Induction of cytotoxicity in human peripheral blood mononuclear cells by monoclonal antibody OKT3.

Abstract

It has been previously reported from this laboratory that incubation of PBMC with OKT3 generates potent cytotoxic lymphocytes that can be targeted by using antibody heteroconjugates consisting of anti-target cell antibody and OKT3. In the present study these conjugates were used to explore the kinetics of induction of cytotoxicity in PBMC and the subpopulations of lymphocytes involved. It was found that in addition to conjugate-dependent cytotoxicity, a considerable amount of conjugate-independent cytotoxicity was generated during OKT3 stimulation. Although the conjugate-dependent activity resided in the CD8+ population, the conjugate-independent cytotoxicity was found to be a function of CD4-/CD8- natural killer-like cells. Being largely CD3-, those cells were most likely activated by lymphokines produced by OKT3-stimulated CD3+ cells. They were capable of killing not only tumor cells but also autologous lymphocytes. The CD4+ cells of some donors were found to exhibit low but clearly demonstrable cytotoxicity. Induction of cytotoxicity was characterized as an early event in T cell activation, correlating with the kinetics of RNA synthesis. Cytotoxicity, interleukin 2 receptor expression, and DNA synthesis declined after 3 days of activation with OKT3, indicating the existence of as yet undefined regulatory mechanisms.