Nonobese diabetic (NOD) mice expressing the BDC2. 5 TCR transgene are useful for studying type 1 diabetes. Several peptides have been identified that are highly active in stimulating BDC2. 5 T cells. Herein, we describe the use of I-Ag7 tetramers containing two such peptides, p79 and p17, to detect and characterize peptide-specific T cells. The tetramers could stain CD4+ T cells in the islets and spleens of BDC2. 5 transgenic mice. The percentage of CD4+, tetramer+ T cells increased in older mice, and it was generally higher in the islets than in the spleens. Our results also showed that tetAg7/p79 could stain a small population of CD4+ T cells in both islets and spleens of NOD mice. The percentage of CD4+, tetramer+ T cells increased in cells that underwent further cell division after being activated by peptides. The avidity of TCRs on purified tetAg7/p79+ T cells for tetAg7/p79 was slightly lower than that of BDC2. 5 T cells. Although tetAg7/p79+ T cells, like BDC2. 5 T cells, secreted a large quantity of IFN-γ, they were biased toward being IL-10-producing cells. Additionally,< 3% of these cells expressed TCR Vβ4. In vivo adoptive transfer experiments showed that NOD/scid recipient mice cotransferred with tetAg7/p79+ T cells and NOD spleen cells, like mice transferred with NOD spleen cells only, developed diabetes. Therefore, we have generated Ag-specific tetramers that could detect a heterogeneous population of T cells, and a very small number of NOD mouse T cells may represent BDC2. 5-like cells.