We developed a carboxyfluorescein succinimidyl ester (CFSE)-based flow-cytometric assay that can detect different subsets of vaccinia-specific T cells capable of both antigen-specific expansion and protective effector functions. Proliferation and effector functions were detected by CFSE dilution and intracellular staining, respectively. Absolute numbers of CD4(+)/CFSE(lo)/interferon (IFN)- gamma (+), CD8(+)/CFSE(lo)/IFN- gamma (+), CD8(+)/CFSE(lo)/granzyme A(+), and CD8(+)/CFSE(lo)/CD107a(+) T cells present after in vitro stimulation with live vaccinia were significantly higher in immunized individuals (P<.05). These CD4(+) and CD8(+) T cell increases were >2 log higher than increases detectable by standard lymphoproliferation and cytotoxicity assays. Vaccinia-specific CD8(+)/CFSE(lo)/IFN- gamma (+) and granzyme A(+) T cell responses were significantly correlated with the results of standard (51)Cr-release cytolytic assays (P<.05). Furthermore, vaccinia induced antigen-specific memory gamma delta T cells. We demonstrate that vaccinia induces robust memory effector CD4(+), CD8(+), and gamma delta T cells, all of which are relevant for protection against smallpox. CFSE-based flow-cytometric assays will be useful in evaluating cell-mediated immune responses induced by new smallpox vaccines.