Graves' disease is a common human autoimmune disorder caused by autoantibodies that stimulate the TSH receptor (TSHR). There are no spontaneous animal models of the disease. We will use two induced mouse models; """"""""naked"""""""" TSHR-DNA vaccination, and the """"""""Shimojo"""""""" approach (injecting TSHR-expressing fibroblasts). With these models, we will analyze the following issues in the immune response to the TSHR:- 1. Influence of micro-organisms or lack of self tolerance: We will study the titers and functional activity of TSHR antibodies induced by TSHR-DNA vaccination in combination with microbial products, as well as in TSHR-knockout mice that cannot acquire self tolerance to the TSHR. 2. CYtokine and cellular interactions: Wild type mice and B-cell knockout mice will be used to determine (a) which cytokines are produced by splenocytes challenged with TSHR-protein; (b) whether CD4+ or CD8+ T cells are involved in the response; (c) if B cells are required to induce memory T cells specific for the TSHR, 3, Epitopes recognized by TSHR-specific T cells: Synthetic TSHR peptides will be used to determine the epitopes recognized by T cells (a) cloned from TSHR-DNA vaccinated BALB/c mice; (b) TSHR knockout mice that lack tolerance to the TSHR; (c) mice transgenic for HLA that predispose (DR3) or protect against (DQ6) Graves' disease. Naturally 3rocessed TSHR peptides will also be studied, 3. Co-stimulatory signals: The role of co-stimutatory molecules will be explored (a) in vitro by using antibodies to block CD40/CD40-1igand and CD28/B7-1/2 interactions; (b) in vivo using mice with disrupted genes (""""""""knockouts"""""""") for CD28, CD40, B7-1 or B7-2; (c) in vivo by injecting mice with anti-B7-1 (or control) together with TSHR -fibroblasts (that express B7-1). 5. Role of TSHR cleavage and shedding: We heavily glycosylated A subunit plays a role non-cleaving or shedding TSHR; (b) examining antigens (such as TPO) to the mannose receptor
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