We have examined the requirement for clonal reductions of tolerogen-reactive lymphocytes in mice of the A strain background rendered neonatally tolerant of class II major histocompatibility complex molecules. Tolerogen-specific mixed lymphocyte reactivity of lymphocytes obtained from 130 adult, class II tolerant mice, bearing a healthy skin allograft, was examined. Lymphocytes obtained from 86 mice responded to the tolerogen, in vitro, with a positive mixed lymphocyte response (MLR) indicating that a large proportion (75%) of adult class II tolerant mice on the A strain background are not clonally deleted for tolerogen-reactive lymphocytes. In addition, lymphocytes from 29 mice were MLR-negative to the tolerogen, and lymphocytes from 15 mice demonstrated such high amounts of proliferation to syngeneic stimulators that their specific response to the tolerogen could not be determined. In view of the discordance between the in vivo and in vitro expressions of tolerance in the MLR-positive mice, lymphocytes from these mice were compared with normal lymphocytes by several assays. 1) Tolerogen-specific proliferative responses obtained from both normal and tolerant lymphocytes could be inhibited by the addition of monoclonal antibodies specific for the relevant class II antigens; 2) quantitative differences in the ability of normal, as compared with tolerant cells, to respond to the tolerogen in the MLR were not apparent; 3) no evidence of qualitative differences in the cell-surface phenotype of the proliferating cell was observed, (i.e., the cells were Thy-1+, L3T4+, Lyt-2-); and 4) lymphocytes from both normal and MLR-positive tolerant mice produced substantial amounts of interleukin-2 in response to the tolerogen. Thus, clonal deletion of helper cells is not required for tolerance to class II major histocompatibility complex antigens and we propose that tolerance may be maintained by either 1) in vivo suppression of the tolerogen-specific helper cells or 2) selective deletion or suppression of class II specific effector cells.