MHC class II-peptide complexes displayed on activated T cells guide Treg suppression

Abstract

Abstract Regulatory T cell (Treg) therapy is a promising strategy for extending allograft survival. Treg suppression requires initial T cell receptor (TCR)/peptide-MHC-II (pMHC-II) contacts, the nature of which remains elusive. As inflammation facilitates transfer of pMHC-II from antigen presenting cells (APCs) to activated T cells, we hypothesize that during transplantation associated inflammation, pMHC-II relocate on alloreactive T effector cells and serve as Treg activation signals. To test this, suppression assays were performed using murine CD4+ CD25− (Teff), CD90 depleted APCs, and CD4+ CD25+ Treg cells of different MHC haplotypes. We also used a transplantation model of skin allografts in RAG1 deficient mice injected with Teff and Treg cells from various MHC backgrounds. Data from more than 150 co-culture experiments show that Treg suppression occurs only when Treg and Teff share the same MHC-II, but independently of Treg matching with APC MHC-II. Further experiments demonstrate that pMHC-II complexes, displayed on activated Teff cells, are crucial to the induction of Treg suppression. In vivo results recapitulate the in vitro data: Treg suppression, leading to graft survival, occurs only when Teff and Treg cells are MHC-II matched. Collectively, these findings suggest that suppression of alloreactivity is directed by Treg TCR recognition of pMHC-II complexes exposed on Teff cells. The nature, origin (host vs. donor), and significance of MHC-II loaded peptides have yet to be established. Future studies to improve targeted Treg therapies for transplantation tolerance will focus on mechanisms coupling Treg function with Teff cell activation.