Histidine‐rich glycoprotein augments natural killer cell function by modulating  PD ‐1 expression via  CLEC ‐1B

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Abstract

Augmentation of natural killer ( NK) cell cytotoxicity is one of the greatest challenges for cancer immunotherapy. Although histidine‐rich glycoprotein ( HRG), a 75‐ kDa glycoprotein with various immunomodulatory activities, reportedly elicits antitumor immunity, its effect on NK cell cytotoxicity is unclear. We assessed NK cell cytotoxicity against K562 cells. We also measured concentrations of cytokines and granzyme B in the cell supernatant. The proportion of CD56 ^bright NK cells and NK cell surface PD‐1 expression was assessed with flow cytometry. The neutralizing effects of anti‐C‐type lectin‐like receptor ( CLEC) 1B against HRG were also measured. NK cell morphological changes were analyzed via confocal microscopy. HRG significantly increased NK cell cytotoxicity against K562 cell lines. HRG also increased the release of granzyme B and the proportion of CD56 ^bright NK cells. Further, HRG was able to decrease NK cell surface PD‐1 expression. The effects of HRG on NK cells were reversed with anti‐ CLEC‐1B antibodies. Additionally, we confirmed NK cell nuclear morphology and F‐actin distribution, which are involved in the regulation of cytotoxic granule secretion. Because both PD‐1 and CLEC‐1B are associated with prognosis during malignancy, HRG incorporates these molecules to exert the antitumor immunity role. These facts indicate the potential of HRG to be a new target for cancer immunotherapy.

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The PD-1/PD-L1 axis modulates the natural killer cell versus multiple myeloma effect: a therapeutic target for CT-011, a novel monoclonal anti-PD-1 antibody.

Don Benson, Courtney Bakan, Anjali Mishra … (2010)

T-cell expression of programmed death receptor-1 (PD-1) down-regulates the immune response against malignancy by interacting with cognate ligands (eg, PD-L1) on tumor cells; however, little is known regarding PD-1 and natural killer (NK) cells. NK cells exert cytotoxicity against multiple myeloma (MM), an effect enhanced through novel therapies. We show that NK cells from MM patients express PD-1 whereas normal NK cells do not and confirm PD-L1 on primary MM cells. Engagement of PD-1 with PD-L1 should down-modulate the NK-cell versus MM effect. We demonstrate that CT-011, a novel anti-PD-1 antibody, enhances human NK-cell function against autologous, primary MM cells, seemingly through effects on NK-cell trafficking, immune complex formation with MM cells, and cytotoxicity specifically toward PD-L1(+) MM tumor cells but not normal cells. We show that lenalidomide down-regulates PD-L1 on primary MM cells and may augment CT-011's enhancement of NK-cell function against MM. We demonstrate a role for the PD-1/PD-L1 signaling axis in the NK-cell immune response against MM and a role for CT-011 in enhancing the NK-cell versus MM effect. A phase 2 clinical trial of CT-011 in combination with lenalidomide for patients with MM should be considered.

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HRG inhibits tumor growth and metastasis by inducing macrophage polarization and vessel normalization through downregulation of PlGF.

Charlotte Rolny, Massimiliano Mazzone, Sònia Tugues … (2011)

Polarization of tumor-associated macrophages (TAMs) to a proangiogenic/immune-suppressive (M2-like) phenotype and abnormal, hypoperfused vessels are hallmarks of malignancy, but their molecular basis and interrelationship remains enigmatic. We report that the host-produced histidine-rich glycoprotein (HRG) inhibits tumor growth and metastasis, while improving chemotherapy. By skewing TAM polarization away from the M2- to a tumor-inhibiting M1-like phenotype, HRG promotes antitumor immune responses and vessel normalization, effects known to decrease tumor growth and metastasis and to enhance chemotherapy. Skewing of TAM polarization by HRG relies substantially on downregulation of placental growth factor (PlGF). Besides unveiling an important role for TAM polarization in tumor vessel abnormalization, and its regulation by HRG/PlGF, these findings offer therapeutic opportunities for anticancer and antiangiogenic treatment. Copyright Â© 2011 Elsevier Inc. All rights reserved.

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Activation of NK cell cytotoxicity.

Mark Smyth, Erika Cretney, Janice Kelly … (2005)

Natural killer (NK) cells are innate effector lymphocytes necessary for defence against stressed, microbe-infected, or malignant cells. NK cells kill target cells by either of two major mechanisms that require direct contact between NK cells and target cells. In the first pathway, cytoplasmic granule toxins, predominantly a membrane-disrupting protein known as perforin, and a family of structurally related serine proteases (granzymes) with various substrate specificities, are secreted by exocytosis and together induce apoptosis of the target cell. The granule-exocytosis pathway potently activates cell-death mechanisms that operate through the activation of apoptotic cysteine proteases (caspases), but can also cause cell death in the absence of activated caspases. The second pathway involves the engagement of death receptors (e.g. Fas/CD95) on target cells by their cognate ligands (e.g. FasL) on NK cells, resulting in classical caspase-dependent apoptosis. The comparative role of these pathways in the pathophysiology of many diseases is being dissected by analyses of gene-targeted mice that lack these molecules, and humans who have genetic mutations affecting these pathways. We are also now learning that the effector function of NK cells is controlled by interactions involving specific NK cell receptors and their cognate ligands, either on target cells, or other cells of the immune system. This review will discuss the functional importance of NK cell cytotoxicity and the receptor/ligand interactions that control these processes.

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Author and article information

Contributors

Masahiro Nishibori: mbori@md.okayama-u.ac.jp

Journal

Journal ID (nlm-ta): Pharmacol Res Perspect

Journal ID (iso-abbrev): Pharmacol Res Perspect

Journal ID (doi): 10.1002/(ISSN)2052-1707

Journal ID (publisher-id): PRP2

Title: Pharmacology Research & Perspectives

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Electronic): 2052-1707

Publication date (Electronic): 22 May 2019

Publication date Collection: June 2019

Volume: 7

Issue: 3 ( doiID: 10.1002/prp2.2019.7.issue-3 )

Electronic Location Identifier: e00481

Affiliations

[ ¹ ] Department of Pharmacology Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama Japan

[ ² ] Department of Cell Biology Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama Japan

[ ³ ] Department of General Medicine Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama Japan

Author notes

[*] [* ] Correspondence

Masahiro Nishibori, Department of Pharmacology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, 2‐5‐1 Shikata‐cho, Kita‐ku, Okayama 700‐8558, Japan.

Email: mbori@ 123456md.okayama-u.ac.jp

Author information

Yoshito Nishimura https://orcid.org/0000-0003-0224-7501

Fumio Otsuka https://orcid.org/0000-0001-7014-9095

Article

Publisher ID: PRP2481

DOI: 10.1002/prp2.481

PMC ID: 6531599

SO-VID: b250dc06-c7fa-4f24-9720-49ceab5833d0

Copyright © © 2019 The Authors. Pharmacology Research & Perspectives published by John Wiley & Sons Ltd, British Pharmacological Society and American Society for Pharmacology and Experimental Therapeutics.

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This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 07 December 2018

Date revision received : 25 February 2019

Date accepted : 24 April 2019

Page count

Figures: 7, Tables: 0, Pages: 10, Words: 16530

Funding

Funded by: Japan Society for the Promotion of Science London

Award ID: 17K15580

Funded by: Japan Agency for Medical Research and Development

Award ID: 18im0210109h0002

Funded by: Secom Science and Technology Foundation

Custom metadata

source-schema-version-number 2.0

component-id prp2481

cover-date June 2019

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLMPMC version:5.6.3 mode:remove_FC converted:23.05.2019

Keywords: c‐type lectin‐like receptor,histidine‐rich glycoprotein,natural killer cell,programmed‐death‐1

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Keywords: c‐type lectin‐like receptor, histidine‐rich glycoprotein, natural killer cell, programmed‐death‐1

Histidine‐rich glycoprotein augments natural killer cell function by modulating PD‐1 expression via CLEC‐1B

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Most cited references 48

The PD-1/PD-L1 axis modulates the natural killer cell versus multiple myeloma effect: a therapeutic target for CT-011, a novel monoclonal anti-PD-1 antibody.

HRG inhibits tumor growth and metastasis by inducing macrophage polarization and vessel normalization through downregulation of PlGF.

Activation of NK cell cytotoxicity.

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