Type 1 diabetes (T1D) is a T cell-mediated autoimmune disease. Insulin seems to be a critical antigen recognized by autoreactive T cells. In this study, we performed T cell epitope mapping of insulin using serial overlapping peptides in Japanese patients with T1D. Serial overlapping insulin peptides comprising 23 peptides, which were each 15-amino acid long, were prepared based on insulin sequence. Cytokine secretion from peripheral T cells against these peptides was studied by enzyme-linked immunospot (ELISPOT) assay in 18 patients with recent-onset T1D and 12 patients with established T1D, and compared with 17 healthy control subjects. In ELISPOT assay, IFN-gamma-secreting T cells, but not IL-4, against several insulin peptides were observed in 77.8% of patients with recent-onset T1D, 50.0% of patients with established T1D, and 0% of healthy control subjects. All epitopes recognized by T cells were identified in the B-chain of insulin. The most frequent epitope existed at the B10-24 region (9/18), followed by B1-15 and B11-25 regions (6/18, each), with B4-18, B9-23, and B12-26 identified in some patients. These data did not correlate with insulin autoantibodies or HLA-DRB1 of the patients. This is the first report of T cell epitope mapping using one amino acid serial overlapping peptides of insulin in T1D. ELISPOT assay revealed the frequent existence of insulin peptide-specific T cells in patients with recent-onset and established T1D. The T cell epitopes of insulin were similar but not identical in our cohort, which probably explains the difficulty encountered in prevention of human T1D by using insulin.