Abstract
Abstract IL-12/15/18 activation induces natural killer (NK) cell differentiation into cytokine-induced memory-like (ML) NK cells with enhanced IFNγ and killing of tumor targets that is antigen independent, rendering them distinct from conventional (cNK) and CMV-induced adaptive NK cells. In leukemia patients, ML NK cells have an excellent safety profile and 47% CR rate (PMID: 32826231). Despite their clinical promise, little is known about the biology underlying ML NK cells. Based on individual variability of human ML NK cell function, we hypothesized that ML NK cells manifest molecular heterogeneity. To this end, we applied Cellular Indexing of Transcriptomes and Epitopes by Sequencing (CITE-seq) to profile RNA and protein expression on the single-cell level, and evaluated NK cell function. Overnight IL-12/15/18 stimulation induced broad activation with distinct transcriptional programs evident in CD56 brightcompared to CD56 dimNK cells. In contrast, following in vitrodifferentiation for 7 days, IL-12/15/18 activated NK cells acquired a unique transcriptional and protein signature, and manifest one of two ML NK cell states (ML-1, ML-2), or remained similar to cNK cells. ML-1 was marked by increased activating receptor expression (NKp46, NKp30, NKp44) while ML-2 had increased expression of inhibitory receptors, CD25, HLA-DR, MKI67, and IFNG. In functional assays, ML-2 cells produced more IFNγ following cytokine stimulation than ML-1 cells. Further, ML-1 and ML-2 had divergent transcription factor profiles suggesting distinct mechanisms of regulation. Collectively, our findings reveal molecular and functional heterogeneity of ML NK cells, and investigations into ML subsets in patients receiving ML NK cell therapy are ongoing. AAI Intersect Fellowship for Computational Scientists & Immunologists (JAF, TAF, AAP), T32GM139799 (JAF), P50CA171963 (TAF, MMB-E), R01CA205239 (TAF), P30CA91842 (TAF)
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