It was found that NK1.1+ cells were subdivided by their different expression pattern of Ly-6C antigen. To characterize their functional significance in immunoregulation, we separated NK1.1 + Ly6C+ cells and NK1.1 + Ly-6C- cells from C57BL/6 mouse nylon-passed spleen cells by FACStar. Both NK1.1 + Ly-6C+ and NK1.1 + Ly-6C- cells responded to the stimulation with IL-2 plus IL-12 and showed strong cytotoxicity against YAC-1 cells. However, these cells revealed different ability in terms of IFN-gamma production. Only NK1.1 + Ly-6C+ cells, but not NK1.1 + Ly-6C- cells, cultured with IL-12 alone or IL-2 plus IL-12, produced high levels of IFN-gamma. Flow cytometric analysis demonstrated that NK1.1 + Ly-6C+ cells consisted of NK1.1 + CD3-Ly-6C+ NK cells and NK1.1 + CD3 + Ly-6C+ NKT cells. Therefore, we further separated these two populations from NK1.1 + Ly-6C+ cells to define their functions. Although, both NK1.1 + CD3-Ly-6C+ NK cells and NK1.1 + CD3+ NKT cells showed the same level of cytotoxicity. It was clearly demonstrated that NK1.1 + CD3+Ly-6C+ NKT cells were major immunoregulatory cells to produce IFN-gamma in respond to IL-12 alone or IL-2 plus IL-12.