Thyroid-derived T-cells from patients with Graves' disease were analyzed for their reactivity to recombinant heat shock proteins (hsp) and autologous thyroid epithelial cells (TEC). Five of six uncloned T-cell lines responded to stimulation with recombinant mycobacterial 71-kilodalton (kDa) hsp and cross-reacted with the corresponding amoebial and human proteins. Only one line reacted with recombinant 65-kDa hsp. Thyroid-derived T-cell lines also showed a proliferative response to TEC, which could be increased in four of the lines, when hsp expression was induced in thyroid cells by heat stress before the initiation of coculture. Clonal specificity analysis of thyroid-derived T-cell clones, however, demonstrated that distinct T-cells were responsible for the recognition of recombinant hsp and TEC. None of the clones responsive to recombinant hsp recognized TEC, whereas TEC-responsive clones did not react with recombinant hsp. Interestingly, the response of the majority of TEC-reactive clones could be dramatically increased when heat-shocked TEC were used as stimulator cells. These results suggest that T-cells specific for hsp of the 70- or 60-kDa families do not recognize TEC in the autoimmune thyroid gland. Heat shock-inducible proteins may, however, still play a role in the autoimmune process by facilitating the presentation of thyroid-specific autoantigen(s) to autoreactive T-cells.
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