技术资料

Studies of repertoires of mouse monoclonal CD4(+) T cells have revealed several mechanisms of self-tolerance; however,which mechanisms operate in normal repertoires is unclear. Here we studied polyclonal CD4(+) T cells specific for green fluorescent protein expressed in various organs,which allowed us to determine the effects of specific expression patterns on the same epitope-specific T cells. Peptides presented uniformly by thymic antigen-presenting cells were tolerated by clonal deletion,whereas peptides excluded from the thymus were ignored. Peptides with limited thymic expression induced partial clonal deletion and impaired effector T cell potential but enhanced regulatory T cell potential. These mechanisms were also active for T cell populations specific for endogenously expressed self antigens. Thus,the immunotolerance of polyclonal CD4(+) T cells was maintained by distinct mechanisms,according to self-peptide expression patterns. View Publication

Bacterial lipopeptides (bLPs) are increasingly used as adjuvants to activate cell-mediated immune responses to foreign Ags. To explore mechanisms whereby bLPs adjuvant T cell responses,we stimulated human PBMCs with bLPs. We found that bLPs stimulate T cells to proliferate and produce IFN-gamma in an accessory cell-dependent manner and in the absence of exogenous protein Ags. The ability of bLPs to stimulate T cell proliferation was Toll-like receptor 2 dependent and required IL-12,interaction with costimulatory molecules,and MHC proteins. Our data suggest that bLPs adjuvant adaptive Th1 responses by enhancing Ag presentation of endogenous peptides. View Publication

Although toll-like receptor (TLR) agonists,such as CpG,are used as immunotherapeutic agents in clinical trials for cancer and infectious diseases,their effects are limited and the underlying mechanism(s) that restrains CpG efficacy remains obscure. Here,we show that signal transducer and activator of transcription 3 (Stat3) plays a key role in down-modulating immunostimulatory effects of CpG. In the absence of interleukin-6 (IL-6) and IL-10 induction,CpG directly activates Stat3 within minutes through TLR9. Ablating Stat3 in hematopoietic cells results in rapid activation of innate immunity by CpG,with enhanced production of IFN-gamma,tumor necrosis factor-alpha,IL-12,and activation of macrophages,neutrophils,and natural killer cells marked with Stat1 activation. Innate immune responses induced by CpG in mice with a Stat3-ablated hematopoietic system cause potent antitumor effects,leading to eradication of large (textgreater1 cm) B16 melanoma tumors within 72 h. Moreover,ablating Stat3 in myeloid cells increases CpG-induced dendritic cell maturation,T-cell activation,generation of tumor antigen-specific T cells,and long-lasting antitumor immunity. A critical role of Stat3 in mediating immunosuppression by certain cytokines and growth factors in the tumor microenvironment has been recently documented. By demonstrating direct and rapid activation of Stat3 by TLR agonists,we identify a second level of Stat3-mediated immunosuppression. Our results further suggest that targeting Stat3 can drastically improve CpG-based immunotherapeutic approaches. View Publication

Acute coronary syndromes (ACS) are precipitated by a rupture of the atherosclerotic plaque,often at the site of T cell and macrophage infiltration. Here,we show that plaque-infiltrating CD4 T cells effectively kill vascular smooth muscle cells (VSMC). VSMCs sensitive to T cell-mediated killing express the death receptor DR5 (TNF-related apoptosis-inducing ligand [TRAIL] receptor 2),and anti-TRAIL and anti-DR5 antibodies block T cell-mediated apoptosis. CD4 T cells that express TRAIL upon stimulation are expanded in patients with ACS and more effectively induce VSMC apoptosis. Adoptive transfer of plaque-derived CD4 T cells into immunodeficient mice that are engrafted with human atherosclerotic plaque results in apoptosis of VSMCs,which was prevented by coadministration of anti-TRAIL antibody. These data identify that the death pathway is triggered by TRAIL-producing CD4 T cells as a direct mechanism of VSMC apoptosis,a process which may lead to plaque destabilization. View Publication

Acute lymphoblastic leukemia (ALL) still frequently recurs after hematopoietic stem cell transplantation (HSCT),underscoring the need to improve the graft-versus-leukemia (GvL) effect. Natural killer (NK) cells reconstitute in the first months following HSCT when leukemia burden is at its lowest,but ALL cells have been shown to be resistant to NK cell-mediated killing. We show here that this resistance is overcome by NK cell stimulation with TLR-9-activated plasmacytoid dendritic cells (pDCs). NK cell priming with activated pDCs resulted in TRAIL and CD69 up-regulation on NK cells and IFN-γ production. NK cell activation was dependent on IFN-α produced by pDCs,but was not reproduced by IFN-α alone. ALL killing was further enhanced by inhibition of KIR engagement. We showed that ALL lysis was mainly mediated by TRAIL engagement,while the release of cytolytic granules was involved when ALL expressed NK cell activating receptor ligands. Finally,adoptive transfers of activated-pDCs in ALL-bearing humanized mice delayed the leukemia onset and cure 30% of mice. Our data therefore demonstrate that TLR-9 activated pDCs are a powerful tool to overcome ALL resistance to NK cell-mediated killing and to reinforce the GvL effect of HSCT. These results open new therapeutic avenues to prevent relapse in children with ALL. View Publication

Efficient gene transfer into human hematopoietic stem cells (HSCs) is an important goal in the study of the hematopoietic system as well as for gene therapy of hematopoietic disorders. A lentiviral vector based on the human immunodeficiency virus (HIV) was able to transduce human CD34+ cells capable of stable,long-term reconstitution of nonobese diabetic/severe combined immunodeficient (NOD/SCID) mice. High-efficiency transduction occurred in the absence of cytokine stimulation and resulted in transgene expression in multiple lineages of human hematopoietic cells for up to 22 weeks after transplantation. View Publication

Phagocytic receptors must diffuse laterally to become activated upon clustering by multivalent targets. Receptor diffusion,however,can be obstructed by transmembrane proteins (pickets") that are immobilized by interacting with the cortical cytoskeleton. The molecular identity of these pickets and their role in phagocytosis have not been defined. We used single-molecule tracking to study the interaction between Fcγ receptors and CD44 an abundant transmembrane protein capable of indirect association with F-actin hence likely to serve as a picket. CD44 tethers reversibly to formin-induced actin filaments curtailing receptor diffusion. Such linear filaments predominate in the trailing end of polarized macrophages where receptor mobility was minimal. Conversely receptors were most mobile at the leading edge where Arp2/3-driven actin branching predominates. CD44 binds hyaluronan anchoring a pericellular coat that also limits receptor displacement and obstructs access to phagocytic targets. Force must be applied to traverse the pericellular barrier enabling receptors to engage their targets. View Publication

The influence of signals perceived by immature B cells during their development in bone marrow on their subsequent functions as mature cells are poorly defined. Here,we show that bone marrow cells transiently stimulated in vivo or in vitro through the Toll-like receptor 9 generate proB cells (CpG-proBs) that interrupt experimental autoimmune encephalomyelitis (EAE) when transferred at the onset of clinical symptoms. Protection requires differentiation of CpG-proBs into mature B cells that home to reactive lymph nodes,where they trap T cells by releasing the CCR7 ligand,CCL19,and to inflamed central nervous system,where they locally limit immunopathogenesis through interleukin-10 production,thereby cooperatively inhibiting ongoing EAE. These data demonstrate that a transient inflammation at the environment,where proB cells develop,is sufficient to confer regulatory functions onto their mature B-cell progeny. In addition,these properties of CpG-proBs open interesting perspectives for cell therapy of autoimmune diseases. View Publication

Although Th17 cells play critical roles in the pathogenesis of many inflammatory and autoimmune diseases,their prevalence among tumor-infiltrating lymphocytes (TILs) and function in human tumor immunity remains largely unknown. We have recently demonstrated high percentages of Th17 cells in TILs from ovarian cancer patients,but the mechanisms of accumulation of these Th17 cells in the tumor microenvironment are still unclear. In this study,we further showed elevated Th17 cell populations in the TILs obtained from melanoma and breast and colon cancers,suggesting that development of tumor-infiltrating CD4(+) Th17 cells may be a general feature in cancer patients. We then demonstrated that tumor microenvironmental RANTES and MCP-1 secreted by tumor cells and tumor-derived fibroblasts mediate the recruitment of Th17 cells. In addition to their recruitment,we found that tumor cells and tumor-derived fibroblasts produce a proinflammatory cytokine milieu as well as provide cell-cell contact engagement that facilitates the generation and expansion of Th17 cells. We also showed that inflammatory TLR and nucleotide oligomerization binding domain 2 signaling promote the attraction and generation of Th17 cells induced by tumor cells and tumor-derived fibroblasts. These results identify Th17 cells as an important component of human TILs,demonstrate mechanisms involved in the recruitment and regulation of Th17 cells in tumor microenvironments,and provide new insights relevant for the development of novel cancer immunotherapeutic approaches. View Publication

We provide evidence that tumor cells can induce apoptosis of NK cells by engaging the natural cytotoxicity receptors (NCR) NKp30,NKp44,and NKp46. Indeed,the binding between NCR on NK cells and their putative ligands on tumor target cells led to NK cell apoptosis,and this event was abolished by blocking NCR/NCR-ligand interaction by anti-NCR-specific mAbs. The engagement of NCR induced up-regulation of Fas ligand (FasL) mRNA,FasL protein synthesis,and release. In turn,FasL interacting with Fas at NK cell surface causes NK cell suicide,as apoptosis of NK cells was inhibited by blocking FasL/Fas interaction with specific mAbs. Interestingly,NK cell apoptosis,but not killing of tumor target cells,is inhibited by cyclosporin A,suggesting that apoptosis and cytolysis are regulated by different biochemical pathways. These findings indicate that NCR are not only triggering molecules essential for antitumor activity,but also surface receptors involved in NK cell suicide. View Publication

Natural killer (NK) cells trigger cytotoxicity and interferon (IFN)-gamma secretion on engagement of the natural-killer group (NKG)2D receptor or members of the natural cytotoxicity receptor (NCR) family,such as NKp46,by ligands expressed on tumour cells. However,it remains unknown whether T cells can regulate NK cell-mediated anti-tumour responses. Here,we investigated the early events occurring during T cell-tumour cell interactions,and their impact on NK cell functions. We observed that on co-culture with some melanomas,activated CD4(+) T cells promoted degranulation,and NKG2D- and NKp46-dependent IFN-gamma secretion by NK cells,probably owing to the capture of NKG2D and NKp46 ligands from the tumour-cell surface (trogocytosis). This effect was observed in CD4(+),CD8(+) and resting T cells,which showed substantial amounts of cell surface major histocompatibility complex class I chain-related protein A on co-culture with tumour cells. Our findings identify a new,so far,unrecognized mechanism by which effector T cells support NK cell function through the capture of specific tumour ligands with profound implications at the crossroad of innate and adaptive immunity. View Publication

Plant lectins displaying similar single sugar-binding specificity and identical molecular structure might present various biological effects. To explore this possibility,the effects on human lymphocytes of two mannose-specific and structurally closely related lectins,Morniga M from Morus nigra and artocarpin from Artocarpus integrifolia were investigated. In silico analysis revealed that Morniga M presents a more largely open carbohydrate-binding cavity than artocarpin,probably allowing interactions with a broader spectrum of carbohydrate moieties. In vitro,Morniga M interacted strongly with the lymphocyte surface and was uptaken quickly by cells. Morniga M and artocarpin triggered the proliferation and activation of human T and NK lymphocytes. A minority of B lymphocytes was activated in artocarpin-treated culture,whereas Morniga M favored the emergence of CD4+ CD8+ T lymphocytes. Moreover,cell death occurred in activated PBMC,activated T lymphocytes,and Jurkat T leukemia cells incubated with Morniga M only. The biological effects of both lectins were dependent on carbohydrate recognition. The Morniga M-induced cell death resulted,at least in part,from caspase-dependent apoptosis and FADD-dependent receptor-mediated cell death. Finally,Morniga M,but not artocarpin,triggered AICD of T lymphocytes. In conclusion,both lectins trigger lymphocyte activation,but only Morniga M induces cell death. In spite of similar in vitro mannose-binding specificities and virtually identical structure,only Morniga M probably interacts with carbohydrate moieties bound to molecules able to induce cell death. The present data suggest that subtle alterations in N-glycans can distinguish activation and cell death molecules at the lymphocyte surface. View Publication