Lethal graft-versus-host disease (GVHD) can be induced in MHC-matched strain combinations which differ in their expression of multiple minor histocompatibility (H) antigens. It has been shown that CD8+ T cells play an important role in the development of disease directed to the minor H antigens, and that initial indications were that highly purified preparations of these cells were capable of mediating GVHD, without apparent'help'from mature donor-derived CD4+ T cells. To further strengthen this hypothesis, the current study was undertaken with the B10. BR----CBA strain combination in which irradiated recipient mice were additionally treated with an anti-CD4 monoclonal antibody, as a single or repeated injection, to minimize the presence of either residual host CD4+ cells or recently generated donor-derived CD4+ cells at later stages of disease development. The results indicate that these treatments do not affect the GVHD outcome and that the CD8+ cells are indeed capable of inducing disease independent of CD4+'help'. The addition of donor CD4+ T cells in the inoculum, however, does enhance the potential of these CD8+ cells, and is observed with both low and high dosages of CD4+ cells. CD4+ T cells, on their own, have also been observed to cause GVHD directed to minor H antigens in certain strain combinations, and their response has been further characterized in this study. Results indicate that CD4+ cells capable of mediating GVHD in the B10. D2----DBA/2 strain combination can do so over a wide range of recipient irradiation exposures. The transfer of high dosages of CD4+ cells only shortens survival times of the recipients and does not afford any apparent protection phenomenon as previously observed in CD4+ cell mediated anti-class II MHC GVHD. The study also indicates that neither CD4+ nor CD8+ cells responsible for GVHD directed to minor H antigens seem capable of targeting host stem cell elements.