A systematic analysis of the human immune response to Plasmodium vivax

Florian A. Bach*, Diana Munoz Sandoval, Michalina Mazurczyk, Yrene Themistocleous, Thomas A. Rawlinson, Adam C. Harding, Alison Kemp, Sarah E. Silk, Jordan R. Barrett, Nick J. Edwards, Alasdair C. Ivens, Julian C. Rayner, Angela M. Minassian, Giorgio Napolitani, Simon J. Draper, Philip J Spence*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

BACKGROUND. The biology of Plasmodium vivax is markedly different to that of P. falciparum; how this shapes the immune response to infection remains unclear. To address this shortfall, we inoculated human volunteers with a clonal field isolate of P. vivax and tracked their response through infection and convalescence.

METHODS. Participants were injected intravenously with blood-stage parasites and infection dynamics were tracked in real-time by quantitative PCR. Whole blood samples were used for high dimensional protein analysis, RNA-sequencing and Cytometry by Time Of Flight (CyTOF), and temporal changes in the host response to P. vivax were quantified by linear regression. Comparative analyses with P. falciparum were then undertaken using analogous datasets derived from prior controlled human malaria infection studies.

RESULTS.P. vivax rapidly induced a type I inflammatory response that coincided with hallmark features of clinical malaria. This acute phase response shared remarkable overlap with that induced by P. falciparum but was significantly elevated (at RNA and protein level) leading to an increased incidence of pyrexia. In contrast, T cell activation and terminal differentiation was significantly increased in volunteers infected with P. falciparum. Heterogeneous CD4+ T cells were found to dominate this adaptive response and phenotypic analysis revealed unexpected features normally associated with cytotoxicity and autoinflammatory disease.

CONCLUSION.P. vivax triggers increased systemic interferon signaling (cf P. falciparum), which likely explains its reduced pyrogenic threshold. In contrast, P. falciparum drives T cell activation far in excess of P. vivax, which may partially explain why falciparum malaria more frequently causes severe disease.
Original languageEnglish
Article numbere152463
JournalJournal of Clinical Investigation
Issue number20
Early online date24 Aug 2023
Publication statusPublished - 16 Oct 2023


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