Two distinct populations of CTL have previously been shown to be generated in lymphocyte cultures derived from the spleens of C57BL/6 mice that have rejected Moloney murine leukemia virus:Moloney sarcoma virus (MoMuLV:MSV)-induced tumors. One population is specific for MoMuLV viral Ag whereas the other appears to be directed against a nonviral, tumor-associated Ag (TAA). Using a virus-negative variant of the MoMuLV-induced lymphoma MBL-2 that has retained the expression of the MuLV:TAA, we attempted to further characterize the MuLV:TAA-specific CTL population. First, this same pattern of CTL reactivity was observed using a variety of immunization protocols indicating that the TAA-specific CTL population was not an artifact of the original immunization protocol but was a reproducible component of the MoMuLV CTL response. Moreover, CTL precursor frequency analysis indicates that the MuLV:TAA-specific CTL represent approximately 60% of the CTL detected in in vitro cytotoxicity assays. However, when the role of MuLV:TAA CTL in the in vivo rejection of MoMuLV-induced tumors was examined, no role for the MuLV:TAA-specific CTL response could be determined. Immunization protocols that had been shown to give rise to both CTL populations were capable of protecting mice from tumor development after a challenge with the parental MBL-2 tumor cell line but not the virus-negative variant MBLv cell line. In addition, immunization with the variant, shown to give rise to only MuLV:TAA-specific CTL capable of lysing both MBL-2 and MBLv in vitro, failed to protect mice from a tumor challenge of either cell type.