Frontiers in Cellular and Infection Microbiology (Oct 2022)

Kinetics of monocyte subpopulations during experimental cerebral malaria and its resolution in a model of late chloroquine treatment

  • Jade Royo,
  • Aissata Camara,
  • Aissata Camara,
  • Benedicte Bertrand,
  • Philippe Batigne,
  • Agnes Coste,
  • Bernard Pipy,
  • Agnes Aubouy,
  • the NeuroCM Group,
  • Dissou Affolabi,
  • Jules Alao,
  • Daniel Ajzenberg,
  • Linda Ayédadjou,
  • Gwladys Bertin,
  • Bibiane Biokou,
  • Farid Boumédiène,
  • Josselin Brisset,
  • Michel Cot,
  • Jean-Eudes Degbelo,
  • Philippe Deloron,
  • Ida Dossou-Dagba,
  • Latifou Dramane,
  • Jean François Faucher,
  • Sandrine Houzé,
  • Sayeh Jafari-Guemouri,
  • Claire Kamaliddin,
  • Elisée Kinkpé,
  • Anaïs Labrunie,
  • Yélé Ladipo,
  • Thomas Lathiere,
  • Achille Massougbodji,
  • Audrey Mowendabeka,
  • Jade Papin,
  • Pierre-Marie Preux,
  • Marie Raymondeau,
  • Darius Sossou,
  • Brigitte Techer,
  • Bertin Vianou,
  • Laurence Watier

DOI
https://doi.org/10.3389/fcimb.2022.952993
Journal volume & issue
Vol. 12

Abstract

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Cerebral malaria (CM) is one of the most severe forms of malaria and is a neuropathology that can lead to death. Monocytes have been shown to accumulate in the brain microvasculature at the onset of neurological symptoms during CM. Monocytes have a remarkable ability to adapt their function to their microenvironment from pro-inflammatory to resolving activities. This study aimed to describe the behavior of monocyte subpopulations during infection and its resolution. C57BL/6 mice were infected with the Plasmodium berghei ANKA strain and treated or not with chloroquine (CQ) on the first day of the onset of neurological symptoms (day 6) for 4 days and followed until day 12 to mimic neuroinflammation and its resolution during experimental CM. Ly6C monocyte subpopulations were identified by flow cytometry of cells from the spleen, peripheral blood, and brain and then quantified and characterized at different time points. In the brain, the Ly6Cint and Ly6Clow monocytes were associated with neuroinflammation, while Ly6Chi and Ly6Cint were mobilized from the peripheral blood to the brain for resolution. During neuroinflammation, CD36 and CD163 were both involved via splenic monocytes, whereas our results suggest that the low CD36 expression in the brain during the neuroinflammation phase was due to degradation. The resolution phase was characterized by increased expressions of CD36 and CD163 in blood Ly6Clow monocytes, a higher expression of CD36 in the microglia, and restored high expression levels of CD163 in Ly6Chi monocytes localized in the brain. Thus, our results suggest that increasing the expressions of CD36 and CD163 specifically in the brain during the neuroinflammatory phase contributes to its resolution.

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