Abstract 126: MYC-driven lymphomas suppress NK surveillance by blocking maturation of early NK cells

Abstract

Abstract The MYC oncogene is commonly overexpressed in hematopoietic cancers. In a transgenic mouse model of MYC-induced T-cell lymphoma, we found that there was a systemic reduction in NK cell (CD3- NKp46High) numbers and activation in lymphoid organs such as spleen and bone marrow. MYC inactivation in lymphoma-bearing MYCON mice partially restored NK cell numbers and activation. Hence, the MYC oncogene appears to suppress NK cell-mediated immune surveillance of lymphomas. We evaluated whether reduction in mature and activated NK cells (CD3- NKp46High) in MYCON mice was due to increased death of NK cells in these mice when compared to normal and MYCOFF mice. Using flow cytometry, NK cells were measured in age matched spleens and bone marrows of normal (n = 8), MYCON (n = 8), and MYCOFF (n = 8) mice. Surprisingly, we observed a significant reduction in proportions of dead NK cells (NKp46+ PI+) in spleen and bone marrow of MYCON mice, in comparison to normal and MYCOFF cohorts. Hence, the reduction in activated NK cell numbers during MYC-driven lymphomagenesis does not occur because of increased death of NK cells. Next, we investigated whether MYC arrests early NK cell development in the bone marrow of lymphoma mice, leading to systemic NK suppression. NK cell lineage specification begins with CD122 expression, that is maintained throughout NK development starting at the precursor stage. NK precursors (NKP) transition to immature NK (iNK) cells by expressing the cytotoxicity marker NKp46. iNK cells leave the bone marrow to populate peripheral lymphoid organs. We measured NKP (CD122+ NKP46-), and iNK (CD122+ NKp46+) cells in bone marrow of normal (n = 8), MYCON (n = 8), and MYCOFF (n = 8) mice. We observed no significant changes in the percentages of NKP. However, the proportions of iNK cells were significantly reduced in MYCON mice, in comparison to MYCOFF and normal mice. Our results suggest that MYC may block transition from NKP to iNK stage during early NK cell development. The reduction of iNK cells in spleens of MYCON mice was concordant with the reduction of iNK cells in bone marrow from the same mice. We conclude that MYC-induced lymphomagenesis blocks early NK cell development, thereby suppressing NK-mediated immune surveillance. Citation Format: Line D. Heftdal, Srividya Swaminathan, Dean W. Felsher. MYC-driven lymphomas suppress NK surveillance by blocking maturation of early NK cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 126.