We have previously shown that activated T cells have a much stronger proinflammatory effect in the development of experimental autoimmune uveitis than their nonactivated counterparts. Our present study explored T cell subsets are functionally distinct in autoimmune pathogenesis and determined the pathogenic contribution of biased V4+ T cell activation in this disease. By systematically comparing two major peripheral T cell subsets, the V1+ and the V4+ cells, we found that the V4+ cells were readily activated in B6 mice during experimental autoimmune uveitis development, whereas V1+ cells remained nonactivated. Cytokines that were abundantly found in the serum of immunized mice activated V4+, but did not activate V1+, cells. The V4+ cells had a strong proinflammatory activity, whereas the V1+ cells remained nonactivated when tested immediately after isolation from immunized mice. However, when the V1+ cells were activated in vitro, they promoted inflammation. Our results demonstrated that activation is a major factor in switching the enhancing and inhibiting effects of both V1+ and V4+ T cell subsets, and that T cell subsets differ greatly in their activation requirements. Whether the enhancing or inhibiting function of T cells is dominant is mainly determined by the proportion of the T cells that are activated versus the proportion not activated.
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