The rejection of allografts is mediated by cytolytic T cells and antibody-secreting B cells. Selective ablation of these activated cells from peripheral blood lymphocytes may offer a a method of controlling allograft rejection. An immunotoxin was prepared from the monoclonal antibody (mAb) NDA 4, which recognizes a differentiation antigen (NDA 4) common to activated B and T cells. MAb NDA 4 was conjugated to the ribosome-inhibiting protein gelonin via a cleavable disulfide bond provided by a crosslinking reagent. The purified immunotoxin was evaluated for in vitro cytotoxicity on NDA 4 positive T and B cell lines. Conjugation of mAb NDA 4 to gelonin increased the in vitro cytotoxicity by a concentration factor of 1000, compared to gelonin alone. The specificity and saturability of mAb NDA 4 binding, as well as the number of antigenic sites per cell on resting versus activated T lymphocytes, were also evaluated. Resting T cells expressed 400-800 sites per cell. PHA-activated T cells and the MLA T cell leukemia expressed 10,000 to 80,000 sites per cell. Peripheral blood mononuclear cells obtained from allografted baboons in quiescence or undergoing rejection were compared for NDA 4 expression by flow cytometry. Lymphocytes obtained from baboons rejecting a heart allograft expressed NDA 4, whereas transplant recipients in quiescence showed no detectable NDA 4. These results suggest that mAb NDA 4-derived immunotoxins may be valuable for the selective depletion of activated lymphocytes while sparing the resting population.