Flexibility of the thyroiditogenic T cell repertoire for murine autoimmune thyroiditis in CD8-deficient (β2m-/-) and T cell receptor VβC congenic mice

In murine experimental autoimmune thyroiditis (EAT), previous studies have revealed a highly adaptable thyroiditogenic T cell repertoire which involves both CD4(+) and CD8(+) T cells in the susceptible H2(k) strain. To further test this flexibility, congenic B10.K mice lacking CD8(+) T cells (beta 2m -/-) or harboring 70% T cell receptor (TCR) V beta gene deletions (V beta(c)) were immunized with mouse thyroglobulin (MTg) and evaluated for EAT 28 days later. All beta 2m -/- mice developed moderate antibodies to MTg, and thyroidal inflammation was comparable to B10.K mice, averaging 35-40%. Spleen cells (SC) from MTg-immunized mice were then injected into syngeneic recipients after stimulation in vitro With MTg Or With conserved, thyroxine (T4)- or thyronine (TO)- containing 12mer peptides, hT4(5), hT0(2553), or hT4(2553), derived from the primary hormonogenic sites at position 5 or 2553 of human Tg. As previously shown in another H2(k) strain (CBA/J), all three peptides activated MTg-primed SC to transfer EAT in B10.K mice. hT4(5) and hT4(2553) were further tested in B10.K-V beta(c) and beta 2m(-) B10.K mice. Both peptides expanded thyroiditogenic T cells in either strain, resulting in severe thyroiditis in syngeneic recipients. That EAT can develop in the absence of CD8(+) T cells or in the presence of a severely restricted TCR repertoire underscores the remarkable flexibility of the thyroiditogenic T cell profile in the susceptible fi haplotype.