Antibody-targeted superantigens induce lysis of major histocompatibility complex class II-negative T-cell leukemia lines.

CTLs bearing certain T-cell receptor V beta-regions are directed by the bacterial superantigen Staphylococcus enterotoxin A (SEA) to lyse MHC class II-positive cells. In order to extend superantigen-dependent cytotoxicity to MHC class II-negative carcinoma cells, covalent conjugates of superantigen and mAbs against surface markers of these cells have been used. We now describe a novel strategy which allows rapid selection of mAb suitable for superantigen targeting against MHC class II-negative tumor cells. A recombinant fusion protein of protein A and SEA binding to the mAbs CD7 or CD38 was able to mediate T cell-dependent lysis of MHC class II-negative Molt-4 and CCRF-CEM acute lymphatic leukemia cell lines. Lysis was dose dependent and correlated with E:T cell ratio. In contrast, SEA alone did not induce any significant lysis. In order to decrease the MHC class II affinity of the protein A-SEA complex, a point mutation was introduced into SEA (protein A-SEA mu9). The mutated fusion protein had similar potency as protein A-SEA against Molt-4 cells but was 100-fold less active against MHC class II-positive cells. Considering the efficiency and specificity of the mutated SEA protein interacting with mAb in targeting T lymphocytes against MHC class II-negative leukemia cells while only marginally affecting normal MHC class II-positive cells, we suggest the development of SEA-mAb fusion proteins as a potential adjuvant therapy of leukemias.