Expression of the NKG2D ligand UL16 binding protein-1 (ULBP-1) on dendritic cells

Innate and adaptive immunity have not evolved separately. In this regard, the NKG2D molecule first identified on NK cells and classified as an activating NK cell receptor is also an important receptor for CD8(+) T cells. Functional analyses of human NKG2D and its ligands, i.e. UL16 binding proteins (ULBP) and MHC class I chain-related (MIC), have so far focused on immune cell-target cell situations because of the expression of NKG2D ligands on infected, stressed or transformed cells. Here, however, we address a possible function of NKG2D/ULBP-1 during the initiation of T cell responses. ULBP-1 can be detected on mature dendritic cells both in situ in the T cell areas of lymph nodes as well as in vitro after artificial maturation. FCM analysis further demonstrated that although NKG2D is expressed to some degree on all analyzed T cell subsets from peripheral blood, in vitro stimulation of T cells results in up-regulation of NKG2D on proliferating T cells. Using the sentinel lymph nodes of primary melanoma as a model for induction of defined T cell responses in vivo, we were able to demonstrate the expression of NKG2D on melanoma-associated antigen-specific T cells. Thus, our results suggest a role for NGK2D-ULBP-1 in the induction or reactivation of T cell responses.     

NKG2D ligands expression and NKG2D-mediated cytotoxicity in human laryngeal squamous carcinoma cells

The NKG2D is an activating immunoreceptor expressed by NK cells and CD8⁺ T cells. Engagement of NKG2D by its ligands is critical for both innate and adoptive immunity. While the overexpression of NKG2D ligands on certain tumour cells has previously been demonstrated, little is known about NKG2D ligand expression on human laryngeal tumour cells. In this study, we first verified that the interaction between NKG2D and its ligands was critical for NK cell-based immune response to human laryngeal squamous carcinoma cells Hep-2. This NKG2D-mediated effect was observed by transfecting the recombinant eukaryotic expression vector pEGFP-N1/NKG2D as well as the NKG2D blockade. The mRNA and protein expression of NKG2D ligands, MHC class I-related chain molecules A (MICA) and UL16-binding proteins (ULBPs), in human laryngeal carcinoma cell line Hep-2 and fresh tumour tissues were evaluated. Compared with non-tumour tissues of vocal cords polyps, MICA and ULBP-3 were strongly overexpressed on both the human laryngeal carcinoma cell line Hep-2 and fresh human laryngeal carcinoma tissues. The mechanism and impact of NKG2D ligands overexpression on NK cell-mediated anti-laryngeal cancer immune response would require further investigation.     

NKG2D engagement of colorectal cancer-specific T cells strengthens TCR-mediated antigen stimulation and elicits TCR independent anti-tumor activity

The NKG2D receptor is expressed by human NK, gammadelta T and alpha/beta T lymphocytes and its engagement results in the stimulation of effector cells. We evaluated the role of NKG2D receptor in anti-colorectal cancer (CRC) immune response. The cell surface expression of stress-inducible NKG2D ligands MICA/B (MHC class I-related chain molecules A/B) and ULBP (UL16 binding protein) by a panel of CRC lines was evaluated by flow cytometry. MICA and ULBP2/3 were widely expressed by the analyzed lines, with a minority of them being also ULBP-1+, whereas MICB was undetectable. CD8+ and CD4+ HLA-restricted anti-tumor T cell clones of a CRC patient were used to evaluate whether NKG2D engagement could mediate tumor recognition. Three out of four CD8+ T cell clones recognized the autologous tumor with a marginal NKG2D engagement, a finding that was correlated with the weak expression of NKG2D ligands by the autologous tumor. On the contrary, NKG2D triggering of these CD8+ T cell clones induced recognition of allogeneic CRC lines showing high expression of MICA and ULBP. A costimulatory role of NKG2D was observed with one CD4+/NKG2D+ T cell clone when stimulated by tumors sharing the HLA class II alleles and expressing NKG2D ligands. Taken together these data indicate that the engagement of NKG2D, depending on the expression of its ligands by target cells, can influence the pattern of anti-tumor reactivity by T lymphocytes.     

NK cells recognize and lyse Ewing sarcoma cells through NKG2D and DNAM-1 receptor dependent pathways

INTRODUCTION: Ewing sarcoma (EWS) is a malignant bone-associated sarcoma, with poor prognosis in case of metastasis or relapse. To explore the feasibility of natural killer (NK) cell mediated immunotherapy and to identify molecular mechanisms involved, the susceptibility of EWS to NK cells was investigated. METHODS AND RESULTS: All EWS cell lines tested (n=7) were lysed by purified allogeneic NK cells from healthy donors, and the efficacy of lysis was increased by activating NK cells with interleukin-15 (IL-15). FACS analysis and immunohistochemistry revealed that EWS cell lines as well as primary tumor cells expressed ligands for the activating NK cell receptors NKG2D and DNAM-1. NK cell cytotoxicity to EWS cells critically depended on the combination of NKG2D and DNAM-1 signaling, since blocking either of these receptors abrogated lysis by resting NK cells. Cytokine-activated NK cells more efficiently recognized EWS cells, since only combined, but not single blockade of NKG2D and DNAM-1 by antibodies inhibited lysis of EWS cells. Induction or blockade of HLA class I on EWS cells did not significantly influence lysis. This suggests that predominantly activating, rather than inhibitory signals on EWS cells determined susceptibility to NK cell cytotoxicity. NK cell cytotoxicity to EWS cells and K562 was reduced in EWS patients at diagnosis (n=11) compared to age matched controls, despite normal NK cell numbers and increased expression of NKG2D. The impaired function of these NK cells was restored after activation with IL-15 in vitro. CONCLUSION: These results demonstrate that EWS cells are potentially susceptible to NK cell cytotoxicity due to the expression of activating NK cell receptor ligands. The use of cytokine-activated NK cells rather than resting NK cells in immunotherapy may be instrumental to optimize NK cell reactivity to EWS.     

Potentiation of NK cell-mediated cytotoxicity in human lung adenocarcinoma: role of NKG2D-dependent pathway

Natural cytotoxicity receptors and NKG2D correspond to major activating receptors involved in triggering of tumor cell lysis by human NK cells. In this report, we investigated the expression of NKG2D ligands (NKG2DLs), MHC class I-related chain (MIC) A, MICB and UL16-binding proteins 1, 2 and 3, on a panel of human non-small-cell lung carcinoma cell lines, and we analyzed their role in tumor cell susceptibility to NK cell lysis. Although adenocarcinoma (ADC) cells expressed heterogeneous levels of NKG2DLs, they were often resistant to NK cell-mediated killing. Resistance of a selected cell line, ADC-Coco, to allogeneic polyclonal NK cells and autologous NK cell clones correlated with shedding of NKG2DLs resulting from a matrix metalloproteinase (MMP) production. Treatment of ADC-Coco cells with a MMP inhibitor (MMPI) combined with IL-15 stimulation of autologous NK cell clones lead to a potentiation of NK cell-mediated cytotoxicity. This lysis is mainly NKG2D mediated, since it is abrogated by anti-NKG2D-neutralizing mAb. These results suggest that MMPIs, in combination with IL-15, may be useful for overcoming tumor cell escape from the innate immune response.     

Loss of NKG2D in murine NK cells leads to increased perforin production upon long-term stimulation with IL-2

NK cells are innate lymphocytes responsible for lysis of pathogen-infected and transformed cells. One of the major activating receptors required for target cell recognition is the NK group 2D (NKG2D) receptor. Numerous reports show the necessity of NKG2D for effective tumor immune surveillance. Further studies identified NKG2D as a key element allowing tumor immune escape. We here use a mouse model with restricted deletion of NKG2D in mature NKp46⁺ cells (NKG2D^ΔNK). NKG2D^ΔNK NK cells develop normally, have an unaltered IFN-γ production but kill tumor cell lines expressing NKG2D ligands (NKG2DLs) less efficiently. However, upon long-term stimulation with IL-2, NKG2D-deficient NK cells show increased levels of the lytic molecule perforin. Thus, our findings demonstrate a dual function of NKG2D for NK cell cytotoxicity; while NKG2D is a crucial trigger for cytotoxicity of tumor cells expressing activating ligands it is also capable to limit perforin production in IL-2 activated NK cells.     

NKG2D配体的表达直接影响NK细胞对不同发育阶段DC的杀伤

目的:探讨NKG2D配体在不同发育阶段树突状细胞(DC)表面的表达及其对自然杀伤(NK)细胞杀伤活性的影响.方法:用细胞因子(rh IL-4、rhGM-CSF、TNF-α)体外诱导培养单核细胞来源的未成熟树突状细胞(iDC)和成熟树突状细胞(mDC)并鉴定形态和表型,免疫磁珠法分离纯化NK细胞.流式细胞术(FCM)检测iDC和mDC表面NKG2D配体MICA/B、ULBP1-3的表达.用LDH释放法检测NK细胞对iDC和mDC的杀伤活性以及抗NKG2D单克隆抗体(mAb)阻断NK细胞后的杀伤活性.结果:培养的iDC和mDC具有典型的细胞形态和免疫表型特征.iDC表面表达MICA、MICB、ULBP1、ULBP3,表达率分别为(32.39±8.30)%、(17.75±3.40)%、(26.71±6.48)%、(38.37±6.89)%;mDC表面表达MICA 、ULBP3,表达率分别为(7.82±2.67)%、(8.36±2.42)%,比iDC表面相应配体表达率低(P<0.01).各效靶比NK细胞对iDC的杀伤活性均比对mDC的杀伤活性高,差异有统计学意义(P<0.01).抗NKG2D mAb阻断NK细胞后对iDC杀伤活性比阻断前减弱(P<0.05);对mDC的杀伤活性与阻断前相比无统计学意义(P>0.05).结论:NKG2D配体在iDC表面表达高,介导了NK细胞对iDC的杀伤,而对mDC的杀伤无影响,是NK细胞对iDC选择性高杀伤的分子机制之一.     

c‐Cbl regulates MICA‐ but not ULBP2‐induced NKG2D down‐modulation in human NK cells

The NKG2D activating receptor on human NK cells mediates “altered self” recognition, as its ligands (NKG2DLs) are upregulated on target cells in a variety of stress conditions. Evidence collected in the past years shows that, even though expression of NKG2DLs acts as a danger signal that renders tumor cells susceptible to cytotoxicity, chronic exposure to soluble or membrane‐bound NKG2DLs can lead to down‐modulation of receptor expression and impairment of NKG2D‐mediated cell functions. Here, we evaluated whether different cell‐bound NKG2DLs, namely MICA and ULBP2, are equivalently able to induce NKG2D down‐modulation on human NK cells. We found that although both ligands reduce NKG2D surface expression, MICA promotes a stronger receptor down‐modulation than ULBP2, leading to a severe impairment of NKG2D‐dependent NK‐cell cytotoxicity. We also provide evidence that the ubiquitin pathway and c‐Cbl direct MICA‐induced but not ULBP2‐induced NKG2D internalization and degradation, thus identifying a molecular mechanism to explain the differential effects of MICA and ULBP2 on NKG2D expression. A better understanding of the molecular mechanisms employed by the different NKG2DLs to control NKG2D surface expression could be useful for the development of anti‐tumor strategies to restore a normal level of NKG2D receptors on human NK cells.     

The role of the NKG2D immunoreceptor in immune cell activation and natural killing

Little is known concerning the stimulatory receptors responsible for tumor cell lysis by NK cells. We generated a monoclonal antibody specific for murine NKG2D in order to investigate its function. Blocking of NKG2D inhibited natural cytotoxicity of all tumor cells tested that express ligands for the receptor. Staining analysis showed that NKG2D is also expressed by activated CD8(+) T cells and macrophages, and subsets of TCRgammadelta(+) and NK1.1(+) T cells. Contradicting reports that NKG2D is solely a costimulatory receptor, we observed that cross-linking of NKG2D directly stimulates NK cells and activated macrophages. In contrast, NKG2D costimulates activated CD8(+) T cells. Thus, NKG2D engagement directly stimulates NK cells and macrophages, costimulates CD8(+) T cells, and plays a substantial role in natural killing.     

Asymmetric ligand recognition by the activating natural killer cell receptor NKG2D, a symmetric homodimer

Natural killer (NK) cells function through a diverse array of cell-surface natural killer receptors (NCRs). NCRs specific for classical and non-classical MHC class I proteins, expressed in complex patterns of inhibitory and activating isoforms on overlapping, but distinct, subsets of NK cells, play an important role in immunosurveillance against cells that have reduced MHC class I expression as a result of infection or transformation. Another NCR, NKG2D, is an activating NCR first identified on NK cells, but subsequently found on macrophages and a variety of T cell types. NKG2D ligands in rodents include the MHC class I-like proteins RAE-1 and H60 and, in humans, ULBPs and the cell stress-inducible proteins MICA and MICB. NKG2D-MIC and -RAE-1 recognition events have been implicated in anti-viral and -tumor immune responses. Crystallographic analyses of NKG2D-MICA and -RAE-1 complexes reveal an unusual mode of recognition that apparently tolerates a surprising degree of ligand plasticity while generating affinities that are among the strongest TCR- or NCR-ligand affinities, thus, far described.     

Retinoic acid early inducible genes define a ligand family for the activating NKG2D receptor in mice

Here we describe a family of GPI-anchored cell surface proteins that function as ligands for the mouse activating NKG2D receptor. These molecules are encoded by the retinoic acid early inducible (RAE-1) and H60 minor histocompatibility antigen genes on mouse chromosome 10 and show weak homology with MHC class I. Expression of the NKG2D ligands is low or absent on normal, adult tissues; however, they are constitutively expressed on some tumors and upregulated by retinoic acid. Ectopic expression of RAE-1 and H60 confers target susceptibility to NK cell attack. These studies identify a family of ligands for the activating NKG2D receptor on NK and T cells, which may play an important role in innate and adaptive immunity.     

Human Natural Killer cell expression of ULBP2 is associated with a mature functional phenotype

NKG2D is an important activating receptor expressed on NK cells. Ligands (termed NKG2DL) for this receptor include ULBP1-6, MICA and MICB in humans; they are upregulated in stressed, cancerous or infected cells where they engage NKG2D to induce NK cell cytotoxicity and cytokine production.Expression of NKG2DL on effector cells has been described in mice and more recently in human cells. We confirm that NK cell lines and IL-2 stimulated primary human NK cells also express the NKG2DL, ULBP2. However, expression of ULBP2 was not a result of transfer from a non-NK cell to an NK cell and in contrast to recent reports we saw no evidence that ULBP2 expression targeted these NK cells for fratricide or for cytotoxicity by NKG2D-expressing, non-NK effector cells.ULBP2 expression was however linked to expression of mature CD57⁺ NK cells. In particular, expression of ULBP2 was strongest on those NK cells that had evidence of recent activation and proliferation. We suggest that ULBP2 could be used to identify recently activated “mature” NK cells. Defining this phenotype would be useful for understanding the ontogeny on human NK cells.     

UL16 binding proteins

According to present concepts, innate immunity plays an important role in tumor surveillance and immune modulation. The state of NK cells depends on the balance between inhibitory and activating signals from corresponding receptors. As one of the activating receptors, NKG2D recognises some self ligands such as MICA/B in human and Rae1 in mice, which is dissimilar to those toll-like receptors that recognise some pathogen-derived ligands. NKG2D is expressed not only on NK cells, but on gammadelta T cells, CD8+ alphabeta T cells in normal individuals and CD4+ alphabeta T cells in rheumatoid arthritis patients and plays a different role on respective cells. Whereas NKG2D can only function as a costimulatory receptor on CD8+ alphabeta T cells under the domination of alphabeta TCR in spite of a deficiency of costimulatory molecule CD28, NKG2D can directly activate NK cells even in the presence of inhibitory signals from MHC-I and corresponding receptor complexes. Experiments in mice have identified that alternative splicing produces two distinct NKG2D polypeptides that associate differentially with the DAP10 and DAP12 signaling subunits and that differential expression of these isoforms and of signaling proteins determines whether NKG2D only functions as a costimulatory receptor in the adaptive immune system (CD8+ T cells) or as both a primary recognition unit and a costimulatory receptor in the innate immune system (natural killer cells and macrophages). This review summarizes the research achievements in a new ligand family (UL16 binding proteins) of NKG2D in human and shows the possible prospects of ULBP function and application.     

MHC class I chain-related molecules induced on monocytes by IFN-gamma promote NK cell activation

NKG2D receptor-ligand interaction triggers NK cell-mediated cytolysis and IFN-gamma secretion. IFN-gamma produced by NK cells has been found to promote the interaction between NK cells and monocytes; however, the underlying mechanism remains elusive. We demonstrate here that IFN-gamma exclusively induced or upregulated the expression of MHC class I chain-related (MIC) molecules, which are ligands of the NKG2D receptor, on the surface of human monocytes of the PBMC population. The IFN-gamma-induced MIC molecules on monocytes played an essential role in triggering the activation of NK cells because mAb-mediated masking of the MIC molecules and the inhibition of cell-to-cell contact using transwell inserts significantly abolished NK cell activation. Meanwhile, membrane-bound IL-15 (mIL-15) was concomitantly induced with MIC molecules on IFN-gamma-treated monocytes and played an essential role in protecting NK cells cocultured with monocytes from MIC-induced NKG2D down-modulation. Therefore, we conclude that the IFN-gamma-induced MIC molecules participated in monocyte/NK cell interaction and that this interaction also involved mIL-15.     

Palmitoylation of MICA, a ligand for NKG2D, mediates its recruitment to membrane microdomains and promotes its shedding

MICA and MICB (MHC-class-I-related chain A/B) are transmembrane proteins expressed in pathological conditions that are ligands for NKG2D, an activating receptor found on cytotoxic lymphocytes. The recognition on target cells of NKG2D ligands leads to the activation of lysis and cytokine secretion by NK cells and T cells. Besides being expressed at the cell surface, MICA/B can be released as soluble proteins. Soluble NKG2D ligands downmodulate expression of the NKG2D receptor on lymphocytes, leading to a diminished cytotoxic response. Prior studies suggested that recruitment of MICA/B molecules to cholesterol-enriched microdomains was an important factor regulating the proteolytic release of these molecules. We now show that recruitment of MICA to these microdomains depends on palmitoylation of two cysteine residues that allow MICA molecules to reside in the membrane in the same domains as caveolin-1. Compared with WT molecules, nonpalmitoylated mutant MICA molecules were shed to the supernatant with low efficiency; however, both WT and mutant MICA were able to trigger NK cell cytotoxicity. These data suggest that the presence of NKG2D ligands at the plasma membrane is sufficient to activate cytotoxicity and reflect the need of different ligands to exploit different cellular pathways to reach the cell surface upon different stress situations.