Immunoprofiling of the Tryptophan-Rich Antigen Family in Plasmodium vivax

Wang, Bo; Lu, Feng; Cheng, Yang; Chen, Jun-Hu; Jeon, Hye‐Yoon; Ha, Kwon‐Soo; Cao, Jun; Nyunt, Myat Htut; Han, Jin‐Hee; Lee, Seong-Kyun; Kyaw, Myat Phone; Sattabongkot, Jetsumon; Takashima, Eizo; Tsuboi, Takafumi; Han, Eun‐Taek

doi:10.1128/iai.03067-14

Cited by 27 publications

(30 citation statements)

References 38 publications

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“…The discrepancy in overall NI values for ape versus human P. vivax strains indicates that MK tests are likely to produce different results depending on which P. vivax strains are used. For the chimpanzee P. vivax strains, only two genes yielded significant results after correction for multiple testing ( P < 0.05), both with NI <1 indicating a significant excess of fixed, potentially adaptive, nonsynonymous differences: one was found to be orthologous to PVP01_1201800, which is an immunogenic member of the tryptophan-rich antigen family of P. vivax ( 27 , 28 ), and the other (orthologous to PVP01_1406200) encodes a conserved Plasmodium protein of unknown function. For the human P. vivax strains, five genes yielded significant MK test results, but all with NI >1, indicating an excess of nonsynonymous polymorphisms ( Dataset S1 ).…”

Section: Resultsmentioning

confidence: 99%

Evolutionary history of humanPlasmodium vivaxrevealed by genome-wide analyses of related ape parasites

Loy

Plenderleith

Sundararaman

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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SignificanceChimpanzees, bonobos, and gorillas harbor close relatives of human Plasmodium vivax, but current knowledge of these parasites is limited to a small number of gene fragments derived almost exclusively from mitochondrial DNA. We compared nearly full-length genomes of ape parasites with a global sample of human P. vivax and tested the function of human and ape P. vivax proteins believed to be important for erythrocyte binding. The results showed that ape parasites are 10-fold more diverse than human P. vivax and exhibit no evidence of species specificity, whereas human P. vivax represents a bottlenecked lineage that emerged from within this parasite group. Thus, African apes represent a large P. vivax reservoir whose impact on human malaria eradication requires careful monitoring.

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Section: Resultsmentioning

confidence: 99%

Evolutionary history of humanPlasmodium vivaxrevealed by genome-wide analyses of related ape parasites

Loy

Plenderleith

Sundararaman

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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“…Similarly, antibodies to anti- P . vivax tryptophan-rich antigen persisted stably for 5 to 12 years in Chinese residents who lived in low malaria-endemic areas [ 25 ]. Recently, P .…”

Section: Discussionmentioning

confidence: 99%

Naturally-Acquired Immune Response against Plasmodium vivax Rhoptry-Associated Membrane Antigen

et al. 2016

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Rhoptry-associated membrane antigen (RAMA) is an abundant glycophosphatidylinositol (GPI)-anchored protein that is embedded within the lipid bilayer and is implicated in parasite invasion. Antibody responses against rhoptry proteins are produced by individuals living in a malaria-endemic area, suggesting the immunogenicity of Plasmodium vivax RAMA (PvRAMA) for induction of immune responses during P. vivax infection. To determine whether PvRAMA contributes to the acquisition of immunity to malaria and could be a rational candidate for a vaccine, the presence of memory T cells and the stability of the antibody response against PvRAMA were evaluated in P. vivax-exposed individuals. The immunogenicity of PvRAMA for the induction of T cell responses was evaluated by in vitro stimulation of peripheral blood mononuclear cells (PBMCs). High levels of interferon (IFN)-γ and interleukin (IL)-10 cytokines were detected in the culture supernatant of PBMCs, and the CD4+ T cells predominantly produced IL-10 cytokine. The levels of total anti-PvRAMA immunoglobulin G (IgG) antibody were significantly elevated, and these antibodies persisted over the 12 months of the study. Interestingly, IgG1, IgG2 and IgG3 were the major antibody subtypes in the response to PvRAMA. The frequency of IgG3 in specific to PvRAMA antigen maintained over 12 months. These data could explain the immunogenicity of PvRAMA antigen in induction of both cell-mediated and antibody-mediated immunity in natural P. vivax infection, in which IFN-γ helps antibody class switching toward the IgG1, IgG2 and IgG3 isotypes and IL-10 supports PvRAMA-specific antibody production.

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“…The study revealed a very high seropositivity rate amongst the P. vivax patients, indicating that the antigen generates significant humoral immune response . Alternatively, a recent study revealed mean seropositive rate of 60.3% for 36 recombinantly expressed PvTRAgs when antibody responses were measured in the sera from 96 vivax malaria patients and 40 healthy individuals using protein microarray technology . These factors need to be exploited further to test its value as a serodiagnostic marker for vivax malaria.…”

Section: Resultsmentioning

confidence: 99%

Identification of Highly Expressed Plasmodium Vivax Proteins from Clinical Isolates Using Proteomics

Venkatesh

Lahiri

Reddy

et al. 2017

Proteomics Clinical Apps

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Plasmodium vivax is the most geographically widespread species responsible for malaria in humans. Our study focused on identifying highly expressed parasite proteins using a shotgun proteomics approach. Parasites (P. vivax) are isolated from seven patient samples using saponin lysis. Protein extracts from these parasites are processed and subjected to LC-MS/MS analysis. An overall proteome coverage of 605 P. vivax proteins along with 1670 human host proteins are obtained upon combining the data from LC-MS/MS runs. While a major proportion of the P. vivax proteins are either hypothetical or involved in basic cellular activities, few proteins such as tryptophan-rich antigen (Pv-fam-a; PVX_090265), Pv-fam-d protein (PVX_101520), Plasmodium exported protein (PVX_003545), Pvstp1 (PVX_094303) and hypothetical protein (PVX_083555) are detected in more than 80% of the clinical isolates and found to be unique to P. vivax without orthologs in P. falciparum. Our proteomics study on individual parasite isolates reveals highly expressed P. vivax proteins, few of which may be good candidates for vivax malaria diagnosis due to their abundance and absence in P. falciparum. This study represents the first step towards the identification of biomarkers for P. vivax malaria. In future, their clinical diagnostic values must be explored and validated on large patient cohorts.

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Immunoprofiling of the Tryptophan-Rich Antigen Family in Plasmodium vivax

Cited by 27 publications

References 38 publications

Evolutionary history of humanPlasmodium vivaxrevealed by genome-wide analyses of related ape parasites

Evolutionary history of humanPlasmodium vivaxrevealed by genome-wide analyses of related ape parasites

Naturally-Acquired Immune Response against Plasmodium vivax Rhoptry-Associated Membrane Antigen

Identification of Highly Expressed Plasmodium Vivax Proteins from Clinical Isolates Using Proteomics

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