Abstract
Thyroglobulin (Tg) and thyroid peroxidase (TPO) are two major autoantigens in autoimmune thyroid diseases (AITD). Cross-reactive anti-Tg/TPO antibodies have been identified in patients with AITD and in mice immunized with Tg or TPO. In the present study, we investigated the production of anti-Tg/TPO antibodies in rabbits immunized with human Tg and with a highly immunogenic Tg peptide (namely TgP41, sequence 2651-2670 of human Tg), by noncompetitive and competitive ELISA. TgP41 was found previously to induce intramolecular epitope spreading. We found that Tg-immunized rabbits developed a serological immune response to TPO due to cross-reactivity with Tg, since serum TPO reactivity was inhibited by soluble Tg and affinity-purified anti-Tg antibodies cross-reacted with TPO. Moreover, TgP41-immunized rabbits responded to Tg and TPO. This serological response was attributed to anti-Tg/TPO antibodies, based on the observation that serum TPO reactivity was again inhibited by soluble Tg, and affinity-purified anti-Tg antibodies, induced by TgP41-immunization, cross-reacted with TPO. Purified anti-TgP41 antibodies did not react with TPO, suggesting that a putative common antigenic determinant is not included in the peptide sequence. We propose that intermolecular spreading of reactivity to TPO observed after administration of the Tg-peptide is a result of intramolecular epitope spreading to determinant(s) responsible for Tg/TPO cross-reactivity.