The introduction of antigen into the anterior chamber (AC) of the eye induces the production of antigen-specific splenic CD8(+) regulatory T cells (AC-SPL cells) that suppress a delayed-type hypersensitivity (DTH) reaction in immunized mice. Because the generation of these regulatory T cells is also induced by exposure to transforming growth factor (TGF)-beta and antigen or F4/80(+) cells exposed to TGF-beta and antigen in vitro, we investigated (i) whether these cells are produced in dominant negative receptor for transforming growth factor beta receptor type II (dnTGFbetaRII) or Cbl-b(-/-) mice whose T cells are resistant to TGF-beta, (ii) whether DTH is suppressed by wild type (WT) CD8(+) AC-SPL cells in Cbl-b(-/-) and dnTGFbetaRII mice and (iii) the effect of antibodies to TGF-beta on the suppression of DTH by CD8(+) AC-SPL cells. DnTGFbetaRII immunized and Cbl-b(-/-) mice produced splenic CD8(+) regulatory cells after the intracameral injection of antigen and immunization. The suppression of a DTH reaction by CD8(+) AC-SPL cells in WT mice was blocked by the local inclusion of antibodies to TGF-beta when WT splenic CD8(+) AC-SPL cells were injected into the DTH reaction site. Moreover, the DTH reaction in immunized dnTGFbetaRII and Cbl-b(-/-) mice was not suppressed by the transfer of WT CD8(+) AC-SPL cells to the site challenged with antigen. In aggregate, these observations suggest that T cell sensitivity to TGF-beta is not an obligate requirement for the in vivo induction of CD8(+) AC-SPL T cells but the suppression of an in vivo DTH reaction by CD8(+) AC-SPL cells is dependent on TGF-beta.