Karolis Bauza scite author profile

Identification of correlates of protection for infectious diseases including malaria is a major challenge and has become one of the main obstacles in developing effective vaccines. We investigated protection against liver-stage malaria conferred by vaccination with adenoviral and Modified Vaccinia Ankara (MVA) vectors expressing pre-erythrocytic malaria antigens. By classifying CD8+ T cells into effector (TE), effector/memory (TEM) and central memory (TCM) subsets using CD62L and CD127 markers, we found striking differences in T cell memory generation. While MVA induced accelerated TCM generation, which could be efficiently boosted by subsequent adenoviral administration, it failed to protect against malaria. In contrast, adenoviral (Ad) vectors, which permit persistent antigen delivery, elicit a prolonged TE and TEM response that requires long intervals for an efficient boost. A preferential TEM phenotype was maintained in liver, blood and spleen following Ad/MVA prime-boost regimens and animals were protected against malaria sporozoite challenge. Blood CD8+ TEM cells correlated with protection against malaria liver-stage infection, assessed by estimation of number of parasites emerging from the liver into the blood. The protective ability of antigen-specific TEM cells was confirmed by transfer experiments into naive recipient mice. Thus, we identify persistent CD8 TEM populations as essential for vaccine-induced pre-erythrocytic protection against malaria, a finding that has important implications for logical vaccine design.

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Identification of Targets of CD8+ T Cell Responses to Malaria Liver Stages by Genome-wide Epitope Profiling

Hafalla

et al. 2013

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CD8+ T cells mediate immunity against Plasmodium liver stages. However, the paucity of parasite-specific epitopes of CD8+ T cells has limited our current understanding of the mechanisms influencing the generation, maintenance and efficiency of these responses. To identify antigenic epitopes in a stringent murine malaria immunisation model, we performed a systematic profiling of H2b-restricted peptides predicted from genome-wide analysis. We describe the identification of Plasmodium berghei (Pb) sporozoite-specific gene 20 (S20)- and thrombospondin-related adhesive protein (TRAP)-derived peptides, termed PbS20318 and PbTRAP130 respectively, as targets of CD8+ T cells from C57BL/6 mice vaccinated by whole parasite strategies known to protect against sporozoite challenge. While both PbS20318 and PbTRAP130 elicit effector and effector memory phenotypes in both the spleens and livers of immunised mice, only PbTRAP130-specific CD8+ T cells exhibit in vivo cytotoxicity. Moreover, PbTRAP130-specific, but not PbS20318-specific, CD8+ T cells significantly contribute to inhibition of parasite development. Prime/boost vaccination with PbTRAP demonstrates CD8+ T cell-dependent efficacy against sporozoite challenge. We conclude that PbTRAP is an immunodominant antigen during liver-stage infection. Together, our results underscore the presence of CD8+ T cells with divergent potencies against distinct Plasmodium liver-stage epitopes. Our identification of antigen-specific CD8+ T cells will allow interrogation of the development of immune responses against malaria liver stages.

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Rational development of a protective P. vivax vaccine evaluated with transgenic rodent parasite challenge models

Salman

Montoya-Diaz

West

et al. 2017

Sci Rep

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Development of a protective and broadly-acting vaccine against the most widely distributed human malaria parasite, Plasmodium vivax, will be a major step towards malaria elimination. However, a P. vivax vaccine has remained elusive by the scarcity of pre-clinical models to test protective efficacy and support further clinical trials. In this study, we report the development of a highly protective CSP-based P. vivax vaccine, a virus-like particle (VLP) known as Rv21, able to provide 100% sterile protection against a stringent sporozoite challenge in rodent models to malaria, where IgG2a antibodies were associated with protection in absence of detectable PvCSP-specific T cell responses. Additionally, we generated two novel transgenic rodent P. berghei parasite lines, where the P. berghei csp gene coding sequence has been replaced with either full-length P. vivax VK210 or the allelic VK247 csp that additionally express GFP-Luciferase. Efficacy of Rv21 surpassed viral-vectored vaccination using ChAd63 and MVA. We show for the first time that a chimeric VK210/247 antigen can elicit high level cross-protection against parasites expressing either CSP allele, which provide accessible and affordable models suitable to support the development of P. vivax vaccines candidates. Rv21 is progressing to GMP production and has entered a path towards clinical evaluation.

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Karolis Bauza

CD8+ T Effector Memory Cells Protect against Liver-Stage Malaria

Identification of Targets of CD8+ T Cell Responses to Malaria Liver Stages by Genome-wide Epitope Profiling

Rational development of a protective P. vivax vaccine evaluated with transgenic rodent parasite challenge models

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