PLoS Pathogens (Nov 2021)

Skeleton binding protein-1-mediated parasite sequestration inhibits spontaneous resolution of malaria-associated acute respiratory distress syndrome.

  • Hendrik Possemiers,
  • Thao-Thy Pham,
  • Marion Coens,
  • Emilie Pollenus,
  • Sofie Knoops,
  • Sam Noppen,
  • Leen Vandermosten,
  • Sigrid D'haese,
  • Luna Dillemans,
  • Fran Prenen,
  • Dominique Schols,
  • Blandine Franke-Fayard,
  • Philippe E Van den Steen

DOI
https://doi.org/10.1371/journal.ppat.1010114
Journal volume & issue
Vol. 17, no. 11
p. e1010114

Abstract

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Malaria is a hazardous disease caused by Plasmodium parasites and often results in lethal complications, including malaria-associated acute respiratory distress syndrome (MA-ARDS). Parasite sequestration in the microvasculature is often observed, but its role in malaria pathogenesis and complications is still incompletely understood. We used skeleton binding protein-1 (SBP-1) KO parasites to study the role of sequestration in experimental MA-ARDS. The sequestration-deficiency of these SBP-1 KO parasites was confirmed with bioluminescence imaging and by measuring parasite accumulation in the lungs with RT-qPCR. The SBP-1 KO parasites induced similar lung pathology in the early stage of experimental MA-ARDS compared to wildtype (WT) parasites. Strikingly, the lung pathology resolved subsequently in more than 60% of the SBP-1 KO infected mice, resulting in prolonged survival despite the continuous presence of the parasite. This spontaneous disease resolution was associated with decreased inflammatory cytokine expression measured by RT-qPCR and lower expression of cytotoxic markers in pathogenic CD8+ T cells in the lungs of SBP-1 KO infected mice. These data suggest that SBP-1-mediated parasite sequestration and subsequent high parasite load are not essential for the development of experimental MA-ARDS but inhibit the resolution of the disease.