NK-like cytotoxicity of allospecific gamma delta TCR+ T cell clones

We recently generated a series of human alloantigen-specific, CD3+, gamma delta- TCR+ clones by stimulating CD3+, CD4-, CD8- T cells from normal individuals with allogeneic lymphoblastoid cell lines (LCL). These clones display cytotoxic activity against their specific stimulators but not against irrelevant LCL. Most but not all of these clones express the NK cell associated marker, CD57, and kill NK-sensitive targets such as the K562 and Molt 4 lines, but not NK-resistant line, Raji. Gamma delta clones which lacked expression of CD57 had no detectable NK activity. The allospecific cytotoxicity of CD57+ and CD57- clones was inhibited by mAb to CD3 or the TCR delta- chain. In contrast, the NK-like activity of the CD57+ clones was enhanced by these antibodies over a wide range of antibody concentration. An HLA class I framework-specific mAb had no effect on NK-like cytolysis but did inhibit allospecific killing, suggesting that the target structures on the surface of allospecific and NK-sensitive cells are distinct. The receptors utilized by the gamma delta- TCR+ clones to recognize NK-sensitive and allospecific targets are also distinct, since killing of NK-sensitive targets was blocked by the presence of cold (unlabeled) NK-sensitive cells but not by cold allospecific targets, whereas allospecific cytolysis was inhibited by cold allospecific targets but not by NK-sensitive cells. We conclude that some CD3+, TCR- gamma delta+ clones exhibit NK-like as well as allospecific killing and that these two activities are mediated by distinct receptor-ligand interactions.