted for vaccine design based on this protein.

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