The ability of serum antibody to protect against pathogens arises from the interplay of antigen-specific B cell clones of different affinities and fine specificities. These cellular dynamics are ultimately responsible for serum-level phenomena such as antibody imprinting or “Original Antigenic Sin” (OAS), a proposed propensity of the immune system to rely repeatedly on the first cohort of B cells that responded to a stimulus upon exposure to related antigens. Imprinting/OAS is thought to pose a barrier to vaccination against rapidly evolving viruses such as influenza and SARS-CoV-2. Precise measurement of the extent to which imprinting/OAS inhibits the recruitment of new B cell clones by boosting is challenging because cellular and temporal origins cannot readily be assigned to antibodies in circulation. Thus, the extent to which imprinting/OAS impacts the induction of new responses in various settings remains unclear. To address this, we developed a “molecular fate-mapping” approach in which serum antibodies derived from specific cohorts of B cells can be differentially detected. We show that, upon sequential homologous boosting, the serum antibody response strongly favors reuse of the first cohort of B cell clones over the recruitment of new, naÏve-derived B cells. This “primary addiction” decreases as a function of antigenic distance, allowing secondary immunization with divergent influenza virus or SARS-CoV-2 glycoproteins to overcome imprinting/OAS by targeting novel epitopes absent from the priming variant. Our findings have implications for the understanding of imprinting/OAS, and for the design and testing of vaccines aimed at eliciting antibodies to evolving antigens.This study was funded by NIH/NIAID grants R01AI119006 and R01AI139117 to Gabriel Victora. Work in the Victora laboratory is additionally supported by NIH grant DP1AI144248 (Pioneer award) and the Robertson Foundation. Ariën Schiepers was supported by a Boehringer-Ingelheim Fonds PhD fellowship.
CITATION STYLE
Schiepers, A., & Victora, G. (2023). Molecular fate-mapping of serum antibodies reveals the effects of antigenic imprinting on repeated immunization. The Journal of Immunology, 210(1_Supplement), 59.01-59.01. https://doi.org/10.4049/jimmunol.210.supp.59.01
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