Abstract 6418: xWU-NK-101 as salvage therapy post immune checkpoint blockade (ICB)

ICB therapy has transformed cancer treatment; durable responses in difficult-to-treat cancers have been observed. Despite this most patients (pts) don’t respond to ICB (primary resistance), and many pts who initially respond eventually relapse (acquired resistance). Primary resistance is associated with tumor cell extrinsic factors, e.g., the immunosuppressive nature of the tumor microenvironment (TME), while acquired resistance is associated with tumor intrinsic factors, e.g., downregulation of MHC1, preventing T cell recognition. Treatments to overcome ICB resistance are necessary. WU-NK-101 is a PBMC-derived, cytokine-reprogrammed, expanded, and cryopreserved off-the-shelf memory NK cell product. WU-NK-101 cells capture the memory-like NK cell biology of cytokine-induced memory-like (CIML) NK cells, exhibiting enhanced cytotoxicity, metabolic fitness/flexibility, and resistance to TME immunosuppression (Muth et al. EHA 2022; Rutella et al. ESMO 2022). Bone marrow biopsies, collected from R/R AML pts who received CIML-NK cells (NCT01898793), were interrogated using immune gene expression (GE) profiling and spatially resolved proteomics (IO360® panel, n = 740 genes, and GeoMx® DSP; NanoString Technologies). Higher T-cell infiltration was noted post CIML-NK. CIBERSORT deconvoluted GE data inferred higher abundance of macrophages, γδT cells and activated dendritic cells on day 28 post-treatment. GE signatures showed downregulation of NFIL3 and FAM30A (log2 fold-change