The adaptive immune response of celiac disease (CeD) involves presentation of gluten peptides to CD4+ T cells by transglutaminase 2 (TG2) specific B cells. This B-cell/T-cell crosstalk is facilitated by involvement of TG2:gluten peptide complexes that act principally in the form of enzyme-substrate intermediates. Here, we have addressed how gluten peptide affinity and complex stability in the presence of secondary substrates affect the uptake of TG2:gluten peptide complexes by TG2-specific B cells and the activation of gluten-specific T cells. We studied affinity of various gluten peptides for TG2 by biochemical assay, and monitored uptake of gluten peptides by TG2-specific B cells by flow cytometry. Crosstalk between TG2-specific B cells and gluten-specific T cells was assayed with transfectants expressing antigen receptors derived from CeD patients. We found that gluten peptides with high TG2 affinity showed better uptake by TG2-specific B cells. Uptake by B cells, and subsequent activation of T cells, was negatively affected by polyamines acting as secondary TG2 substrates. These results show that affinity between gluten peptide and TG2 governs the selection of T-cell epitopes via enhanced uptake of TG2:gluten complexes by TG2-specific B cells, and that exogenous polyamines can influence the CeD immune responses by disrupting TG2:gluten complexes.
Keywords: B cells; T cells; autoimmunity; celiac disease; transglutaminase 2.
© 2022 The Authors. European Journal of Immunology published by Wiley-VCH GmbH.