Platelets and fibrinogen facilitate each other in protecting tumor cells from natural killer cytotoxicity

Natural killer (NK) and dendritic cells (DCs) are innate immune cells that play a crucial role in anti-tumor immunity. NK cells kill tumor cells through direct cytotoxicity and cytokine secretion. DCs are needed for the activation of adaptive immune responses against tumor cells. Both NK cells and DCs are subdivided in several subsets endowed with specialized effector functions. Crosstalk between NK cells and DCs leads to the reciprocal control of their activation and polarization of immune responses. In this review, we describe the role of NK cells and DCs in liver cancer, focusing on the mechanisms involved in their reciprocal control and activation. In this context, intrahepatic NK cells and DCs present unique immunological features, due to the constant exposure to non-self-circulating antigens. These interactions might play a fundamental role in the pathology of primary liver cancer, namely hepatocellular carcinoma (HCC) and intrahepatic cholangiocarcinoma (ICC). Additionally, the implications of these immune changes are relevant from the perspective of improving the cancer immunotherapy strategies in HCC and ICC patients.

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Natural Killer cells and monoclonal antibodies: Two partners for successful antibody dependent cytotoxicity against tumor cells

Critical Reviews in Oncology/Hematology ◽

10.1016/j.critrevonc.2021.103261 ◽

2021 ◽

Vol 160 ◽

pp. 103261

Author(s):

Mélanie Gauthier ◽

Caroline Laroye ◽

Danièle Bensoussan ◽

Cédric Boura ◽

Véronique Decot

Keyword(s):

Monoclonal Antibodies ◽

Natural Killer Cells ◽

Natural Killer ◽

Tumor Cells ◽

Killer Cells

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Unusual childhood extramedullary hematologic malignancy with natural killer cell properties that contains tropomyosin 4–anaplastic lymphoma kinase gene fusion

Blood ◽

10.1182/blood.v98.4.1209 ◽

2001 ◽

Vol 98 (4) ◽

pp. 1209-1216 ◽

Cited By ~ 65

Author(s):

Sandra J. Meech ◽

Loris McGavran ◽

Lorrie F. Odom ◽

Xiayuan Liang ◽

Lynne Meltesen ◽

...

Keyword(s):

Nk Cells ◽

Natural Killer ◽

Tumor Cells ◽

Functional Properties ◽

Anaplastic Lymphoma Kinase ◽

Clinical Presentation ◽

Hematologic Malignancy ◽

Malignant Cells ◽

Neoplastic Cells ◽

Anaplastic Lymphoma

This report describes an unusual extramedullary hematologic malignancy in an 18-month-old child who presented with a capillary leak syndrome that evolved into hyperleukocytosis with malignant cells. The circulating tumor cells did not express an antigen profile typical of any subtype of leukemia commonly observed in children. Tumor cells were CD3−/CD56+; had germline TCRgenes; and strongly expressed CD30, epithelial membrane antigen, and anaplastic lymphoma kinase (ALK) consistent with a null cell anaplastic large cell lymphoma (ALCL). The malignant cells contained a t(2;19)(p23;p13.1) that interrupted ALK and translocated it to the der(19). Reverse transcriptase-polymerase chain reaction and nucleotide sequence analysis revealed fusion of ALK to tropomyosin 4, an ALK fusion partner not described previously in hematologic malignancies. The clinical presentation and phenotypic features of this malignancy were not typical for ALCL because tumor cells expressed both myeloid (CD13, CD33, HLA-DR) and natural killer (NK) cell antigens. The neoplastic cells most resembled NK cells because in addition to being CD3−/CD56+ with germline TCR genes, these cells were CD25+/CD122+/granzyme B+ and possessed the functional properties of immature NK cells. The unusual clinical presentation, immunophenotype, and functional properties of these neoplastic cells suggest that this malignancy may be derived from the putative myeloid-NK precursor cell. Furthermore co-expression of NK and ALCL features supports the concept that a minority of null-ALCL may be derived from NK cells and expands the spectrum of phenotypes that can be seen in tumors produced by ALK fusion proteins.

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Nucleosome-dependent escape of tumor cells from natural-killer-mediated lysis: nucleosomes are taken up by target cells and act at a postconjugation level

Cancer Immunology Immunotherapy ◽

10.1007/s002620050342 ◽

1997 ◽

Vol 43 (6) ◽

pp. 337-344 ◽

Cited By ~ 8

Author(s):

A.-D. Le Lann-Terrisse ◽

Gilbert Jean Fournié ◽

Hervé Benoist

Keyword(s):

Natural Killer ◽

Tumor Cells ◽

Target Cells

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Central interferon-alpha inhibits natural killer cytotoxicity through sympathetic innervation

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1993.265.2.r453 ◽

1993 ◽

Vol 265 (2) ◽

pp. R453-R459 ◽

Cited By ~ 2

Author(s):

S. Take ◽

T. Mori ◽

T. Katafuchi ◽

T. Hori

Keyword(s):

Natural Killer ◽

Interferon Alpha ◽

Viral Infections ◽

Sympathetic Innervation ◽

Nk Activity ◽

Ifn Alpha ◽

Nk Cytotoxicity ◽

The Brain ◽

Natural Killer Cytotoxicity ◽

Crf System

The brain has been known to produce high levels of interferon-alpha (IFN-alpha) during viral infections. We investigated the central and peripheral mechanisms of the brain IFN-alpha-induced suppression of natural killer (NK) cytotoxicity in the rat. The activity of NK cells in the spleen and the peripheral blood decreased 30-120 min after intracerebroventricular (icv) injection of recombinant human IFN-alpha of > 1,000 U but not after its intraperitoneal injection. This effect was antagonized by pretreatment with icv naltrexone (NLTX). Splenic denervation was observed to completely abolish the IFN-alpha-induced suppression of NK activity, whereas bilateral adrenalectomy did not. Furthermore, this immunosuppression was blocked by an icv injection of an antagonist of corticotropin-releasing factor (CRF), alpha-helical CRF-(9-41). The icv injection of CRF resulted in reduced NK activity, which was not affected by NLTX. The results suggest that brain IFN-alpha activates the CRF system through central opioid receptors and thereby suppresses the NK cytotoxicity predominantly through splenic sympathetic innervation.

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799 Neoantigen-cytokine-chemokine multifunctional natural killer cell engager for immunotherapy of solid tumors

Journal for ImmunoTherapy of Cancer ◽

10.1136/jitc-2021-sitc2021.799 ◽

2021 ◽

Vol 9 (Suppl 3) ◽

pp. A834-A834

Author(s):

Xue Yao ◽

Sandro Matosevic

Keyword(s):

Tumor Microenvironment ◽

Cell Therapy ◽

Nk Cells ◽

Natural Killer ◽

Solid Tumors ◽

Tumor Cells ◽

Nk Cell ◽

Killer Cell ◽

Nk Cell Therapy

BackgroundThe effectiveness of natural killer (NK) cell-based immunotherapy against solid tumors is limited by the lack of specific antigens and the immunosuppressive tumor microenvironment (TME). Glioblastoma multiforme (GBM) is one such heavily immunosuppressive tumor that has been particularly hard to target and remains without a viable treatment. The development of novel approaches to enhance the efficacy of NK cells against GBM is urgently needed. NK cell engagers (NKCE) have been developed to enhance the efficacy of NK cell therapy.MethodsTo improve the clinical efficacy of NK cell therapy, we are developing a new generation of multi-specific killer engagers, which consists of a neoantigen-targeting moiety, together with cytokine and chemokine-producing domains. Neoantigens are new antigens formed specifically in tumor cells due to genome mutations, making them highly specific tools to target tumor cells. Our engager has been designed to target Wilms' tumor-1 (WT-1), a highly specific antigen overexpressed in GBM among other solid tumors. This is done through the generation of an scFv specific targeting the complex of WT-1126-134/HLA-A*02:01 on the surface of GBM. On the NK cell side, the engager is designed to target the activating receptor NKp46. Incorporation of the cytokine IL-15 within the engager supports the maturation, persistence, and expansion of NK cells in vivo while favoring their proliferation and survival in the tumor microenvironment. Additionally, our data indicated that the chemokine CXCL10 plays an important role in the infiltration of NK cells into GBM, however, GBM tumors produce low levels of this chemokine. Incorporation of a CXCL10-producing function into our engager supports intratumoral NK cell trafficking by promoting, through their synthetic production, increased levels of CXCL10 locally in the tumor microenvironment.ResultsCollectively, this has resulted in a novel multifunctional NK cell engager, combining neoantigen-cytokine-chemokine elements fused to an activating domain-specific to NK cells, and we have investigated its ability to support and enhance NK cell-mediated cytotoxicity against solid tumors in vitro and in vivo against patient-derived GBM models. The multi-specific engager shows both high tumor specificity, as well as the ability to overcome NK cell dysfunction encountered in the GBM TME.ConclusionsWe hypothesize that taking advantage of our multi-functional engager, NK cells will exhibit superior ex vivo expansion, infiltration, and antitumor activity in the treatment of GBM and other solid tumors.

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