Plasmodium falciparum msp3 exists in a complex on the merozoite surface and generates antibody response during natural infection
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ABSTRACT
Plasmodium falciparum merozoite surface protein 3 (MSP3) is an abundantly expressed secreted merozoite surface protein and a leading malaria vaccine candidate antigen. However, it is unclear how MSP3 is retained on the surface of merozoites without a GPI anchor or a transmembrane domain. In the present study, we identified an MSP3 associated network on the Plasmodium merozoite surface by Immunoprecipitation of Plasmodium merozoite lysate using anti-MSP3N antibodies followed by mass spectrometry analysis. The results suggested the association of MSP3 with other merozoite surface proteins; MSP1, MSP6, MSP7, RAP2 and SERA5. Protein-protein interaction studies by ELISA binding and SPR analysis showed that MSP3 complex consists of MSP1, MSP6 and MSP7 proteins, Immunological characterization of MSP3 revealed that MSP3N is strongly recognized by hyper immune sera from African and Asian populations. Furthermore, we demonstrate that human antibodies affinity-purified against rMSP3N promote opsonic phagocytosis of merozoites in cooperation with monocytes. At non-physiological concentrations, anti-MSP3N antibodies inhibited the growth of P. falciparum in-vitro. Together the data suggests that MSP3 and especially its N-terminal region containing known B/T-cell epitopes is a target of naturally acquired immunity against malaria and is also an important candidate for a multi-subunit malaria vaccine.
ABSTRACT
Plasmodium falciparum merozoite surface protein 3 (MSP3) is an abundantly expressed secreted merozoite surface protein and a leading malaria vaccine candidate antigen. However, it is unclear how MSP3 is retained on the surface of merozoites without a GPI anchor or a transmembrane domain. In the present study, we identified an MSP3 associated network on the Plasmodium merozoite surface by Immunoprecipitation of Plasmodium merozoite lysate using anti-MSP3N antibodies followed by mass spectrometry analysis. The results suggested the association of MSP3 with other merozoite surface proteins; MSP1, MSP6, MSP7, RAP2 and SERA5. Protein-protein interaction studies by ELISA binding and SPR analysis showed that MSP3 complex consists of MSP1, MSP6 and MSP7 proteins, Immunological characterization of MSP3 revealed that MSP3N is strongly recognized by hyper immune sera from African and Asian populations. Furthermore, we demonstrate that human antibodies affinity-purified against rMSP3N promote opsonic phagocytosis of merozoites in cooperation with monocytes. At non-physiological concentrations, anti-MSP3N antibodies inhibited the growth of P. falciparum in-vitro. Together the data suggests that MSP3 and especially its N-terminal region containing known B/T-cell epitopes is a target of naturally acquired immunity against malaria and is also an important candidate for a multi-subunit malaria vaccine.
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