Role of the CD45 (T-200) molecule in anti-CD3-triggered T cell-mediated cytotoxicity

Abstract NK-depleted human peripheral blood lymphocytes can be modulated with anti-CD3 to kill certain targets during 3-hr cytotoxicity assays. When triggered by anti-CD3 antibody, these effector T cells killed only NK-sensitive targets, such as K562 and HEL 92.1.7, and NK-resistant targets, such as Daudi, whose killing is inhibited by anti-CD45 (T-200) monoclonal antibodies, such as 13.3. NK-sensitive targets, MOLT-4, U266/AF10, Jurkat, and CCFR-CEM, and 10 NK-resistant cell lines, including Raji, IM-9, U698, U937, and GM-1056, whose killing is not inhibited by anti-CD45 monoclonal antibodies, were not killed by α-CD3-T effectors, suggesting that the CD45 molecule may be involved in the killing process. Anti-CD3-triggered T cell killing of target cells was inhibited greater than 95% by the monoclonal antibody 13.3. This inhibition of cytotoxicity by 13.3 was not due to competition of this IgG 1 antibody for Fc receptor binding site on the target cell, since the IgG 1 monoclonal antibody anti- β 2 -microglobulin did not block cytotoxicity. Single cell assays and calcium pulse assays showed that CD45 is involved in a postbinding, pre-calcium-dependent stage, similar to that shown for NK cytotoxicity. There was a relative shift of importance of different epitopes of CD45 in anti-CD3-T cytotoxicity compared to NK cytotoxicity. Anti-CD45 antibodies which bind to the C terminus end of the molecule played a more important role in anti-CD3-T cytotoxicity than NK cytotoxicity. Thus, a subset of T cells exists that exhibits anti-CD3-triggered non-MHC-restricted killing of certain NK-sensitive and NK-resistant targets in association with a CD45 molecule which is functionally different from the NK CD45 molecule.