APOPTOTIC CELL-DEATH INDUCED BY ANTI-IGM ANTIBODY AND PHORBOL ESTERS IS INHIBITED BY INTERLEUKIN-4 IN HUMAN B-LYMPHOMA CELL-LINE MBC-1

The development of B cell tolerance is believed to involve negative si gnaling to B cells derived from the binding of antigen to the B cell s urface immunoglobulin. B cell lines that receive negative signals may provide useful models for studying the mechanisms of B cell tolerance. We have established a human B lymphoma cell line, MBC-I, positive for both surface IgM and IgD. The growth of MBC-1 cells is inhibited by a nti-IgM antibody but not by anti-IgD antibody. The rapid time course o f MBC-1 cell death, the morphologic feature of dying cells, and DNA fr agmentation indicate that surface IgM cross-linking induces apoptotic cell death. Interestingly, interleukin-4 (IL-4) could rescue MBC-I cel ls from this apoptotic signal. BCL-2 protein is neither expressed nor induced in MBC-1 cells. The treatment of MBC-I cells with IL-4 does no t interfere with mobilization of Ca2+ or induce any phenotypical chang e. In addition, phorbol 12-myristate 13-acetate and phorbol 12, 13-dib utyrate also induced growth inhibition followed by apoptotic cell deat h in MBC-1 cells. IL-4 is able to protect MBC-I cells from cell death, but not from growth inhibition induced by protein kinase C activators . The results collectively suggest that IL-4 could inhibit the-transdu ction of apoptotic signal following the activation of protein kinase C in MBC-1 cells. (C) 1994 Academic Press, Inc.