Login / Signup

Chronic malaria exposure is associated with inhibitory markers on T cells that correlate with atypical memory and marginal zone-like B cells.

Robert A MitchellItziar UbillosPilar RequenaJoseph J CampoMaria Ome-KaiusSarah HaniehAlexandra UmbersPaula SamolDiana BarriosAlfons JiménezAzucena BardajíIvo MuellerClara MenéndezStephen RogersonCarlota DobañoGemma Moncunill
Published in: Clinical and experimental immunology (2024)
Chronic immune activation from persistent malaria infections can induce immunophenotypic changes associated with T cell exhaustion. However, associations between T and B cells during chronic exposure remain undefined. We analyzed peripheral blood mononuclear cells from malaria-exposed pregnant women from Papua New Guinea and Spanish malaria-naïve individuals using flow cytometry to profile T cell exhaustion markers phenotypically. T cell lineage (CD3, CD4, CD8), inhibitory (PD1, TIM3, LAG3, CTLA4, 2B4) and senescence (CD28-) markers were assessed. Dimensionality reduction methods revealed increased PD1, TIM3, and LAG3 expression in malaria-exposed individuals. Manual gating confirmed significantly higher frequencies of PD1+CD4+ and CD4+, CD8+, and double-negative (DN) T cells expressing TIM3 in malaria-exposed individuals. Increased frequencies of T cells co-expressing multiple markers were also found in malaria-exposed individuals. T cell data were analyzed with B cell populations from a previous study where we reported an alteration of B cell subsets, including increased frequencies of atypical memory B cells (aMBC) and reduction in marginal zone-like (MZ-like) B cells during malaria exposure. Frequencies of aMBC subsets and MZ-like B cells expressing CD95+ had significant positive correlations with CD4+ and DN T cells expressing CD28+PD1+TIM3+ and CD28+TIM3+2B4+CD8+ T cells. Frequencies of aMBC, known to associate with malaria anemia, were inversely correlated with hemoglobin levels in malaria-exposed women. Similarly, inverse correlations with hemoglobin levels were found for TIM3+CD8+ and CD28+PD1+TIM3+CD4+ T cells. Our findings provide further insights into the effects of chronic malaria exposure on circulating B and T cell populations, which could impact immunity and responses to vaccination.
Keyphrases
  • plasmodium falciparum
  • pregnant women
  • nk cells
  • type diabetes
  • chronic kidney disease
  • dna damage
  • poor prognosis
  • endothelial cells
  • oxidative stress
  • big data
  • deep learning
  • pregnancy outcomes
  • breast cancer risk