Sugi basic protein (SBP), a major allergen of Japanese cedar (Cryptomeria japonica) pollen, conjugated to pullulan (alpha-1,4'-, alpha-1,6'-glucan) reportedly suppresses IgE anti-SBP antibody production and enhances IgG anti-SBP antibody production in mice. We analyzed cytokine production by SBP-specific T cells after stimulation with an SBP-pullulan conjugate (SBP-P), native SBP, or a mixture of SBP and pullulan. When SBP-specific T cell lines were stimulated with the SBP-P conjugate in the presence of antigen-presenting cells (APC), the production of IFN-gamma, IL-4, IL-5, and IL-10 decreased compared with the cytokine levels produced by SBP-stimulated T cells. However, when these T cells were repeatedly stimulated with the SBP-P conjugate, the production of IFN-gamma increased progressively, while that of IL-4, IL-5, and IL-10 remained decreased compared with the T cells that were repeatedly stimulated with native SBP. Stimulation of the T cells with the mixture of SBP and pullulan showed little difference in the cytokine production profile from that observed after stimulation with native SBP alone. Interestingly, when the T cell lines stimulated repeatedly with SBP-P were subsequently stimulated with native SBP, a further increase in IFN-gamma production was observed, while IL-10 production decreased. Inhibition of IL-4 production was also observed when SBP-specific Th2 clones were stimulated with SBP-P. These results indicate that stimulation of T cells with SBP-P up-regulates Th1 cytokine production, while down-regulating that of Th2. It is, therefore, conceivable that immunotherapeutic treatment with the SBP-P conjugate rather than with conventional SBP solutions is preferable for improving Japanese cedar pollen allergy.