Induction of tolerance in experimental autoimmune myasthenia gravis with solubilized MHC class II: Acetylcholine receptor peptide complexes

Abstract

Stimulation of T lymphocytes through the T cell receptor in the absence of costimulatory signal(s) induces a state of unresponsiveness to subsequent antigen presentation. We have employed solubilized complexes consisting of rat class II MHC molecules containing an immunodominant peptide of the acetylcholine receptor (AChR alpha 100-116) to induce unresponsiveness in the autoreactive T lymphocytes mediating an animal model of myasthenia gravis. In vitro incubation of rat T cell lines specific for peptide AChR alpha 100-116 with solubilized complexes of MHC II and AChR alpha 100-116 (MHC II:AChR alpha 100-116) rendered the T cells unresponsive to subsequent stimulation by antigen presenting cells and the peptide. T cell lines with a broader specificity to the entire AChR protein pentamer had an 81% reduction in proliferation to AChR following a preincubation with solubilized MHC II:AChR alpha 100-116. Treatment with the solubilized MHC II:AChR alpha 100-116 induced phosphatidylinositol 4,5-bisphosphate hydrolysis, an early signalling event associated with binding to the TCR. Rats primed with AChR and injected intravenously with MHC II:AChR alpha 100-116 had reduced in vitro T cell proliferation to the AChR alpha 100-116 peptide and to whole AChR. Solubilized MHC II:AChR alpha 100-116 injected i.v. into rats exhibiting serological clinical symptoms of experimental autoimmune myasthenia gravis (EAMG) prevented death in 67% of the treated animals, compared to a 0-20% survival rate in all other control groups. These results demonstrate that solubilized MHC II complexed with an immunodominant autoantigenic peptide is tolerogenic and improves the survival rate of rats with EAMG, suggesting the basis for an antigen-specific therapy in autoimmune diseases such as MG.