Lenalidomide overcomes suppression of human natural killer cell anti-tumor functions by neuroblastoma microenvironment-associated IL-6 and TGF[beta]1

Treatment for children with high-risk neuroblastoma with anti-disialoganglioside mAb ch14.18, IL-2, and GM-CSF plus 13-cis-retinoic acid after myeloablative chemotherapy improves survival, but 40 % of patients still relapse during or after this therapy. The microenvironment of high-risk neuroblastom...

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Veröffentlicht in:	Cancer immunology, immunotherapy immunotherapy, 2013-10, Vol.62 (10), p.1637
Hauptverfasser:	Xu, Yibing, Sun, Jianping, Sheard, Michael A, Tran, Hung C, Wan, Zesheng, Liu, Wei Yao, Asgharzadeh, Shahab, Sposto, Richard, Wu, Hong Wei, Seeger, Robert C
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Schlagworte:	Antibodies Cancer therapies Cells Cytokines Cytotoxicity Immunotherapy Leukemia Lymphoma Neuroblastoma Tumors
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container_title	Cancer immunology, immunotherapy
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creator	Xu, Yibing Sun, Jianping Sheard, Michael A Tran, Hung C Wan, Zesheng Liu, Wei Yao Asgharzadeh, Shahab Sposto, Richard Wu, Hong Wei Seeger, Robert C
description	Treatment for children with high-risk neuroblastoma with anti-disialoganglioside mAb ch14.18, IL-2, and GM-CSF plus 13-cis-retinoic acid after myeloablative chemotherapy improves survival, but 40 % of patients still relapse during or after this therapy. The microenvironment of high-risk neuroblastoma tumors includes macrophages, IL-6, and TGF[beta]1. We hypothesized that this microenvironment suppresses anti-tumor functions of natural killer (NK) cells and that lenalidomide, an immune-modulating drug, could overcome suppression. Purified NK cells were cultured with IL-2, neuroblastoma/monocyte-conditioned culture medium (CM), IL-6, TGF[beta]1, and lenalidomide in various combinations and then characterized using cytotoxicity (direct and antibody-dependent cell-mediated cytotoxicity), cytokine, flow cytometry, and Western blotting assays. Anti-tumor activity of NK cells with lenalidomide, ch14.18, or both was evaluated with a xenograft model of neuroblastoma. CM from neuroblastoma/monocyte co-cultures contains IL-6 and TGF[beta]1 that suppress IL-2 activation of NK cell cytotoxicity and IFNγ secretion. IL-6 and TGF[beta]1 activate the STAT3 and SMAD2/3 pathways in NK cells and suppress IL-2 induction of cytotoxicity, granzymes A and B release, perforin expression, and IFNγ secretion. Lenalidomide blocks IL-6 and TGF[beta]1 activation of these signaling pathways and inhibits their suppression of NK cells. Neuroblastoma cells in NOD/SCID mice exhibit activated STAT3 and SMAD2/3 pathways. Their growth is most effectively inhibited by co-injected peripheral blood mononuclear cells (PBMC) containing NK cells when mice are treated with both ch14.18 and lenalidomide. Immunotherapy with anti-tumor cell antibodies may be improved by lenalidomide, which enhances activation of NK cells and inhibits their suppression by IL-6 and TGF[beta]1.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s00262-013-1466-y
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The microenvironment of high-risk neuroblastoma tumors includes macrophages, IL-6, and TGF[beta]1. We hypothesized that this microenvironment suppresses anti-tumor functions of natural killer (NK) cells and that lenalidomide, an immune-modulating drug, could overcome suppression. Purified NK cells were cultured with IL-2, neuroblastoma/monocyte-conditioned culture medium (CM), IL-6, TGF[beta]1, and lenalidomide in various combinations and then characterized using cytotoxicity (direct and antibody-dependent cell-mediated cytotoxicity), cytokine, flow cytometry, and Western blotting assays. Anti-tumor activity of NK cells with lenalidomide, ch14.18, or both was evaluated with a xenograft model of neuroblastoma. CM from neuroblastoma/monocyte co-cultures contains IL-6 and TGF[beta]1 that suppress IL-2 activation of NK cell cytotoxicity and IFNγ secretion. IL-6 and TGF[beta]1 activate the STAT3 and SMAD2/3 pathways in NK cells and suppress IL-2 induction of cytotoxicity, granzymes A and B release, perforin expression, and IFNγ secretion. Lenalidomide blocks IL-6 and TGF[beta]1 activation of these signaling pathways and inhibits their suppression of NK cells. Neuroblastoma cells in NOD/SCID mice exhibit activated STAT3 and SMAD2/3 pathways. Their growth is most effectively inhibited by co-injected peripheral blood mononuclear cells (PBMC) containing NK cells when mice are treated with both ch14.18 and lenalidomide. 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The microenvironment of high-risk neuroblastoma tumors includes macrophages, IL-6, and TGF[beta]1. We hypothesized that this microenvironment suppresses anti-tumor functions of natural killer (NK) cells and that lenalidomide, an immune-modulating drug, could overcome suppression. Purified NK cells were cultured with IL-2, neuroblastoma/monocyte-conditioned culture medium (CM), IL-6, TGF[beta]1, and lenalidomide in various combinations and then characterized using cytotoxicity (direct and antibody-dependent cell-mediated cytotoxicity), cytokine, flow cytometry, and Western blotting assays. Anti-tumor activity of NK cells with lenalidomide, ch14.18, or both was evaluated with a xenograft model of neuroblastoma. CM from neuroblastoma/monocyte co-cultures contains IL-6 and TGF[beta]1 that suppress IL-2 activation of NK cell cytotoxicity and IFNγ secretion. 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subjects	Antibodies Cancer therapies Cells Cytokines Cytotoxicity Immunotherapy Leukemia Lymphoma Neuroblastoma Tumors
title	Lenalidomide overcomes suppression of human natural killer cell anti-tumor functions by neuroblastoma microenvironment-associated IL-6 and TGF[beta]1
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