Abstract
Immunotherapy has shown limited success in acute myeloid leukemia (AML), indicating an incomplete understanding of the underlying immunoregulatory mechanisms. Here we identify an immune evasion mechanism present in 60% of AML cases, wherein primitive AML cells aberrantly express the lymphoid surface protein SLAMF6 (signaling lymphocyte activation molecule family member 6). Knockout of SLAMF6 in AML cells enables T cell activation and highly efficient killing of leukemia cells in coculture systems, demonstrating that SLAMF6 protects AML cells from recognition and elimination by the immune system in a mode analogous to the programmed cell death protein-ligand (PDL1/PD1) axis. Targeting SLAMF6 with an antibody against the SLAMF6 dimerization site inhibits the SLAMF6-SLAMF6 interaction and induces T cell activation and killing of AML cells both in vitro and in humanized in vivo models. In conclusion, we show that aberrant expression of SLAMF6 is a common and targetable immune escape mechanism that could pave the way for immunotherapy in AML.