The B-cell antigen receptor of IgE-switched plasma cells regulates memory IgE responses

Background: Allergic inflammation is driven by IgE-producing plasma cells (PCs), which are required for IgE-mediated activation of mast cells and basophils. Repeated antigen encounter elicits a memory IgE response with elevated serum IgE titers and accumulation of IgE-producing PCs. However, the cellular compartment and molecular signals that underlie the immunologic memory of IgE responses remain unclear.

Objective: With this study we aimed at clarifying whether inactivation of the cytoplasmic immunoglobulin tail tyrosine (ITT) motif in transmembrane IgE (mIgE) impairs the memory IgE response in mice.

Methods: We generated mice with an inactivated mIgE-ITT motif and analyzed serum IgE levels as well as the generation of IgE-producing germinal center B cells and PCs subsequent to primary and secondary infection with helminths. In vitro cultures were used to study the mIgE-ITT-controlled expression of mIgE on the surface of PCs. Systemic mast cell activation was determined by serum Mcpt1 ELISA in response to ovalbumin challenge.

Results: mIgE-ITT-mutant mice showed an impaired memory IgE response subsequent to helminth infection. Furthermore, sensitization and challenge of mIgE-ITT-mutant mice with ovalbumin resulted in diminished serum IgE titers and reduced mast cell activation. The mIgE-ITT motif was required for optimal cell surface expression of mIgE B-cell antigen receptors but not for intracellular IgE expression in PCs.

Conclusion: These results indicate that the mIgE B-cell antigen receptor plays a critical role in establishing or maintaining the population of IgE-producing PCs during memory IgE responses.