Synergy and antagonism in the integration of BCR and CD40 signals that control B-cell population expansion

Synergy and antagonism in the integration of BCR and CD40 signals that control B-cell population expansion

Abstract In response to infection or vaccination, lymph nodes must select antigen-reactive B-cells while eliminating auto-reactive B-cells. B-cells are instructed via B-cell receptor (BCR), which binds antigen, and CD40 receptor by antigen-recognizing T-cells. How BCR and CD40 signaling are integrat...

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Bibliographic Details
Main Authors: Helen Huang, Haripriya Vaidehi Narayanan, Mark Yankai Xiang, Vaibhava Kesarwani, Alexander Hoffmann
Format: Article
Language:English
Published: Springer Nature 2025-06-01
Series:Molecular Systems Biology
Subjects:
B-cell Selection
B-cell Signaling
NFκB
Mathematical Modeling
Systems Immunology
Online Access:https://doi.org/10.1038/s44320-025-00124-2
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Summary:Abstract In response to infection or vaccination, lymph nodes must select antigen-reactive B-cells while eliminating auto-reactive B-cells. B-cells are instructed via B-cell receptor (BCR), which binds antigen, and CD40 receptor by antigen-recognizing T-cells. How BCR and CD40 signaling are integrated quantitatively to jointly determine B-cell fate decisions remains unclear. Here, we developed a differential-equations-based model of BCR and CD40 signaling networks activating NFκB. The model recapitulates NFκB dynamics upon BCR and CD40 stimulation, and when linked to established cell decision models of cell cycle and survival control, the resulting cell population dynamics. However, upon costimulation, NFκB dynamics were correctly predicted but the predicted potentiated population expansion was not observed experimentally. We found that this discrepancy was due to BCR-induced caspase activity that may trigger apoptosis in founder cells, unless timely NFκB-induced survival gene expression protects them. Iterative model predictions and sequential co-stimulation experiments revealed how complex non-monotonic integration of BCR and CD40 signals controls positive and negative selection of B-cells. Our work suggests a temporal proof-reading mechanism for regulating the stringency of B-cell selection during antibody responses.
ISSN:1744-4292

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