Hepatic regulatory T cells and Kupffer cells are crucial mediators of systemic T cell tolerance to antigens targeting murine liver†

Abstract

The mechanisms of tolerance in the liver that limit susceptibility to food allergy and that mediate the acceptance of liver transplants, even with a complete major histocompatibility complex (MHC) mismatch, remain poorly defined. Here we report that in a model of liver-directed gene transfer, cytotoxic T lymphocyte (CTL) responses to non-self antigens are controlled by hepatic regulatory T cells (Tregs) that secrete the immunosuppressive cytokine interleukin (IL)-10 in response to the antigen. In addition, Kupffer cells (KCs), normally thought to initiate immune responses, are rendered tolerogenic in this context. The depletion of KCs results in a complete abrogation of IL-10 production by hepatic Tregs, indicating an interaction between Tregs and KCs in the induction of tolerance. Conclusion: Our study suggests that hepatic Tregs together with KCs create a local suppressive microenvironment that prevents the establishment of the CTL response. These mechanisms provide pivotal insights and may prove instrumental in the tolerization toward non-self therapeutic proteins delivered to the liver. (HEPATOLOGY 2009.)