Our previous studies have shown that Foxp3 under the control of IFN-gamma promoter (IgammaP-Foxp3) converts pathogenic CD4(+)Th1 cells into regulatory T cells (Tregs), which control diabetes in non-obese diabetic (NOD) mice. Here, we tested the other hypothesis that transient expression of Foxp3 as controlled by the transient expression of IL-12Rbeta2 during Th1 cell derivation is sufficient to convert cells to Tregs. Foxp3, under the control of IL-12Rbeta2 promoter (Ibeta2P), was lentivirally transduced into naïve CD4(+)T cells from NOD mice. Ibeta2P-Foxp3-transduced CD4(+)T cells could not effectively suppress the incidence of diabetes when transferred into NOD mice. Furthermore, we found that Ibeta2P-Foxp3-transduced CD4(+)T cells, stimulated by a high dose of autoantigen, did not suppress CD4(+)T cell activation, produce CD4(+)Foxp3(+)Tregs, and up-regulate CTLA4 expression. These results suggest that Ibeta2P cannot mediate Foxp3 to convert pathogenic CD4(+)Th1 cells into Tregs which control diabetes in NOD mice.