A chimeric protein-based malaria vaccine candidate induces robust T cell responses against Plasmodium vivax MSP119

Fonseca, Jairo A.; Cabrera-Mora, Mónica; Singh, Balwan; Oliveira-Ferreira, Joseli; Lima-Junior, Josué da Costa; Calvo‐Calle, J. Mauricio; Lozano, José Manuel; Moreno, Alberto

doi:10.1038/srep34527

Cited by 22 publications

(58 citation statements)

References 93 publications

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“…Malaria caused by Plasmodium vivax is relatively common, accounting for 15 million annual clinical cases and leaving 2.5 billion people at risk of infection . The clinical manifestations associated with P. vivax range from uncomplicated febrile illness to severe illness, such as acute kidney injury, acute lung injury, coma and death.…”

Section: Introductionmentioning

confidence: 99%

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Malaria caused by Plasmodium vivax is relatively common, accounting for 15 million annual clinical cases and leaving 2.5 billion people at risk of infection. 1,2 The clinical manifestations associated with P. vivax range from uncomplicated febrile illness to severe illness, such as acute kidney injury, acute lung injury, coma and death. P. vivax is capable of provoking fever at a lower level of parasitaemia, with a pyrogenic density of 180 parasites per μL compared to 1000 parasites per μL for P. falciparum.

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confidence: 99%

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Exposure to Plasmodium vivax is associated with the increased expression of exhaustion markers on γδ T lymphocytes

Gogoi

Biswas

Borkakoty

et al. 2018

Parasite Immunology

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Summary Gamma delta (γδ) T cells exhibit potent anti‐Plasmodium activity but are also implicated in the immunopathology of malaria. It is currently poorly understood how γδ T cells are affected in human suffering from Plasmodium vivax infection or in symptomless individuals living in an endemic region. We examined both the percentages and expression of markers associated with immune exhaustion in γδ T cells in individuals living in a P. vivax endemic region by flow cytometry. The percentage of γδ T cells in the blood was significantly higher both in acute P. vivax‐positive patients and in individuals from an endemic region in comparison with control uninfected adults. The frequency of the expression of the exhaustion markers‐Tim‐3, Lag‐3, CTLA‐4 and PD‐1 was higher in γδ and total T cells from P. vivax‐infected patients than in those populations from control uninfected adults. Individuals from a P. vivax endemic region showed elevated percentages of Tim‐3‐, Lag‐3‐ and CTLA‐4‐positive γδ T cells and an increased percentage of Tim‐3‐positive total T cells. The phenotypic exhaustion of these cells might be a protective mechanism preventing the immunopathology associated with activated T cells and may provide a rationale for targeted manipulation of this process in diseases such as malaria.

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Section: Introductionmentioning

confidence: 99%

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confidence: 99%

Exposure to Plasmodium vivax is associated with the increased expression of exhaustion markers on γδ T lymphocytes

Gogoi

Biswas

Borkakoty

et al. 2018

Parasite Immunology

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“…Many vaccine formulations based on the PvMSP1 19 or PvMSP1 42 sequences have been developed and had their immunogenicity in mice, and sometimes in non-human primates, studied (17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27)(28). In the last years, we developed recombinant proteins based on the sequence of the PvMSP1 19 formulated in different adjuvant systems.…”

Section: Introductionmentioning

confidence: 99%

Protective Immunity in Mice Immunized With P. vivax MSP119-Based Formulations and Challenged With P. berghei Expressing PvMSP119

et al. 2020

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“…Our group has previously designed, cloned, and expressed a chimeric P. vivax MSP1 protein (designated PvRMC-MSP1) for the primary purposes of malaria vaccine studies. This chimeric protein contains an extended version of PvMSP1 19 containing two T helper epitopes present in the PvMSP1 33 fragment of the native protein, ve promiscuous T cell epitopes (capable of binding multiple MHC Class II alleles) arrayed in tandem, and a C-terminal (NANP) 6 a nity tag derived from the central repeat region of the P. falciparum CSP (27). The T cell epitopes in PvRMC-MSP1 represent different regions of PvMSP1 able to bind to several MHC class II alleles, with two epitopes also functioning as B cell epitopes (28).…”

Section: Introductionmentioning

confidence: 99%

“…The T cell epitopes in PvRMC-MSP1 represent different regions of PvMSP1 able to bind to several MHC class II alleles, with two epitopes also functioning as B cell epitopes (28). We have previously reported that PvRMC-MSP1 was recognized by antibodies from individuals living in malaria-endemic areas of Brazil with no indication of genetic restriction based on HLA-DRB1 and HLA-DQB1* allele frequencies (27). Due to the evidence that PvRMC-MSP1 can capture IgG from naturally exposed individuals, we evaluated the ability of PvRMC-MSP1 to induce antibodies that bind to nonvivax-speci c antigenic targets and the ability of PvRMC-MSP1 to capture naturally acquired IgG antibodies from exposed individuals with known infection status from all four human Plasmodium species.…”

Section: Introductionmentioning

confidence: 99%

Natural Infections With Different Plasmodium Species Induce Antibodies Reactive to A Chimeric Plasmodium Vivax Recombinant Protein

McCaffery¹,

Singh²,

Nace³

et al. 2020

Preprint

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Background: As malaria incidence and transmission in a region decreases, it becomes increasingly difficult to identify areas of active transmission. Improved methods for identifying and monitoring foci of active malaria transmission are needed in areas of low parasite prevalence in order to achieve malaria elimination. Serological assays can provide population-level infection history to inform elimination campaigns.Methods: A bead-based multiplex antibody detection assay was used to evaluate a chimeric P. vivax MSP1 protein (PvRMC-MSP1), designed to be broadly immunogenic for use in vaccine studies, to act as a pan-malaria serological tool based on its ability to capture IgG in plasma samples obtained from naturally exposed individuals. Samples from 236 US travelers with PCR confirmed infection status from all four major Plasmodium species infecting humans, P. falciparum, P. vivax, P. malariae, and P. ovale were tested for IgG capture using PvRMC-MSP1 as well as the four recombinant MSP1-19 kD isoforms representative of these Plasmodium species.Results: Regardless of infecting Plasmodium species, a majority of plasma samples from infected US travelers provided a high assay signal to the PvRMC-MSP1 chimeric protein. Most individuals that responded to the PmMSP1 or PoMSP1 antigen also responded to PvRMC-MSP1, with very few individuals responding to PmMSP1 or PoMSP1 antigens alone. When grouped by active infection, we observed that plasma from P. vivax-infected individuals produced increased assay signals in response to the PvRMC-MSP1 chimera as compared to the recombinant PvMSP1 for 89.5% (34/38) of individuals. PvRMC-MSP1 also showed improved ability to capture IgG antibodies from P. falciparum-infected individuals when compared to the capture by recombinant PvMSP1. Conclusions: These results support further study of designed antigens as an approach for increasing sensitivity or broadening binding capacity to improve existing serological tools for determining population-level exposure to Plasmodium species. Including both broad-reacting and Plasmodium species-specific antigen-coated beads in an assay panel could provide a nuanced view of population-level exposure histories, an extensive IgG profile, and detailed seroestimates. A more sensitive serological tool for detection of P. vivax exposure would aid malaria elimination campaigns in co-endemic areas and regions where P. vivax is the dominant parasite.

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A chimeric protein-based malaria vaccine candidate induces robust T cell responses against Plasmodium vivax MSP119

Cited by 22 publications

References 93 publications

Exposure to Plasmodium vivax is associated with the increased expression of exhaustion markers on γδ T lymphocytes

Exposure to Plasmodium vivax is associated with the increased expression of exhaustion markers on γδ T lymphocytes

Protective Immunity in Mice Immunized With P. vivax MSP119-Based Formulations and Challenged With P. berghei Expressing PvMSP119

Natural Infections With Different Plasmodium Species Induce Antibodies Reactive to A Chimeric Plasmodium Vivax Recombinant Protein

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