技术资料

Priming of human NK cells with IL-2 is necessary to render them functionally competent upon NKG2D engagement. We examined the underlying mechanisms that control NKG2D responsiveness in NK cells and found that IL-2 upregulates expression of the amino acid transporters SLC1A5 and CD98. Using specific inhibitors to block SLC1A5 and CD98 function,we found that production of IFN-γ and degranulation by CD56bright and CD56dim NK cells following NKG2D stimulation were dependent on both transporters. IL-2 priming increased the activity of mTORC1,and inhibition of mTORC1 abrogated the ability of the IL-2-primed NK cells to produce IFN-γ in response to NKG2D-mediated stimulation. This study identifies a series of IL-2-induced cellular changes that regulates the NKG2D responsiveness in human NK cells. View Publication

The ability of hematopoietic stem cells (HSCs) to undergo self-renewal is partly regulated by external signals originating from the stem cell niche. Our previous studies with HSCs obtained from fetal liver of mice deficient for the calcium-sensing receptor (CaR) have shown the crucial role of this receptor in HSC lodgment and engraftment in the bone marrow (BM) endosteal niche. Using a CaR agonist,Cinacalcet,we assessed the effects of stimulating the CaR on the function of murine HSCs. Our results show that CaR stimulation increases primitive hematopoietic cell activity in vitro,including growth in stromal cell cocultures,adhesion to extracellular matrix molecules such as collagen I and fibronectin,and migration toward the chemotactic stimulus,stromal cell-derived factor 1α. Receptor stimulation also led to augmented in vivo homing,CXCR4-mediated lodgment at the endosteal niche,and engraftment capabilities. These mechanisms by which stimulating the CaR dictates preferential localization of HSCs in the BM endosteal niche provide additional insights into the fundamental interrelationship between the stem cell and its niche. These studies also have implications in the area of clinical stem cell transplantation,where ex vivo modulation of the CaR may be envisioned as a strategy to enhance HSC engraftment in the BM. View Publication

Although the importance of natural killer (NK) cells in innate immune responses against tumors or viral infections are well documented,their ability to directly recognize pathogens is less well defined. We have recently reported FimH,a bacterial fimbrial protein,as a novel Toll-like receptor (TLR)4 ligand that potently induces antiviral responses. Here,we investigated whether FimH either directly or indirectly can activate human and murine NK cells. We demonstrate that FimH potently activates both human and murine NK cells in vitro to induce cytokines [interferon (IFN)-gamma and tumor necrosis factor (TNF)-alpha] and cytotoxicity. Importantly,NK cells directly recognize FimH-expressing pathogens as FimH(+),but not FimH(-),bacteria were able to activate human NK cells. FimH activation of NK cells required TLR4 and MyD88 signaling,as NK cells from both TLR4(-/-) and MyD88(-/-) mice as well as human NK-92 cells,which lack TLR4,were all unresponsive to FimH. In addition,TLR4 neutralization significantly abrogated the response of human NK cells to FimH. Activation of purified NK cells by FimH was independent of lipopolysaccharide (LPS) or other bacterial contaminations. These data demonstrate for the first time that highly purified NK cells directly recognize and respond to FimH via TLR4-MyD88 pathways to aid innate protection against cancer or microbial infections. View Publication

The ability of NK cells to directly recognize pathogens and be activated via Toll-like receptors (TLR) is increasingly recognized. Nevertheless,controversial results on the NK cell ability to be directly activated by lipopolysaccharide (LPS),the ligand of TLR4,have been recently reported. To start elucidating the reasons explaining the contrasting observations of the literature,we focused on the potential role of currently used NK cell purification procedures to condition putative NK cell responsiveness to LPS. To do so,human NK cells were isolated by negative selection,using three different commercial kits,to be comparatively evaluated for the production of IFNgamma in response to ultra-pure LPS and/or IL-2. Despite the lack of surface TLR4,we found that two out of the three NK cell-enriched populations released IFNgamma (and one of the two,IL-12p70 as well) in response to the LPS plus IL-2 combination,whereas the last one did not. However,the two LPS plus IL-2-responsive NK cell populations were found variably contaminated with 6-sulfo LacNAc(+) dendritic cells (slanDC),demonstrated responsible for triggering,via the production of IL-12p70 in response to LPS,the release of IFNgamma by IL-2-stimulated NK cells. Accordingly,slanDC depletion completely abrogated the capacity to produce both IL-12p70 and IFNgamma in response to LPS plus IL-2 by slanDC-containing NK cells. Taken together,our data uncover that two commercially available kits,specifically designed to isolate NK cells by negative selection,also co-purify variable amounts of slanDC. The latter cells may dramatically affect the outcome of experiments carried on to evaluate NK cell responsiveness to TLR agonists such as LPS. View Publication

Accumulating evidence suggests elements within tumors induce exhaustion of effector T cells and infiltration of immunosuppressive regulatory T cells (Tregs),thus preventing the development of durable antitumor immunity. Therefore,the discovery of agents that simultaneously block Treg suppressive function and reinvigorate effector function of lymphocytes is key to the development of effective cancer immunotherapy. Previous studies have shown that TLR ligands (TLRLs) could modulate the function of these T cell targets; however,those studies relied on cell-free or accessory cell-based assay systems that do not accurately reflect in vivo responses. In contrast,we used a human PBMC-based proliferation assay system to simultaneously monitor the effect of TLRLs on T cells (CD4(+),CD8(+),Tregs),B cells,and NK cells,which gave different and even conflicting results. We found that the TLR7/8L:CL097 could simultaneously activate CD8(+) T cells,B cells,and NK cells plus block Treg suppression of T cells and B cells. The TLRLs TLR1/2L:Pam3CSK4,TLR5L:flagellin,TLR4L:LPS,and TLR8/7L:CL075 also blocked Treg suppression of CD4(+) or CD8(+) T cell proliferation,but not B cell proliferation. Besides CL097,TLR2L:PGN,CL075,and TLR9L:CpG-A,CpG-B,and CpG-C) were strong activators of NK cells. Importantly,we found that Pam3CSK4 could: 1) activate CD4(+) T cell proliferation,2) inhibit the expansion of IL-10(+) naturally occurring FOXP3(+) Tregs and induction of IL-10(+) CD4(+) Tregs (IL-10-producing type 1 Treg),and 3) block naturally occurring FOXP3(+) Tregs suppressive function. Our results suggest these agents could serve as adjuvants to enhance the efficacy of current immunotherapeutic strategies in cancer patients. View Publication

The galactose-alpha-1,3-galactose (alphaGal) carbohydrate epitope is expressed on porcine,but not human cells,and therefore represents a major target for preformed human anti-pig natural Abs (NAb). Based on results from pig-to-primate animal models,NAb binding to porcine endothelial cells will likely induce complement activation,lysis,and hyperacute rejection in pig-to-human xenotransplantation. Human NK cells may also contribute to innate immune responses against xenografts,either by direct recognition of activating molecules on target cells or by FcgammaRIII-mediated xenogeneic Ab-dependent cellular cytotoxicity (ADCC). The present study addressed the question as to whether the lack of alphaGal protects porcine endothelial cells from NAb/complement-induced lysis,direct xenogeneic NK lysis,NAb-dependent ADCC,and adhesion of human NK cells under shear stress. Homologous recombination,panning,and limiting dilution cloning were used to generate an alphaGal-negative porcine endothelial cell line,PED2*3.51. NAb/complement-induced xenogeneic lysis of PED2*3.51 was reduced by an average of 86% compared with the alphaGal-positive phenotype. PED2*3.51 resisted NK cell-mediated ADCC with a reduction of lysis ranging from 30 to 70%. However,direct xenogeneic lysis of PED2*3.51,mediated either by freshly isolated or IL-2-activated human NK cells or the NK cell line NK92,was not reduced. Furthermore,adhesion of IL-2-activated human NK cells did not rely on alphaGal expression. In conclusion,removal of alphaGal leads to a clear reduction in complement-induced lysis and ADCC,but does not resolve adhesion of NK cells and direct anti-porcine NK cytotoxicity,indicating that alphaGal is not a dominant target for direct human NK cytotoxicity against porcine cells. View Publication

Mice deficient in early B cell factor (EBF) are blocked at the progenitor B cell stage prior to immunoglobulin gene rearrangement. The EBF-dependent block in B cell development occurs near the onset of B-lineage commitment,which raises the possibility that EBF may act instructively to specify the B cell fate from uncommitted,multipotential progenitor cells. To test this hypothesis,we transduced enriched hematopoietic progenitor cells with a retroviral vector that coexpressed EBF and the green fluorescent protein (GFP). Mice reconstituted with EBF-expressing cells showed a near complete absence of T lymphocytes. Spleen and peripheral blood samples were textgreater95 and 90% GFP+EBF+ mature B cells,respectively. Both NK and lymphoid-derived dendritic cells were also significantly reduced compared with control-transplanted mice. These data suggest that EBF can restrict lymphopoiesis to the B cell lineage by blocking development of other lymphoid-derived cell pathways. View Publication

NK cells are key innate immune cells that play critical roles in host defense. Although NK cells have been shown to regulate immunity to some infectious diseases,their role in immunity to Trypanosoma congolense has not been investigated. NK cells are vital sources of IFN-gamma and TNF-alpha; two key cytokines that are known to play important roles in resistance to African trypanosomes. In this article,we show that infection with T. congolense leads to increased levels of activated and functional NK cells in multiple tissue compartments. Systemic depletion of NK cells with anti-NK1.1 mAb led to increased parasitemia,which was accompanied by significant reduction in IFN-gamma production by immune cells in the spleens and liver of infected mice. Strikingly,infected NFIL3-/- mice (which genetically lack NK cell development and function) on the normally resistant background were highly susceptible to T. congolense infection. These mice developed fulminating and uncontrolled parasitemia and died significantly earlier (13 ± 1 d) than their wild-type control mice (106 ± 26 d). The enhanced susceptibility of NFIL3-/- mice to infection was accompanied by significantly impaired cytokine (IFN-gamma and TNF-alpha) response by CD3+ T cells in the spleens and liver. Adoptive transfer of NK cells into NFIL3-/- mice before infection rescued them from acute death in a perforin-dependent manner. Collectively,these studies show that NK cells are critical for optimal resistance to T. congolense,and its deficiency leads to enhanced susceptibility in infected mice. View Publication

Purpose: We determined whether elimination of CD105+ cells in the tumor microenvironment (TME) with anti-CD105 antibodies enhanced anti-disialoganglioside (GD2) antibody dinutuximab therapy of neuroblastoma when combined with activated natural killer (aNK) cells.Experimental Design: The effect of MSCs and monocytes on antibody-dependent cellular cytotoxicity (ADCC) mediated by dinutuximab with aNK cells against neuroblastoma cells was determined in vitro. ADCC with anti-CD105 mAb TRC105 and aNK cells against MSCs,monocytes,and endothelial cells,which express CD105,was evaluated. Anti-neuroblastoma activity in immunodeficient NSG mice of dinutuximab with aNK cells without or with anti-CD105 mAbs was determined using neuroblastoma cell lines and a patient-derived xenograft.Results: ADCC mediated by dinutuximab with aNK cells against neuroblastoma cells in vitro was suppressed by addition of MSCs and monocytes,and dinutuximab with aNK cells was less effective against neuroblastomas formed with coinjected MSCs and monocytes in NSG mice than against those formed by tumor cells alone. Anti-CD105 antibody TRC105 with aNK cells mediated ADCC against MSCs,monocytes,and endothelial cells. Neuroblastomas formed in NSG mice by two neuroblastoma cell lines or a patient-derived xenograft coinjected with MSCs and monocytes were most effectively treated with dinutuximab and aNK cells when anti-human (TRC105) and anti-mouse (M1043) CD105 antibodies were added,which depleted human MSCs and murine endothelial cells and macrophages from the TME.Conclusions: Immunotherapy of neuroblastoma with anti-GD2 antibody dinutuximab and aNK cells is suppressed by CD105+ cells in the TME,but suppression is overcome by adding anti-CD105 antibodies to eliminate CD105+ cells. View Publication

Group 2 innate lymphoid cells (ILC2 cells) are important for type 2 immune responses and are activated by the epithelial cytokines interleukin 33 (IL-33),IL-25 and thymic stromal lymphopoietin (TSLP). Here we demonstrated that IL-1β was a critical activator of ILC2 cells,inducing proliferation and cytokine production and regulating the expression of epithelial cytokine receptors. IL-1β also governed ILC2 plasticity by inducing low expression of the transcription factor T-bet and the cytokine receptor chain IL-12Rβ2,which enabled the conversion of these cells into an ILC1 phenotype in response to IL-12. This transition was marked by an atypical chromatin landscape characterized by the simultaneous transcriptional accessibility of the locus encoding interferon-γ (IFN-γ) and the loci encoding IL-5 and IL-13. Finally,IL-1β potentiated ILC2 activation and plasticity in vivo,and IL-12 acted as the switch that determined an ILC2-versus-ILC1 response. Thus,we have identified a previously unknown role for IL-1β in facilitating ILC2 maturation and plasticity. View Publication

Natural killer (NK) cells play a key role in immunity,but how HLA class I (HLA-I) and killer cell immunoglobulin-like receptor 3DL1 (KIR3DL1) polymorphism impacts disease outcome remains unclear. KIR3DL1 (*001/*005/*015) tetramers were screened for reactivity against a panel of HLA-I molecules. This revealed different and distinct hierarchies of specificity for each KIR3DL1 allotype,with KIR3DL1*005 recognizing the widest array of HLA-I ligands. These differences were further reflected in functional studies using NK clones expressing these specific KIR3DL1 allotypes. Unexpectedly,the Ile/Thr80 dimorphism in the Bw4-motif did not categorically define strong/weak KIR3DL1 recognition. Although the KIR3DL1*001,*005,and *015 polymorphisms are remote from the KIR3DL1-HLA-I interface,the structures of these three KIR3DL1-HLA-I complexes showed that the broader HLA-I specificity of KIR3DL1*005 correlated with an altered KIR3DL1*005 interdomain positioning and increased mobility within its ligand-binding site. Collectively,we provide a generic framework for understanding the impact of KIR3DL1 polymorphism on the recognition of HLA-I allomorphs. View Publication

Defining immunological mechanisms underlying NK cell biology is crucial for the treatment and prevention of immune deficiency and malignancy. The limited availability of human biological specimens presents a challenge to the study of human immunobiology. The use of high throughput,multi-parametric assays will not only aid in the definition and diagnosis of complex human immune disorders affecting NK cell function but also advance NK cell biology through population-based assessment of molecular signaling. In an effort to garner the most information from limited numbers of human cells,we designed a quantitative method to study NK cell function using imaging flow cytometry (IFC),which combines multiparametric flow cytometry and fluorescence microscopy. Specifically,we developed IFC as a tool to measure polarization and secretion of lytic granules at the immunological synapse formed between an NK cell and a susceptible target. We have further validated our approach through quantitative comparison with high-resolution confocal microscopy. We show that IFC can be used as a quantitative,high throughput measure of NK cell biological function possessing greater dimensionality than standard flow cytometry. View Publication