Expansion of highly cytotoxic human natural killer cells for cancer cell therapy

H Fujisaki, H Kakuda, N Shimasaki, C Imai, J Ma… - Cancer research, 2009 - AACR
H Fujisaki, H Kakuda, N Shimasaki, C Imai, J Ma, T Lockey, P Eldridge, WH Leung…
Cancer research, 2009AACR
Infusions of natural killer (NK) cells are an emerging tool for cancer immunotherapy. The
development of clinically applicable methods to produce large numbers of fully functional
NK cells is a critical step to maximize the potential of this approach. We determined the
capacity of the leukemia cell line K562 modified to express a membrane-bound form of
interleukin (IL)-15 and 41BB ligand (K562-mb15-41BBL) to generate human NK cells with
enhanced cytotoxicity. Seven-day coculture with irradiated K562-mb15-41BBL induced a …
Abstract
Infusions of natural killer (NK) cells are an emerging tool for cancer immunotherapy. The development of clinically applicable methods to produce large numbers of fully functional NK cells is a critical step to maximize the potential of this approach. We determined the capacity of the leukemia cell line K562 modified to express a membrane-bound form of interleukin (IL)-15 and 41BB ligand (K562-mb15-41BBL) to generate human NK cells with enhanced cytotoxicity. Seven-day coculture with irradiated K562-mb15-41BBL induced a median 21.6-fold expansion of CD56+CD3- NK cells from peripheral blood (range, 5.1- to 86.6-fold; n = 50), which was considerably superior to that produced by stimulation with IL-2, IL-12, IL-15, and/or IL-21 and caused no proliferation of CD3+ lymphocytes. Similar expansions could also be obtained from the peripheral blood of patients with acute leukemia undergoing therapy (n = 11). Comparisons of the gene expression profiles of the expanded NK cells and their unstimulated or IL-2–stimulated counterparts showed marked differences. The expanded NK cells were significantly more potent than unstimulated or IL-2–stimulated NK cells against acute myeloid leukemia cells in vitro. They could be detected for >1 month when injected into immunodeficient mice and could eradicate leukemia in murine models of acute myeloid leukemia. We therefore adapted the K562-mb15-41BBL stimulation method to large-scale clinical-grade conditions, generating large numbers of highly cytotoxic NK cells. The results that we report here provide rationale and practical platform for clinical testing of expanded and activated NK cells for cell therapy of cancer. [Cancer Res 2009;69(9):4010–7]
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