Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection

Diana Muñoz Sandoval; Florian A. Bach; Alasdair Ivens; Adam C. Harding; Natasha L. Smith; Michalina Mazurczyk; Yrene Themistocleous; Nick J. Edwards; Sarah E. Silk; Jordan R. Barrett; Graeme J.M. Cowan; Giorgio Napolitani; Nicholas Jon Savill; Simon J. Draper; Angela M. Minassian; Wiebke Nahrendorf; Philip J. Spence

doi:10.1084/jem.20241667

Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection

Diana Muñoz Sandoval, Florian A. Bach, Alasdair Ivens, Adam C. Harding, Natasha L. Smith, Michalina Mazurczyk, Yrene Themistocleous, Nick J. Edwards, Sarah E. Silk, Jordan R. Barrett, Graeme J.M. Cowan, Giorgio Napolitani, Nicholas Jon Savill, Simon J. Draper, Angela M. Minassian, Wiebke Nahrendorf^*, Philip J. Spence^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Immunity to severe malaria is acquired quickly, operates independently of pathogen load, and represents a highly effective form of disease tolerance. The mechanism that underpins tolerance remains unknown. We used a human rechallenge model of falciparum malaria in which healthy adult volunteers were infected three times over a 12 mo period to track the development of disease tolerance in real-time. We found that parasitemia triggered a hardwired innate immune response that led to systemic inflammation, pyrexia, and hallmark symptoms of clinical malaria across the first three infections of life. In contrast, a single infection was sufficient to reprogram T cell activation and reduce the number and diversity of effector cells upon rechallenge. Crucially, this did not silence stem-like memory cells but instead prevented the generation of cytotoxic effectors associated with autoinflammatory disease. Tolerized hosts were thus able to prevent collateral tissue damage in the absence of antiparasite immunity.

Original language	English
Article number	e20241667
Number of pages	30
Journal	Journal of Experimental Medicine
Volume	222
Issue number	7
Early online date	11 Apr 2025
DOIs	https://doi.org/10.1084/jem.20241667
Publication status	E-pub ahead of print - 11 Apr 2025

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10.1084/jem.20241667

jem_20241667Final published version, 7.29 MBLicence: Creative Commons: Attribution (CC-BY)

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Muñoz Sandoval, D., Bach, F. A., Ivens, A., Harding, A. C., Smith, N. L., Mazurczyk, M., Themistocleous, Y., Edwards, N. J., Silk, S. E., Barrett, J. R., Cowan, G. J. M., Napolitani, G., Savill, N. J., Draper, S. J., Minassian, A. M., Nahrendorf, W., & Spence, P. J. (2025). Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection. Journal of Experimental Medicine, 222(7), Article e20241667. Advance online publication. https://doi.org/10.1084/jem.20241667

@article{91cca82432e0443584c90f24a6253f57,

title = "Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection",

abstract = "Immunity to severe malaria is acquired quickly, operates independently of pathogen load, and represents a highly effective form of disease tolerance. The mechanism that underpins tolerance remains unknown. We used a human rechallenge model of falciparum malaria in which healthy adult volunteers were infected three times over a 12 mo period to track the development of disease tolerance in real-time. We found that parasitemia triggered a hardwired innate immune response that led to systemic inflammation, pyrexia, and hallmark symptoms of clinical malaria across the first three infections of life. In contrast, a single infection was sufficient to reprogram T cell activation and reduce the number and diversity of effector cells upon rechallenge. Crucially, this did not silence stem-like memory cells but instead prevented the generation of cytotoxic effectors associated with autoinflammatory disease. Tolerized hosts were thus able to prevent collateral tissue damage in the absence of antiparasite immunity.",

author = "{Mu{\~n}oz Sandoval}, Diana and Bach, {Florian A.} and Alasdair Ivens and Harding, {Adam C.} and Smith, {Natasha L.} and Michalina Mazurczyk and Yrene Themistocleous and Edwards, {Nick J.} and Silk, {Sarah E.} and Barrett, {Jordan R.} and Cowan, {Graeme J.M.} and Giorgio Napolitani and Savill, {Nicholas Jon} and Draper, {Simon J.} and Minassian, {Angela M.} and Wiebke Nahrendorf and Spence, {Philip J.}",

note = "We thank Paul Sopp for T cell sorting during the VAC063 trial and Neil Ashley for support with single cell RNA-sequencing. Flow-sorting, 10X Genomics and CyTOF data were generated within the flow cytometry, single cell and mass cytometry facilities at the Weatherall Institute of Molecular Medicine (University of Oxford), which are supported by MRC Human Immunology Unit core funding (MC_UU_00008) and the Oxford Single Cell Biology Consortium (OSCBC). CD4+ T cell subset RNAseq libraries were prepared and sequenced by the Edinburgh Clinical Research Facility at the University of Edinburgh, which receives financial support from NHS Research Scotland (NRS). Whole blood RNAseq libraries were prepared and sequenced by Edinburgh Genomics, which is supported through core grants from NERC (R8/H10/56), MRC UK (MR/K001744/1) and BBSRC (BB/J004243/1). We would like to extend our thanks to the VAC063 and VAC069 clinical and laboratory teams for assistance, and to all of the volunteers who participated in this study. ",

year = "2025",

month = apr,

day = "11",

doi = "10.1084/jem.20241667",

language = "English",

volume = "222",

journal = "Journal of Experimental Medicine",

issn = "0022-1007",

publisher = "Rockefeller University Press",

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}

Muñoz Sandoval, D, Bach, FA, Ivens, A, Harding, AC, Smith, NL, Mazurczyk, M, Themistocleous, Y, Edwards, NJ, Silk, SE, Barrett, JR, Cowan, GJM, Napolitani, G, Savill, NJ, Draper, SJ, Minassian, AM, Nahrendorf, W & Spence, PJ 2025, 'Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection', Journal of Experimental Medicine, vol. 222, no. 7, e20241667. https://doi.org/10.1084/jem.20241667

TY - JOUR

T1 - Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection

AU - Muñoz Sandoval, Diana

AU - Bach, Florian A.

AU - Ivens, Alasdair

AU - Harding, Adam C.

AU - Smith, Natasha L.

AU - Mazurczyk, Michalina

AU - Themistocleous, Yrene

AU - Edwards, Nick J.

AU - Silk, Sarah E.

AU - Barrett, Jordan R.

AU - Cowan, Graeme J.M.

AU - Napolitani, Giorgio

AU - Savill, Nicholas Jon

AU - Draper, Simon J.

AU - Minassian, Angela M.

AU - Nahrendorf, Wiebke

AU - Spence, Philip J.

N1 - We thank Paul Sopp for T cell sorting during the VAC063 trial and Neil Ashley for support with single cell RNA-sequencing. Flow-sorting, 10X Genomics and CyTOF data were generated within the flow cytometry, single cell and mass cytometry facilities at the Weatherall Institute of Molecular Medicine (University of Oxford), which are supported by MRC Human Immunology Unit core funding (MC_UU_00008) and the Oxford Single Cell Biology Consortium (OSCBC). CD4+ T cell subset RNAseq libraries were prepared and sequenced by the Edinburgh Clinical Research Facility at the University of Edinburgh, which receives financial support from NHS Research Scotland (NRS). Whole blood RNAseq libraries were prepared and sequenced by Edinburgh Genomics, which is supported through core grants from NERC (R8/H10/56), MRC UK (MR/K001744/1) and BBSRC (BB/J004243/1). We would like to extend our thanks to the VAC063 and VAC069 clinical and laboratory teams for assistance, and to all of the volunteers who participated in this study.

PY - 2025/4/11

Y1 - 2025/4/11

N2 - Immunity to severe malaria is acquired quickly, operates independently of pathogen load, and represents a highly effective form of disease tolerance. The mechanism that underpins tolerance remains unknown. We used a human rechallenge model of falciparum malaria in which healthy adult volunteers were infected three times over a 12 mo period to track the development of disease tolerance in real-time. We found that parasitemia triggered a hardwired innate immune response that led to systemic inflammation, pyrexia, and hallmark symptoms of clinical malaria across the first three infections of life. In contrast, a single infection was sufficient to reprogram T cell activation and reduce the number and diversity of effector cells upon rechallenge. Crucially, this did not silence stem-like memory cells but instead prevented the generation of cytotoxic effectors associated with autoinflammatory disease. Tolerized hosts were thus able to prevent collateral tissue damage in the absence of antiparasite immunity.

AB - Immunity to severe malaria is acquired quickly, operates independently of pathogen load, and represents a highly effective form of disease tolerance. The mechanism that underpins tolerance remains unknown. We used a human rechallenge model of falciparum malaria in which healthy adult volunteers were infected three times over a 12 mo period to track the development of disease tolerance in real-time. We found that parasitemia triggered a hardwired innate immune response that led to systemic inflammation, pyrexia, and hallmark symptoms of clinical malaria across the first three infections of life. In contrast, a single infection was sufficient to reprogram T cell activation and reduce the number and diversity of effector cells upon rechallenge. Crucially, this did not silence stem-like memory cells but instead prevented the generation of cytotoxic effectors associated with autoinflammatory disease. Tolerized hosts were thus able to prevent collateral tissue damage in the absence of antiparasite immunity.

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UR - https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE275092

UR - https://www.ebi.ac.uk/ena/browser/view/PRJEB71976

UR - http://flowrepository.org/id/FR-FCM-Z47Z

UR - http://flowrepository.org/id/FR-FCM-Z3HA

UR - http://flowrepository.org/id/FR-FCM-Z465

U2 - 10.1084/jem.20241667

DO - 10.1084/jem.20241667

M3 - Article

C2 - 40214640

SN - 0022-1007

VL - 222

JO - Journal of Experimental Medicine

JF - Journal of Experimental Medicine

IS - 7

M1 - e20241667

ER -

Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection

Abstract

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MultiViVax: Development of Effective Vaccines against Multiple Lifecycle Stages of Plasmodium vivax malaria

Wellcome Trust Four-Year PhD Studentship

Wellcome Trust Four-Year PhD Studentship (Mr Florian Bach)

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Plasmodium falciparum induces T cell tolerance that is associated with decreased disease severity upon reinfection

Abstract

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Projects

MultiViVax: Development of Effective Vaccines against Multiple Lifecycle Stages of Plasmodium vivax malaria

Wellcome Trust Four-Year PhD Studentship

Wellcome Trust Four-Year PhD Studentship (Mr Florian Bach)

Cite this