Abstract
BackgroundPlasmodium ovale is widely distributed across tropical regions and has two closely related but distinct species, namely P. ovale curtisi and P. ovale wallikeri. Combining genetic characterization with the immunogenicity of merozoite surface protein-8 (MSP-8) supports considering MSP-8 as a candidate target for blood-stage vaccines against malaria. However, no previous studies have focused on characterizing the genetic diversity and immunogenicity of PoMSP-8.MethodsBlood samples were collected from 42 patients infected with P. ovale. The patients were migrant workers returning to the Jiangsu Province from Africa; genomic DNA was extracted from their blood samples for sequencing and protein expression. The recombinant PoMSP-8 (rPoMSP-8) proteins were expressed and purified to assess their immune responses in BALB/c mice.ResultsThe sequences of the P. ovale curtisi and P. ovale wallikeri msp8 genes were completely conserved in each isolate. The rPoMSP-8 proteins were successfully expressed and purified as ~70 kDa proteins. Antibodies raised against rPoMSP-8 in mice showed appropriate immunoreactivity, as evidenced by immunoblotting. These specific antibodies were detected at day 7 post-immunization, and their levels increased throughout the whole immunization period. rPoMSP-8-raised antibodies had high endpoint titers (1:5,120,000) and high avidity (PocMSP-8: 94.84%, PowMSP-8: 92.69%). Cross-reactivity between rPocMSP-8 and rPowMSP-8 was observed with each anti-PoMSP8-specific antibody.ConclusionsRemarkable conservation and high immunogenicity was observed in both rPoMSP-8s. Intriguingly, cross-reaction between rPocMSP-8 and rPowMSP-8 was detected, suggesting that a single PoMSP8-based construction might be applicable for both species.
Highlights
Plasmodium ovale is widely distributed across tropical regions and has two closely related but distinct species, namely P. ovale curtisi and P. ovale wallikeri
Mice antibodies against PoMSP‐8 recognized the recombinant proteins To determine whether mice anti-rPoMSP8 antibodies could recognize the rPoMSP-8s, we developed an immunoblot for a specific ~70 kDa band that should be detected for both P. ovale MSP-8 (PoMSP-8)
Cross-reaction between PocMSP-8 and PowMSP-8 was detected by both enzyme-linked immunosorbent assays (ELISA) and western immunoblot analyses. These findings suggested that rPoMSP-8 shares similar and conserved antigenic determinants and that a complex network of cross-reactivity exists between P. ovale sp
Summary
Plasmodium ovale is widely distributed across tropical regions and has two closely related but distinct species, namely P. ovale curtisi and P. ovale wallikeri. Combining genetic characterization with the immunogenicity of merozoite surface protein-8 (MSP-8) supports considering MSP-8 as a candidate target for blood-stage vaccines against malaria. In 2017, an estimated 219 million cases of malaria and 435,000 malaria-caused deaths were reported [2]. One causative agent of human malaria, Plasmodium. Jiangsu Province, located in eastern China, was previously an unstable malaria-transmission area. Zhang et al Parasites Vectors (2019) 12:164 drug administration, indoor residual spraying, and longlasting insecticide nets, malaria has been effectively controlled in the Jiangsu Province [10], and no report of local malaria infection has been issued since 2012 [11]. Between 2014 and 2016, 1068 imported cases of malaria were reported in the Jiangsu Province, and approximately 170 cases of malaria in China imported from Africa were caused by P. ovale [13]
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