Following induction of experimental encephalomyelitis with a T-cell clone, L10C1, that is specific for the myelin basic protein epitope p87-99, the inflammatory infiltrate in the central nervous system contains a diverse collection of T cells with heterogeneous receptors. We show here that when clone L10C1 is tolerized in vivo with an analogue of p87-99, established paralysis is reversed, inflammatory infiltrates regress, and the heterogeneous T-cell infiltrate disappears from the brain, with only the T-cell clones that incited disease remaining in the original lesions. We found that antibody raised against interleukin-4 reversed the tolerance induced by the altered peptide ligand. Treatment with this altered peptide ligand selectively silences pathogenic T cells and actively signals for the efflux of other T cells recruited to the site of disease as a result of the production of interleukin-4 and the reduction of tumour-necrosis factor-alpha in the lesion.
It has long been accepted that the response of T cells to a protein antigen is strongly influenced by parameters governing processing and presentation of the immunodominant epitopes. Recent evidence has suggested, however, that subtle changes in the nature of the ligand itself may also affect the outcome of T-cell receptor (TCR) ligation, necessitating a re-evaluation of previously accepted paradigms of T-cell activation. In particular, activation may no longer be regarded as an all-or-nothing event, but appears to involve both quantitative and qualitative dimensions. This revolution in our understanding has emanated from the recent discovery that analogues of immunogenic peptides, so-called altered peptide ligands (APLs), may elicit a subset of normal activation events, or profoundly influence responses to the wild-type epitope. As such, the potential offered by APLs for modifying the outcome of deleterious immune responses involved in autoimmunity has not passed unnoticed. Indeed, the design and exploitation of novel reagents based on the structure of autoantigenic epitopes has enjoyed some measure of success in the treatment of experimental models of autoimmune disease and holds promise for their exploitation within the clinical arena.
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