Single-cell transcriptomic analysis of NK cell dynamics in myeloma patients reveal persistent reduction of cytotoxic NK cells from diagnosis to relapse

Abstract

Abstract Natural killer (NK) cells mediate the cytotoxic immune response against multiple myeloma and are important effector cells in immune therapies through antibody-dependent cellular cytotoxicity. Here, we used single-cell transcriptomics, flow cytometry and functional assays to investigate the bone marrow NK cell compartment of myeloma patients at diagnosis, during treatment and after relapse. The bone marrow of myeloma patients is characterized by a reduction in conventional cytotoxic NK cells that persists throughout treatment. We show in 20% of newly diagnosed myeloma patients that an altered balance between cytotoxic and cytokine-producing NK cells translates into a reduced cytotoxic ability in response to therapeutic antibodies. The relative loss of cytotoxic NK cells persists at relapse and is accompanied by an expansion of IFN-responsive NK cells. These findings reveal previously unappreciated alterations in bone marrow NK cell composition and highlight the importance of understanding the bone marrow immune system in patients receiving immunotherapies. Statement of significance The bone marrow of multiple myeloma patients is characterized by a persistent reduction in cytotoxic CD56 dim NK cells, accompanied by inferior in vitro responses to therapeutic antibodies at diagnosis and an increase in IFN-responsive NK cells at relapse. These findings highlight the importance of understanding the BM microenvironment in multiple myeloma patients receiving immunotherapies.