Abstract
On the path to successful immunotherapy of hematopoietic tumors, gammadelta T cells offer great promise because of their human leukocyte antigen (HLA)-unrestricted targeting of a wide variety of leukemias/lymphomas. However, the molecular mechanisms underlying lymphoma recognition by gammadelta T cells remain unclear. Here we show that the expression levels of UL16-binding protein 1 (ULBP1) determine lymphoma susceptibility to gammadelta T cell-mediated cytolysis. Consistent with this, blockade of NKG2D, the receptor for ULBP1 expressed on all Vgamma9(+) T cells, significantly inhibits lymphoma cell killing. Specific loss-of-function studies demonstrate that the role of ULBP1 is nonredundant, highlighting a thus far unique physiologic relevance for tumor recognition by gammadelta T cells. Importantly, we observed a very wide spectrum of ULBP1 expression levels in primary biopsies obtained from lymphoma and leukemia patients. We suggest this will impact on the responsiveness to gammadelta T cell-based immunotherapy, and therefore propose ULBP1 to be used as a leukemia/lymphoma biomarker in upcoming clinical trials.