Expanded CD56superbrightCD16+ NK Cells from Ovarian Cancer Patients Are Cytotoxic against Autologous Tumor in a Patient-Derived Xenograft Murine Model

Poznanski, Sophie M.; Nham, Tina; Chew, Marianne V.; Lee, Amanda; Hammill, Joanne A.; Fan, Isabella Y.; Butcher, Martin; Bramson, Jonathan L.; Lee, Dean A.; Hirte, Hal W.; Ashkar, Ali A.

doi:10.1158/2326-6066.cir-18-0144

Cited by 44 publications

(54 citation statements)

References 33 publications

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“…We initially shared the cell line freely for academic use with over 50 investigators worldwide, until several complications with rights and ownership of the cell line precluded further distribution. The original cell line we described (Clone9.mbIL21) proved very effective in propagating NK cells from peripheral blood of normal donors, patients, and cord blood, and a master cell bank (MCB) with full compendial testing for human clinical use was established to generate NK cells for clinical trials …”

Section: Development Of Il‐21 Feeder Cellsmentioning

confidence: 99%

“…Discrimination of CD56 expression into bright and dim subsets has long been an important tool in identifying NK cell subsets with both maturational (young and old, respectively) and functional (cytokine‐producing vs cytotoxic, respectively) differences. Ex vivo expansion generates postmature, hyperfunctional (cytokine‐producing and cytotoxic) NK cells that are CD56 bright , challenging the reliability of CD56 as a biologic marker.…”

Section: Lessons Learned and Continued Controversiesmentioning

confidence: 99%

“…The original cell line we described (Clone9. mbIL21) proved very effective in propagating NK cells from peripheral blood of normal donors, [65][66][67][68][69] patients, [70][71][72][73] and cord blood, 74,75 and a master cell bank (MCB) with full compendial testing for human clinical use was established to generate NK cells for clinical trials. 69,75,76 Subsequently, and occasionally in response to our inability to continue sharing the cell line, several groups have replicated the findings or identified variations that support our initial findings.…”

Section: De Velopment Of Il-21 Feeder Cell Smentioning

confidence: 99%

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Cellular therapy: Adoptive immunotherapy with expanded natural killer cells

Lee

2019

Immunological Reviews

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Adoptive immunotherapy with natural killer cells was pioneered 30 years ago in human clinical trials with the development of cytokine‐induced killer cells—unfractionated peripheral blood mononuclear cell (PBMC) populations activated overnight with IL‐2. Higher doses were subsequently made possible through the advent of steady‐state apheresis, allowing the collection of PBMC numbers equivalent to an entire adult blood volume, and increased purity made feasible through magnetic CD3‐depletion and/or CD56‐selection methods. Still, these approaches rarely achieved clinical dosing above a single infusion of 108 NK cells/kg, except with substantial donor‐recipient size mismatch (eg, parents donating cells to children). To address this shortcoming, leukemia cell lines with NK cell‐like function or ex vivo expansion approaches centered on the homeostatic cytokine IL‐15 were developed. Here, we describe the development of an ex vivo expansion system based on a feeder cell expressing membrane‐bound IL‐21 that enables log‐phase growth of primary NK cells for many weeks without inducing senescence, and describe the biology, correlative science, and translation to clinical trials for patients with leukemia, brain tumors, and solid tumors.

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Section: Development Of Il‐21 Feeder Cellsmentioning

confidence: 99%

Section: Lessons Learned and Continued Controversiesmentioning

confidence: 99%

Section: De Velopment Of Il-21 Feeder Cell Smentioning

confidence: 99%

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Cellular therapy: Adoptive immunotherapy with expanded natural killer cells

Lee

2019

Immunological Reviews

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“…Indeed, following expansion with K562 feeder cells that express 4-1BBL and membrane-bound (mb)IL-21, the majority of the expanded NK cell population consisted of CD56 superbright cells, again with a combined capacity for high levels of anti-tumor cytokine production and cytotoxicity. 11 In fact, expanded CD56 bright NK cells exhibited greater degranulation in response to tumor targets than expanded CD56 dim NK cells. 11 These recent studies expose a new facet of CD56 bright NK cells as critical cytotoxic effectors.…”

mentioning

confidence: 98%

“…11 In fact, expanded CD56 bright NK cells exhibited greater degranulation in response to tumor targets than expanded CD56 dim NK cells. 11 These recent studies expose a new facet of CD56 bright NK cells as critical cytotoxic effectors.…”

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confidence: 98%

Shining light on the significance of NK cell CD56 brightness

Poznanski

Ashkar

2018

Cell Mol Immunol

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HLA-DR-expressing NK cells: Effective killers suspected for antigen presentation

Erokhina

Streltsova

Kanevskiy

et al. 2020

Journal of Leukocyte Biology

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HLA-DR-expressing cells comprise an intriguing group of NK cells, which combine phenotypic characteristics of both NK cells and dendritic cells. These cells can be found in humans and mice; they are present in blood and tissues in healthy conditions and can expand in a spectrum of pathologies. HLA-DR + NK cells are functionally active: they produce proinflammatory cytokines, degranulate, and easily proliferate in response to stimuli. Additionally, HLA-DR + NK cells seem able to take in and then present certain antigens to CD4 + and CD8 + T cells, inducing their activation and proliferation, which puts them closer to professional antigen-presenting cells. It appears that these NK cells should be considerable players of the innate immune system, both due to their functional activity and regulation of the innate and adaptive immune responses. In this review, for the first time, we provide a detailed description and analysis of the available data characterizing phenotypic, developmental, and functional features of the HLA-DR + NK cells in a healthy condition and a disease. K E Y W O R D S antigen presentation, HLA-DR + NK cells, IFN gamma, MHC class II, NK cell activation 1 INTRODUCTION Human natural killer (NK) cells are the essential agents of the innate immune system, capable of lysing target cells without specific immunization and of regulating immune response by cytokine secretion and cell-to-cell interactions. 1,2 They express an array of activating and inhibitory receptors, which allow them to recognize and efficiently eliminate infected or tumor cells. 3 Recent studies indicate that the repertoire of NK cell receptors demonstrates certain variability, responding to the pro-and anti-inflammatory environment or pathogen type, which enables NK cells to "switch" between different functional states and even acquire features of immunologic memory. 2 A number of surface markers and receptors may appear de novo or Abbreviations: APC, antigen-presenting cell; ART, antiretroviral therapy; CAR, chimeric antigen receptor; DC, dendritic cell; HCMV, human cytomegalovirus; HCV, hepatitis C virus; KIR, killer-cell immunoglobulin-like receptor; MS, multiple sclerosis; NKG2A, natural killer group protein 2 member A; NKG2C, natural killer group protein 2 member C; PBMC, peripheral blood mononuclear cells; SEB, staphylococcal enterotoxin B; SLE, systemic lupus erythematosus; TT, tetanus toxoid. increase the expression level when NK cells get activated in the functional or proliferative way: CD69, CD25, NKp44, CD16, and, among them, HLA-DR-a subtype of MHC class II (MHC II). 4-7 HLA-DR as an activation marker was firstly described for T cells responding to stimulation with various mitogens and antigens or activated in mixed lymphocytic reactions. 8-11 It was shown that HLA-DR appears on the surface of only part of the T lymphocytes and later than all other activation markers (CD69, CD25, CD71). 12 A similar increase in the HLA-DR expression level was detected on NK cells, which were cultivated in the presence of various stimuli o...

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Expanded CD56superbrightCD16+ NK Cells from Ovarian Cancer Patients Are Cytotoxic against Autologous Tumor in a Patient-Derived Xenograft Murine Model

Cited by 44 publications

References 33 publications

Cellular therapy: Adoptive immunotherapy with expanded natural killer cells

Cellular therapy: Adoptive immunotherapy with expanded natural killer cells

Shining light on the significance of NK cell CD56 brightness

HLA-DR-expressing NK cells: Effective killers suspected for antigen presentation

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