T-bet Expressing B cells are Key Determinants of Protective Immunity Against Norovirus Infection

The gastrointestinal tract (GI) is the largest environmental mucosal interface and is exposed to diverse commensal and pathogenic microbes. B cells are a prevalent immune component of the GI tract and its associated secondary lymphoid organs, yet we know little about the diversity and stability of distinct transcriptional programs that modulate B cell responses against different classes of pathogens or environmental perturbations. A subset of B cells defined by expression of the transcription factor T-bet, has been canonically associated with antiviral immunity through IgG production. However, the role of T-bet expressing B cells in mucosal tissues, where IgA responses predominate, is poorly understood. Here, we identify a population of intestinal T-bet+ B cells that, in the absence of overt perturbation, constitutes a minor fraction of intestinal associated B cells and undergoes continuous turnover. In contrast, during enteric viral infection with murine norovirus (MNV), T-bet B cells undergo a marked expansion, with T-bet expression stably maintained in the majority of virus-specific B cells, including IgG2c and IgA switched B cells. Moreover, virus-reactive IgG2c and IgA B cells arise independently rather than through sequential switching, and B cell intrinsic T-bet expression is required for effective germinal center responses but dispensable for IgA class switching. Moreover, T-bet expressing B cells are required for the generation of all MNV-specific circulating IgG and mucosal IgA, and for protection upon re-encounter with the virus. Together, these findings establish T-bet expressing B cells as a specialized B cell subset essential for mucosal immunity and protection against norovirus infection.