CD155/PVR determines acute myeloid leukemia targeting by Delta One T cells.

ABSTRACT: Relapsed or refractory acute myeloid leukemia (AML) remains a major therapeutic challenge. We have recently developed a Vδ1+ γδ T cell-based product for adoptive immunotherapy, named Delta One T (DOT) cells, and demonstrated their cytolytic capacity to eliminate AML cell lines and primary blasts in vitro and in vivo. However, the molecular mechanisms responsible for the broad DOT-cell recognition of AML cells remain poorly understood. Here, we dissected the role of natural killer (NK) cell receptor ligands in AML cell recognition by DOT cells. Screening of multiple AML cell lines highlighted a strong upregulation of the DNAM-1 ligands, CD155/pulmonary vascular resistance (PVR), CD112/nectin-2, as well as the NKp30 ligand, B7-H6, in contrast with NKG2D ligands. CRISPR-mediated ablation revealed key nonredundant and synergistic contributions of PVR and B7-H6 but not nectin-2 to DOT-cell targeting of AML cells. We further demonstrate that PVR and B7-H6 are critical for the formation of robust immunological synapses between AML and DOT cells. Importantly, PVR but not B7-H6 expression in primary AML samples predicted their elimination by DOT cells. These data provide new mechanistic insight into tumor targeting by DOT cells and suggest that assessing PVR expression levels may be highly relevant to DOT cell-based clinical trials.

Cancer germline antigens and tumor-agnostic CD8+ T cell evasion.

Cancer germline antigens (CGAs) are expressed in immune-privileged germline tissues, while epigenetically silenced in somatic tissues. CGAs become re-expressed in tumors and can promote oncogenesis. Tumors prominently exploit mechanisms similar to those in germline tissues to shield from immunosurveillance. We hypothesize that CGAs contribute towards tumor escape from immune effector CD8+ T cells. For illustrative purposes, we assessed the co-presence or -absence of CGAs with these cells in multiple tumor types. Considering a broad array of CD8+ T cell evasive mechanisms, we exemplify the co-occurrence of gene transcripts of eight CGAs with those of adhesion molecules, endothelial cells, and/or the Wnt pathway. We present a novel concept of CGAs and their association with CD8+ T cell evasion, which may be relevant for future immunotherapeutic interventions.