Mapping T cell activation and differentiation at single cell resolution in naive hosts infected with Plasmodium vivax

F. Bach, D. Munoz Sandoval, M. Mazurczyk, Y. Themistocleous, T. A. Rawlinson, A. Kemp, S. E. Silk, J. R. Barrett, N. J. Edwards, A. Ivens, J. C. Rayner, A. M. Minassian, G. Napolitani, S. J. Draper, P. J. Spence, Philip J Spence*

*Corresponding author for this work

Research output: Working paper/PreprintPreprint

Abstract

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. High dimensional protein and RNA-seq data show that P. vivax triggers an acute phase response that shares remarkable overlap with that of P. falciparum, suggesting a hardwired emergency myeloid response that does not discriminate parasite species. We then used cytometry by time of flight to analyse the fate and function of innate-like and adaptive T cells; these data show that P. vivax can activate up to one quarter of the entire T cell compartment. Heterogeneous effector memory-like CD4+ T cells dominate this extraordinary response and phenotypic analysis reveals unexpected features of terminal differentiation that are normally associated with cytotoxicity and autoinflammatory disease. In line with this observation, we found that CD4+ T cell activation coincides with collateral tissue damage and liver injury. Finally, comparative analyses demonstrate that 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 languageUndefined/Unknown
DOIs
Publication statusPublished - 2021

Keywords

  • infectious diseases

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