An experimental autoimmune diabetes in mice characterized by delayed-onset hyperglycemia with lymphocytic infiltrations of the pancreatic islets can be induced by multiple administrations of low doses of streptozocin (STZ). We report on the influence of the MHC (H-2 complex) on this autoimmune diabetes by comparing the susceptibilities of various congenic and recombinant strains with a B10 background. In congenic strains, C57BL/10 (H-2b) and B10.BR (H-2k) mice showed a high incidence of diabetes, whereas B10.D2 (H-2d) and B10.S (H-2s) mice showed a low incidence. Therefore, we suggest that the H-2 complex influences diabetes susceptibility and that both b and k are high-susceptibility alleles, whereas d and s are low-susceptibility alleles. In recombinant strains, those with the same haplotypes on the K, E, S, and D subregions of the H-2 complex showed undefined (high and low) susceptibilities, indicating that the diabetes-susceptibility genes are located outside these loci. Strains possessing I-Ab or I-Ak gene products (C57BL/10, B10.BR, B10.TL, B10.A, and B10.A(2R] showed high incidences, whereas strains possessing I-Ad or I-As (B10.D2, B10.S, B10.S(7R), B10.S(9R), and B10.GD) showed low incidences. In addition, administration of anti-I-A monoclonal antibody prevented the manifestation of diabetes in STZ-administered mice. Passive transfer of STZ-administered T lymphocytes to mice given minute doses of STZ induced significant hyperglycemia. This successful transfer was only observed in H-2-compatible mice. Thus, we conclude that one gene coding for susceptibility to this experimental diabetes was located in the I-A subregion within the H-2 complex.