Molecular basis for potent B cell responses to antigen displayed on particles of viral size

Author:

Brooks Jeremy F.ORCID,Riggs Julianne,Mueller James L.,Mathenge Raisa,Wholey Wei-YunORCID,Yoda Sekou-Tidiane,Vykunta Vivasvan S.ORCID,Cheng Wei,Zikherman JulieORCID

Abstract

AbstractAlthough it has long been appreciated that multivalent antigens – and particularly viral epitope display – produce extremely rapid, robust, and T-independent humoral immune responses, the biochemical basis for such potency has been incompletely understood. Here we take advantage of a set of neutral liposomes of viral size that are engineered to display affinity mutants of the model antigen (Ag) hen egg lysozyme at precisely varied density. We show that particulate Ag display by liposomes induces highly potent B cell responses that are dose-and density-dependent but affinity-independent. Titrating dose of particulate, but not soluble, Ag reveals bimodal Erk phosphorylation and cytosolic calcium increases. Particulate Ag induces signal amplification downstream of the B cell receptor (BCR) by selectively evading LYN-dependent inhibitory pathways, butin vitropotency is independent of CD19. Importantly, Ag display on viral-sized particles signals independently of MYD88 and IRAK1/4, but activates NF-κB robustly in a manner that mimics T cell help. Together, such biased signaling by particulate Ag promotes MYC expression and reduces the threshold required for B cell proliferation relative to soluble Ag. These findings uncover a molecular basis for highly sensitive B cell response to viral Ag display and remarkable potency of virus-like particle vaccines that is not merely accounted for by avidity and BCR cross-linking, and is independent of the contribution of B cell nucleic acid-sensing machinery.

Publisher

Cold Spring Harbor Laboratory

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