Probing the genetic basis for thyrotropin receptor antibodies and hyperthyroidism in immunized CXB recombinant inbred mice

Immunization with adenovirus encoding the TSH receptor (TSH R) or its A-subunit induces Graves' hyperthyroidism in BALB/c and BALB/c x C57BL/6 offspring but not C57BL/6 mice. High-resolution genetic maps are available for 13 recombinant inbred CXB strains generated from BALB/c x C57BL/6 progeny by repeated brother x sister matings to establish fully inbred lines. CXB strains were studied before and after A-subunit adenovirus immunization for TSHR antibodies (TBI, inhibition of TSH binding), serum T-4, and thyroid histology. All strains developed TBI activity ( at variable levels), six strains became hyperthyroid, and one was overtly thyrotoxic. No low TBI responders became hyperthyroid, but high TBI did not predict hyperthyroidism. Preimmunization T-4 levels varied in different CXB strains and was unrelated to subsequent T-4 elevation. Linkage analysis indicated that different chromosomes were involved in generating TSHR antibodies and serum T-4 before and after immunization. TBI activity was linked in part with major histocompatibility (MHC) genes on chromosome 17 (Chr 17) but induced Graves' disease involved non-MHC genes (Chr 19 and 10). The Chr 10 locus is close to the Trhde gene that encodes TSH-releasing hormone degrading enzyme. Expression of Trhde is controlled by thyroid hormones and linkage with a thyroid function-related gene is intriguing. Our data, the first genome scan in murine Graves' disease, provides insight into the role of MHC and non-MHC genes in human and murine Graves' disease. Finally, our study demonstrates the potential of recombinant inbred mice for discriminating between immune-response genes and thyroid function susceptibility genes in Graves' disease.