A cognate interaction between T cell-expressed BTLA and B cell-expressed HVEM regulates mucosal immunity in the gut

Abstract

Abstract Mucosal immunity in the gut is achieved in part through cellular connections between lymphoid cells such as regulatory-T cells (Treg), T follicular helper cells (Tfh), T follicular regulatory cells (Tfr) and Germinal Center B cells (GC B). Btla (B and T Lymphocyte Attenuator) is a receptor mainly expressed on B and T cells that is activated by its ligand Hvem (Herpesvirus entry mediator; Tnfrsf14) to inhibit cellular activation. However, the role of these specific immune checkpoints in the regulation of mucosal immunity in the gut is still unknown. In mice containing genetic ablation of Btla in T cells, we observed an increased frequency of Tfh and GC B cells in Peyer’s Patches (PP), and a decreased frequency of Treg and Tfr cells in these tissues. Interestingly, in mice with a B-cell-specific deletion of the Btla ligand Tnfrsf14 (Hvem), we observe similar increases in GC B cells and Tfh cells and decreased in Treg. Moreover, these mice are characterized by an increase of mucosal IgA bound to bacteria in fecal pellets, indicating a functional outcome of Btla regulation of the GC. Finally, treating wild-type mice with an antibody agonist for Btla increases the frequency of regulatory T cells in PP demonstrating the potential therapeutic effect of activating Btla inhibitory signaling in mucosal immunity. Together, we show that T cell-expressed Btla interacts with B cell-expressed Hvem to regulate GC responses in Peyer’s Patches. A disruption of the balance effector T cell/regulatory T cell is responsible for many inflammatory autoimmune diseases. It will be crucial to understand the role of Btla and its ligand in these populations in mucosal tissues to understand how immunity is regulated, and to develop potential novel therapeutics to treat disease.