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Differences in phenotype between long-lived memory B cells against Plasmodium falciparum merozoite antigens and variant surface antigens.

Raphael A ReyesLouise TurnerIsaac SsewanyanaPrasanna JagannathanMargaret E FeeneyThomas LavstsenBryan GreenhouseSebastiaan BolEvelien M Bunnik
Published in: bioRxiv : the preprint server for biology (2024)
Plasmodium falciparum infections elicit strong humoral immune responses to two main groups of antigens expressed by blood-stage parasites: merozoite antigens that are involved in the erythrocyte invasion process and variant surface antigens that mediate endothelial sequestration of infected erythrocytes. Long-lived B cells against both antigen classes can be detected in the circulation for years after exposure, but have not been directly compared. Here, we studied the phenotype of long-lived memory and atypical B cells to merozoite antigens (MSP1 and AMA1) and variant surface antigens (the CIDRα1 domain of PfEMP1) in Ugandan adults before and after local reduction of P. falciparum transmission. After a median of 1.7 years without P. falciparum infections, the percentage of antigen-specific activated B cells declined, but long-lived antigen-specific B cells were still detectable in all individuals. The majority of MSP1/AMA1-specific B cells were CD95 + CD11c + memory B cells, which are primed for rapid differentiation into antibody-secreting cells, and FcRL5 - T-bet - atypical B cells. On the other hand, most CIDRα1-specific B cells were CD95 - CD11c - memory B cells. CIDRα1-specific B cells were also enriched among a subset of atypical B cells that seem poised for antigen presentation. These results point to differences in how these antigens are recognized or processed by the immune system and how P. falciparum -specific B cells will respond upon re-infection.
Keyphrases
  • plasmodium falciparum
  • dendritic cells
  • immune response
  • working memory
  • induced apoptosis
  • cell death
  • cell proliferation
  • signaling pathway
  • endoplasmic reticulum stress
  • cell cycle arrest
  • sensitive detection