Browsing by Subject "adaptive NK cells"

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    Harnessing Natural Killer Cells for Improved Therapeutic Potential
    (2021-08) Kim, Hansol
    Cellular immunotherapy provides durable control for infected and transformed cells. However, current Natural Killer (NK) cell therapy products are limited by effector persistence. To this end, three strategies to improve the efficacy of NK cell-based therapies are discussed. Killer immunoglobulin-like receptors (KIR) are developed during maturation of NK cells. It showed that KIR develops primarily between CD56brightCD94high and CD56dimCD94high stages. Major demethylation activities were observed during the development of KIR at its proximal promoter region. Ascorbic acid showed to facilitate the development of KIR in collaboration with Ten-eleven translocation (TET) enzymes. NK cells with adaptive immunological properties persist and expand in response to cytomegalovirus (CMV) infection. The levels of intracellular metabolites were analyzed and showed that adaptive NK cells have relatively higher levels of metabolites associated with glycolysis, purine, and pyrimidine metabolism. This supports the notion that adaptive NK cells have upregulated metabolic profiles, and have capacity to expand upon reactivation of CMV which is similar to the characteristics of memory T cells. To address challenges associated with inconsistencies of the manufactured product, and treatment cost, we developed a triple gene-edited induced pluripotent stem cell (iPSC) platform for broad patient-based adoptive cell therapy. First edit is to introduce non-cleavable CD16 which prevents reduced efficacy by antibody-dependent cellular cytotoxicity (ADCC). Second edit allows iPSC-derived NK cells, termed iNK, to persist without supplementation of exogenous IL-15 by introducing IL-15 receptor fusion. The last edit was to avoid daratumumab-induced fratricide by knocking out CD38 on the surface of the iNK cells. These engineered iNK cells persisted in vivo without supplementation of exogenous cytokine and could be combined with daratumumab for enhanced treatment of multiple myeloma. The gene-edited iNK cells exhibited metabolic features and gene expression profiles similar to those of adaptive NK cells which has broad off-the-shelf potential for the treatment of advanced cancer.