Venetoclax enhances NK cell killing sensitivity of AML cells through the NKG2D/NKG2DL activation pathway

Abstract INTRODUCTION Glioblastoma multiforme (GBM) is the most common primary central nervous system malignancy associated with a 12-15 month survival after surgery and radio-chemotherapy. Utilizing adoptive cellular immunotherapy using natural killer (NK) cells has developed over the past two decades for a variety of hematologic malignancies. This approach in solid malignancies is limited by questions of cell dose versus tumor burden, insufficient tumor infiltration, and a tumor microenvironment that suppresses NK cell function. METHODS We isolated NK cells from healthy volunteers and activated them using IL-2, -15, -12, -18, then perform cytotoxic assays in the presence of glioma stem cells. We also tested the efficacy of the NK cells with intracranial delivery in a pre-clinical murine model of glioma. We tested various concentrations of IL-2 and IL-15 on the cytokine culture platform. RESULTS In this study, we demonstrate human NK cells, activated using a cytokine cocktail of interleukins-2, -15, -12, and -18, exert strong cytotoxic events against glioma cell lines. To further examine the efficacy of activated NK cells in vitro, we utilized intracranially xenografted glioma lines and demonstrated a survival benefit with tumor bed injections of these cytokine-activated NK cells (p=0.0089). We were able to confirm that NK cells cultured with low doses (200u IL2; 50ng/ml IL15) of both cytokines are just as effective as higher doses. This is important, as in vivoexhaustion of NK cells stimulated with high doses of either cytokine has been well validated. We also found that low-dose irradiation (4Gy) of glioma cells prior to co-culture with cytokine-activated NK cells promoted increased targeted glioma cell killing within 4 hours(32% cell killing). CONCLUSIONS These findings suggest that in a clinical study, injection of cytokine-activated NK cells into the glioblastoma tumor bed could be used as adjuvant treatment following either stereotactic radiation or surgical resection.

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Enhancing network activation in natural killer cells: predictions from in silico modeling

Integrative Biology ◽

10.1093/intbio/zyaa008 ◽

2020 ◽

Vol 12 (5) ◽

pp. 109-121

Author(s):

Sahak Z Makaryan ◽

Stacey D Finley

Keyword(s):

Nk Cells ◽

Natural Killer ◽

In Silico ◽

Intracellular Signaling ◽

Cell Activation ◽

Nk Cell ◽

Mechanistic Model ◽

Cell Killing ◽

Published Data ◽

Network Activation

Abstract Natural killer (NK) cells are part of the innate immune system and are capable of killing diseased cells. As a result, NK cells are being used for adoptive cell therapies for cancer patients. The activation of NK cell stimulatory receptors leads to a cascade of intracellular phosphorylation reactions, which activates key signaling species that facilitate the secretion of cytolytic molecules required for cell killing. Strategies that maximize the activation of such intracellular species can increase the likelihood of NK cell killing upon contact with a cancer cell and thereby improve efficacy of NK cell-based therapies. However, due to the complexity of intracellular signaling, it is difficult to deduce a priori which strategies can enhance species activation. Therefore, we constructed a mechanistic model of the CD16, 2B4 and NKG2D signaling pathways in NK cells to simulate strategies that enhance signaling. The model predictions were fit to published data and validated with a separate dataset. Model simulations demonstrate strong network activation when the CD16 pathway is stimulated. The magnitude of species activation is most sensitive to the receptor’s initial concentration and the rate at which the receptor is activated. Co-stimulation of CD16 and NKG2D in silico required fewer ligands to achieve half-maximal activation than other combinations, suggesting co-stimulating these pathways is most effective in activating the species. We applied the model to predict the effects of perturbing the signaling network and found two strategies that can potently enhance network activation. When the availability of ligands is low, it is more influential to engineer NK cell receptors that are resistant to proteolytic cleavage. In contrast, for high ligand concentrations, inhibiting phosphatase activity leads to sustained species activation. The work presented here establishes a framework for understanding the complex, nonlinear aspects of NK cell signaling and provides detailed strategies for enhancing NK cell activation.

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Contact Inhibition Causes Strong Downregulation of Expression of MICA in Human Fibroblasts and Decreased NK Cell Killing

Human Immunology ◽

10.1016/j.humimm.2006.02.018 ◽

2006 ◽

Vol 67 (3) ◽

pp. 183-187 ◽

Cited By ~ 13

Author(s):

Yizhou Zou ◽

Fariba Mirbaha ◽

Peter Stastny

Keyword(s):

Nk Cell ◽

Human Fibroblasts ◽

Cell Killing ◽

Contact Inhibition

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Abstract 3767: Imprime PGG, a soluble yeast b-glucan PAMP, enhancement of anti-tumor responses in combination with tumor targeting antibody is highly dependent on NK cell killing

10.1158/1538-7445.am2018-3767 ◽

2018 ◽

Author(s):

Kathryn A. Fraser ◽

Takashi Kangas ◽

Ross B. Fulton ◽

Steven M. Leonardo ◽

Ben Harrison ◽

...

Keyword(s):

Tumor Targeting ◽

Nk Cell ◽

Cell Killing

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Abstract 4977: Dynamic transcriptional programs controlling single NK cell killing dynamics

10.1158/1538-7445.am2019-4977 ◽

2019 ◽

Author(s):

Matthew S. Hall ◽

Joseph T. Decker ◽

Emanuelle I. Grody ◽

Rachel B. Blaisdell ◽

Jacqueline S. Jeruss ◽

...

Keyword(s):

Nk Cell ◽

Cell Killing

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Abstract 4977: Dynamic transcriptional programs controlling single NK cell killing dynamics

10.1158/1538-7445.sabcs18-4977 ◽

2019 ◽

Author(s):

Matthew S. Hall ◽

Joseph T. Decker ◽

Emanuelle I. Grody ◽

Rachel B. Blaisdell ◽

Jacqueline S. Jeruss ◽

...

Keyword(s):

Nk Cell ◽

Cell Killing

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Natural killer (NK) cell activation, cytokine production, and cytotoxicity in human PBMC/myeloma cell co-culture exposed to elotuzumab (Elo) alone or in combination with lenalidomide (Len).

Journal of Clinical Oncology ◽

10.1200/jco.2012.30.15_suppl.8087 ◽

2012 ◽

Vol 30 (15_suppl) ◽

pp. 8087-8087 ◽

Cited By ~ 2

Author(s):

Balaji Balasa ◽

Rui Yun ◽

Nicole Belmar ◽

Gary Starling ◽

Audie Rice

Keyword(s):

Nk Cells ◽

Cell Activation ◽

Nk Cell ◽

Myeloma Cell ◽

Cell Killing ◽

Cell Counting ◽

Target Cells ◽

Human Pbmc ◽

Myeloma Cells ◽

Ifn Γ

8087 Background: Elo is a monoclonal IgG1 antibody targeting CS1, a cell surface glycoprotein highly expressed on >95% of myeloma cells. In preclinical models Elo exerts anti-myeloma activity via NK cell-mediated antibody-dependent cellular cytotoxicity. Len is an immunomodulatory agent that may activate NK cells. The combination of Elo + Len synergistically enhanced anti-tumor activity in myeloma xenograft models. We investigated the mechanism of enhancing NK cell activation and myeloma cell killing with Elo + Len. Methods: Human PBMC/OPM-2 co-cultures were treated for 24-72h with Elo, Len, or Elo + Len. Activation markers and adhesion receptors were evaluated by flow cytometry. Cytokines were measured by Luminex and ELISpot assays. Cytotoxicity was assessed by cell counting. Results: Elo + Len increased IFN-γ secretion significantly more than Elo or Len alone. IFN-γ elevates ICAM-1 expression, and ICAM-1 surface expression on OPM-2 target cells increased synergistically with Elo + Len. Elo, Elo + Len but not Len increased expression of CD25 (IL-2Rα) on NK cells. Len increased the levels of IL-2, but those were decreased in the presence of Elo due to increased consumption by CD25 expressing NK cells. Blocking uptake of IL-2 with anti-CD25 resulted in higher IL-2 levels than with Len. ELISpot assays confirmed that Elo + Len significantly increased the number of IL-2-producing cell colonies compared with Elo or Len. Elo induced NK dependent myeloma cell killing, and the effect was significantly higher with Elo + Len. Conclusions: Elo alone activated NK cells and mediated the killing of myeloma cells in PBMC/OPM-2 co-cultures. Elo + Len synergistically enhanced myeloma cell killing and increased expression/production of IFN-γ, ICAM-1, IL-2, and CD25. [Table: see text]

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