Ofer Mandelboim scite author profile

Human CD56(bright) NK cells accumulate in the maternal decidua during pregnancy and are found in direct contact with fetal trophoblasts. Several mechanisms have been proposed to explain the inability of NK cells to kill the semiallogeneic fetal cells. However, the actual functions of decidual NK (dNK) cells during pregnancy are mostly unknown. Here we show that dNK cells, but not peripheral blood-derived NK subsets, regulate trophoblast invasion both in vitro and in vivo by production of the interleukin-8 and interferon-inducible protein-10 chemokines. Furthermore, dNK cells are potent secretors of an array of angiogenic factors and induce vascular growth in the decidua. Notably, such functions are regulated by specific interactions between dNK-activating and dNK-inhibitory receptors and their ligands, uniquely expressed at the fetal-maternal interface. The overall results support a 'peaceful' model for reproductive immunology, in which elements of innate immunity have been incorporated in a constructive manner to support reproductive tissue development.

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Microbial Flora Drives Interleukin 22 Production in Intestinal NKp46+ Cells that Provide Innate Mucosal Immune Defense

Satoh-Takayama

et al. 2008

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Natural killer (NK) cells are innate lymphocytes with spontaneous antitumor activity, and they produce interferon-gamma (IFN-gamma) that primes immune responses. Whereas T helper cell subsets differentiate from naive T cells via specific transcription factors, evidence for NK cell diversification is limited. In this report, we characterized intestinal lymphocytes expressing the NK cell natural cytotoxicity receptor NKp46. Gut NKp46+ cells were distinguished from classical NK cells by limited IFN-gamma production and absence of perforin, whereas several subsets expressed the nuclear hormone receptor retinoic acid receptor-related orphan receptor t (RORgammat) and interleukin-22 (IL-22). Intestinal NKp46+IL-22+ cells were generated via a local process that was conditioned by commensal bacteria and required RORgammat. Mice lacking IL-22-producing NKp46+ cells showed heightened susceptibility to the pathogen Citrobacter rodentium, consistent with a role for intestinal NKp46+ cells in immune protection. RORgammat-driven diversification of intestinal NKp46+ cells thereby specifies an innate cellular defense mechanism that operates at mucosal surfaces.

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Recognition of haemagglutinins on virus-infected cells by NKp46 activates lysis by human NK cells

Mandelboim

Lieberman

Lev

et al. 2001

Nature

842

798

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Natural killer (NK) cells destroy virus-infected and tumour cells, apparently without the need for previous antigen stimulation. In part, target cells are recognized by their diminished expression of major histocompatibility complex (MHC) class I molecules, which normally interact with inhibitory receptors on the NK cell surface. NK cells also express triggering receptors that are specific for non-MHC ligands; but the nature of the ligands recognized on target cells is undefined. NKp46 is thought to be the main activating receptor for human NK cells. Here we show that a soluble NKp46-immunoglobulin fusion protein binds to both the haemagglutinin of influenza virus and the haemagglutinin-neuraminidase of parainfluenza virus. In a substantial subset of NK cells, recognition by NKp46 is required to lyse cells expressing the corresponding viral glycoproteins. The binding requires the sialylation of NKp46 oligosaccharides, which is consistent with the known sialic binding capacity of the viral glycoproteins. These findings indicate how NKp46-expressing NK cells may recognize target cells infected by influenza or parainfluenza without the decreased expression of target-cell MHC class I protein.

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Binding of the Fap2 Protein of Fusobacterium nucleatum to Human Inhibitory Receptor TIGIT Protects Tumors from Immune Cell Attack

Gur¹,

et al. 2015

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SUMMARY Bacteria, such as Fusobacterium nucleatum, are present in the tumor microenvironment. However, the immunological consequences of intra-tumoral bacteria remain unclear. Here, we have shown that natural killer (NK) cell killing of various tumors is inhibited in the presence of various F. nucleatum strains. Our data support that this F. nucleatum-mediated inhibition is mediated by human, but not by mouse TIGIT, an inhibitory receptor present on all human NK cells and on various T cells. Using a library of F. nucleatum mutants, we found that the Fap2 protein of F. nucleatum directly interacted with TIGIT, leading to the inhibition of NK cell cytotoxicity. We have further demonstrated that tumor-infiltrating lymphocytes expressed TIGIT and that T cell activities were also inhibited by F. nucleatum via Fap2. Our results identify a bacterium-dependent, tumor-immune evasion mechanism in which tumors exploit the Fap2 protein of F. nucleatum to inhibit immune cell activity via TIGIT.

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The interaction of TIGIT with PVR and PVRL2 inhibits human NK cell cytotoxicity

Stanietsky

Šimić

Arapović

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

1,301

746

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NK cell cytotoxicity is controlled by numerous NK inhibitory and activating receptors. Most of the inhibitory receptors bind MHC class I proteins and are expressed in a variegated fashion. It was recently shown that TIGIT, a new protein expressed by T and NK cells binds to PVR and PVR-like receptors and inhibits T cell activity indirectly through the manipulation of DC activity. Here, we show that TIGIT is expressed by all human NK cells, that it binds PVR and PVRL2 but not PVRL3 and that it inhibits NK cytotoxicity directly through its ITIM. Finally, we show that TIGIT counter inhibits the NK-mediated killing of tumor cells and protects normal cells from NK-mediated cytoxicity thus providing an ''alternative self'' mechanism for MHC class I inhibition.inhibitory receptors ͉ natural killers I n contrast to T cells, that possess a single dominant antigen receptor (1), NK cells rely on a vast combinatorial array of receptors to initiate effector functions (2). Both activating and inhibitory receptors expressed on NK cells regulate their activity when interacting with tumors, virus infected cells and bacteria, as well as normal self-cells (2). MHC class I-expressing cells are protected from NK-mediated lysis due to the recognition of various MHC class I proteins by the inhibitory receptors KIR, LIR and CD94-NKG2A (3). Other NK inhibitory receptors which do not interact with MHC class I also exist, such as CEACAM1 and IRp60 (4-8). The significance, however, of these non-MHC class I inhibitory receptors in normal conditions is still unclear. All of the inhibitory receptors share a common immune receptor tyrosinebased inhibitory motif (ITIM) in their cytoplasmic regions, which delivers the inhibitory signal (3).The NK cell-mediated killing is extracted by specific receptors, among which are the natural cytotoxicity receptors (NCRs), which include the NKp30 that interacts with pp65 of human cytomegalovirus (CMV), BAT3 and the recently identified B7-family member B7-H6 (9-11), and the NKp46/NKp44 receptors, which interact with various viral hemagglutinins (12, 13). The NKG2D receptor interacts with MICA, MICB and ULBP 1-5 (14) and NKp80 interacts with AICL (15). In addition, two other receptors, DNAM-1 and CD96, enhance NK cytotoxicity (16,17). Both DNAM-1 and CD96 recognize PVR (CD155), whereas DNAM-1 also recognizes PVRL2 (CD112) (16,17). It was recently shown that a new receptor, named TIGIT, for T cell Ig and ITIM domain, interacts with PVR and its related proteins and that TIGIT inhibits T cell activity indirectly through the manipulation of DC activity (18). Here, we show that TIGIT, through its ITIM, can directly inhibit NK cytotoxicity. ResultsTIGIT Inhibits YTS Killing Through Its ITIM Motif. While searching for new CD28 family-like receptors, based on bioinformatics analysis, we observed that a protein named VSIG9 or VSTM3 in the databases expresses an ITIM motif. We continued to work on this protein and found that it interacts with PVR (CD155) but not with any other NK ligands tested (supporting information (...

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Ofer Mandelboim

Decidual NK cells regulate key developmental processes at the human fetal-maternal interface

Microbial Flora Drives Interleukin 22 Production in Intestinal NKp46+ Cells that Provide Innate Mucosal Immune Defense

Recognition of haemagglutinins on virus-infected cells by NKp46 activates lysis by human NK cells

Binding of the Fap2 Protein of Fusobacterium nucleatum to Human Inhibitory Receptor TIGIT Protects Tumors from Immune Cell Attack

The interaction of TIGIT with PVR and PVRL2 inhibits human NK cell cytotoxicity

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