Everardo Hegewisch-Solloa scite author profile

Human natural killer (NK) cells in peripheral blood perform many functions, and classification of specific subsets has been a longstanding goal. We report single-cell RNA sequencing of NK cells, comparing gene expression in unstimulated and interleukin (IL)-2–activated cells from healthy cytomegalovirus (CMV)-negative donors. Three NK cell subsets resembled well-described populations; CD56brightCD16−, CD56dimCD16+CD57−, and CD56dimCD16+CD57+. CD56dimCD16+CD57− cells subdivided to include a population with higher chemokine mRNA and increased frequency of killer-cell immunoglobulin-like receptor expression. Three novel human blood NK cell populations were identified: a population of type I interferon–responding NK cells that were CD56neg; a population exhibiting a cytokine-induced memory-like phenotype, including increased granzyme B mRNA in response to IL-2; and finally, a small population, with low ribosomal expression, downregulation of oxidative phosphorylation, and high levels of immediate early response genes indicative of cellular activation. Analysis of CMV+ donors established that CMV altered the proportion of NK cells in each subset, especially an increase in adaptive NK cells, as well as gene regulation within each subset. Together, these data establish an unexpected diversity in blood NK cells and provide a new framework for analyzing NK cell responses in health and disease.

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CD56 regulates human NK cell cytotoxicity through Pyk2

Gunesch

Dixon

Ebrahim

et al. 2020

Preprint

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Natural killer (NK) cells are innate immune cells that control viral infection and tumorigenic cell growth through targeted cell lysis and cytokine secretion. Human NK cells are classically defined as CD56 + CD3 − in peripheral blood. CD56 is neural cell adhesion molecule (NCAM1), and despite its ubiquitous expression on human NK cells, the role of CD56 in human NK cell cytotoxic function has not been fully explored. In non-immune cells, NCAM can induce signaling, mediate adhesion, and promote exocytosis, in part through interactions with focal adhesion kinase (FAK). Here we describe the generation and use of CD56-deficient human NK cell lines to define a novel requirement for CD56 in target cell lysis. Namely, we demonstrate that deletion of CD56 on the NK92 cell line led to impaired cytotoxic function against multiple susceptible target cell lines. Deletion of CD56 in a second NK cell line, YTS cells, led to a less severe cytotoxicity defect but impairment in cytokine secretion. Confocal microscopy of wild-type and CD56-KO NK92 cells conjugated to susceptible targets revealed that CD56-KO cells failed to polarize during immunological synapse (IS) formation and had severely impaired exocytosis of lytic granules at the IS. Phosphorylation of the FAK family member Pyk2 at tyrosine 402 was decreased in NK92 CD56-KO cells, demonstrating a functional link between CD56 and IS formation and signaling in human NK cells. Cytotoxicity, lytic granule exocytosis, and the phosphorylation of Pyk2 were rescued by the reintroduction of NCAM140 (CD56), into NK92 CD56-KO cells. These data highlight a novel functional role for CD56 in stimulating exocytosis and promoting cytotoxicity in human NK cells. cytotoxicity | natural killer cell | NCAM | CD56 Correspondence: em3375@cumc.columbia.edu 2 | bioRχiv Mace et al. | CD56 and human NK cell cytotoxicity

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NKG2A and HLA-E define an alternative immune checkpoint axis in bladder cancer

et al. 2022

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CD56 regulates human NK cell cytotoxicity through Pyk2

Gunesch

Dixon

Ebrahim

et al. 2020

View full text Add to dashboard Cite

Human natural killer (NK) cells are defined as CD56+CD3−. Despite its ubiquitous expression on human NK cells the role of CD56 (NCAM) in human NK cell cytotoxic function has not been defined. In non-immune cells, NCAM can induce signaling, mediate adhesion, and promote exocytosis through interactions with focal adhesion kinase (FAK). Here we demonstrate that deletion of CD56 on the NK92 cell line leads to impaired cytotoxic function. CD56-knockout (KO) cells fail to polarize during immunological synapse (IS) formation and have severely impaired exocytosis of lytic granules. Phosphorylation of the FAK family member Pyk2 at tyrosine 402 is decreased in NK92 CD56-KO cells, demonstrating a functional link between CD56 and signaling in human NK cells. Cytotoxicity, lytic granule exocytosis, and the phosphorylation of Pyk2 are rescued by the reintroduction of CD56. These data highlight a novel functional role for CD56 in stimulating exocytosis and promoting cytotoxicity in human NK cells.

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Generation of cell-derived matrices that support human NK cell migration and differentiation

Lee

Hegewisch-Solloa

Shannon

et al. 2020

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Human NK cells are effectors of the innate immune system that originate from hematopoietic precursors in the bone marrow. While stromal cell lines that support NK cell development from hematopoietic precursors are often used to generate mature NK cells from lymphoid precursors in vitro, the nature of contributing factors of these stromal cells to the generation of functionally mature NK cells has been poorly described. Previous studies have shown that developing NK cells adhere to, and migrate on, developmentally supportive stroma. Here, we describe the generation of cell-derived matrices (CDMs) from a commonly used murine fetal liver stromal cell line. These CDMs are derived directly from the same EL08.1D2 stromal cell line known to support NK cell differentiation and contain ECM structural components fibronectin and collagen. We demonstrate that CDMs support NK cell adhesion and migration with similar properties as intact cells. Further, we show that CDMs support NK cell maturation from lymphoid precursors in vitro, albeit with reduced cell survival compared to intact cell-based differentiation. Together, these results describe a cell-free system that supports NK cell development and that can serve as a useful model for studying the nature of the biochemical interactions between NK cell developmental intermediates and developmentally supportive substrates.

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