T cell vaccination, the application of syngeneic attenuated T cells, has been shown to prevent effectively and treat experimental autoimmune diseases, but its mechanisms of action are poorly understood. Here we present data on the induction of a humoral anti-T cell response by T cell vaccination, capable of strongly inhibiting T cell proliferation and of ameliorating experimental autoimmune disease. T cell vaccination in the Lewis rat induced autoantibodies reactive with several syngeneic T cell proteins. These autoantibodies were not detectable in normal Lewis sera as assessed by immunoblotting and flow cytometry with intact syngeneic T cells. The autoantibody reactivity was not restricted to one idiotype, was detected as early as 1 week after vaccination and was dominated by IgG, suggesting the boosting of a naturally preformed humoral network by T cell vaccination. Recovery from passively or actively induced experimental autoimmune encephalomyelitis (EAE) in the Lewis rat, too, could be shown to be associated with the development of anti-T cell autoantibodies. In vitro, both the post-EAE and the post-vaccination sera had a strong suppressive effect on the proliferation of syngeneic T cell clones. This inhibition was shown to be mediated by antibodies and to be partly complement-dependent. In vivo, both kinds of sera were able to ameliorate EAE. This protective effect of the post-vaccination sera was not idiotype-specific, since sera obtained after T cell vaccination with an unrelated T cell clone were similarly effective in suppressing EAE. These results suggest that anti-lymphocytic antibodies might play an immunoregulatory role that can be positively manipulated by T cell vaccination.