Oligodendrocyte-specific protein (OSP)/claudin-11 has been recently implicated in multiple sclerosis pathophysiology. Yet, the pathogenic autoimmunity against OSP has been poorly investigated. We previously showed that OSP-induced experimental autoimmune encephalomyelitis (EAE) and optic neuritis in SJL/J mice are primarily associated with CD4+ T cells reactive against OSP55-80. Dissecting the fine epitope specificity to the level of epitopic residues recognized by OSP-specific encephalitogenic T cells revealed their focused recognition of OSP58M. Accordingly, OSP58M predicted by computer modeling to be a major TCR contact residue shared by the three nonameric core epitopes within OSP55-80, albeit at different MHC-II pockets, was experimentally determined as the primary TCR contact residue crucial for activation and control of encephalitogenic T cells reactive against OSP55-80 or against recombinant OSP. Ala substitution of OSP58M impaired the functional TCR recognition/activation of pathogenic OSP-reactive T cells. Accordingly, the non-stimulatory/non-encephalitogenic pOSP55-58A-66 analogue not only treated EAE induced by pOSP55-80 but also effectively reversed EAE induced by whole OSP. Thus, the selection/activation and control of OSP-pathogenic T cells in H-2(s) mice appeared to be dominated by their predetermined focused recognition of OSP58M. Such a focused recognition by OSP-pathogenic T cells, despite their extensive TCR heterogeneity (Kaushansky, N., Zhong, M. C., Kerlero de Rosbo, N., Hoeftberger, R., Lassmann, H. and Ben-Nun, A. 2006. Epitope specificity of autoreactive T and B cells associated with experimental autoimmune encephalomyelitis and optic neuritis induced by oligodendrocyte-specific protein in SJL/J mice. J. Immunol. 177:7364), may impact profoundly on peripheral self-tolerance to OSP and on altered peptide ligand-mediated immune-specific modulation of the recently described OSP-related autoimmune pathogenesis.