Activated NKT cells increase dendritic cell migration and enhance CD8+ T cell responses in the skin

Activated NKT cells produce cytokines such as IL-4 and IFN-gamma that function locally to influence the strength and functional development of antigen-specific T cells. Here we identify an alternative mechanism by which NKT cells influence the strength of T cell responses: through modulation of peripheral dendritic cell (DC) trafficking. NKT cell activation with alpha-galactosylceramide induced high systemic levels of TNF-alpha that mediated increased DC migration from skin to draining lymph nodes. This increased DC trafficking led to a threefold increase in effector T cell priming and in the immune response elicited to antigen challenge when alpha-galactosylceramide was given at the time of immunization of the skin. These studies provide important implications for the use of NKT cell activation strategies to manipulate T cell-mediated responses including responses to cutaneous tumors and graft vs. host disease.     

Distinct subsets of human invariant NKT cells differentially regulate T helper responses via dendritic cells

Invariant natural killer T (iNKT) cells regulate the T helper (Th) 1/2 balance and elicit either enhancement or suppression of the immune responses. However, the exact mechanism by which iNKT cells exert these contrasting functions has remained elusive. We demonstrate herein that two major distinct subsets of human iNKT cells, CD4+CD8beta(-) (CD4+) and CD4(-)CD8beta(-) (double negative; DN) cells, express functional CD40 ligand (CD40L), but they differentially regulate the dendritic cell (DC) function by reciprocal NKT-DC interactions, thereby influencing the subsequent Th response. The CD4 subset stimulated by alpha-galactosylceramide (alpha-GalCer)-loaded DC immediately produced massive amounts of IL-4 and IL-13, which together with IFN-gamma enhanced CD40L-induced IL-12 production by DC. In contrast, the DN subset eliminated the DC by cytolysis and changed the living DC into a default subtype, in turn markedly down-regulating the levels of IL-12. Therefore, the DC stimulated by the CD4 subset preferentially induced Th1 responses, whereas the DC reacted with the DN subset induced a shift toward Th2 responses. These findings may provide an important insight into better understanding the contribution of iNKT-DC cross-talk governing the Th1/2 balance and the diverse influences of iNKT cells in various diseases.     

DX5+ NKT cells induce the death of colitis-associated cells: involvement of programmed death ligand-1

NKT cells are activated by CD1d and show an immune regulating function. Here, we investigated whether DX5+ NKT cells could be used to reduce colitis in a chronic colitis mouse model and studied the potential immunological mechanisms involved. Chronic colitis was induced either by transfer of enriched CD62L+ CD4+ T cells to severe-combined-immunodeficient mice or by feeding dextran sodium sulfate to immune competent mice. DX5+ NKT cells were transferred to mice with chronic colitis. Co-transfer of DX5+ NKT cells, but not CD8+ control cells, prevented the onset of colitis, and the immune regulatory effect of DX5+ NKT cells was completely abrogated by injecting CD1d blocking antibody. Moreover, DX5+ NKT cells reduced established colitis in both chronic colitis models. In vitro, DX5+ NKT cells induced cell death of colon-infiltrating lymphocytes isolated from diseased mice. This effect was inhibited in the presence of either anti-CD1d or anti-programmed death ligand-1 (PD-L1) blocking antibodies. The specific potency of DX5+ NKT cells in regulating chronic colitis in two mouse models is demonstrated. In vitro testing suggests that DX5+ NKT cells activated by CD1d induce cell death of colitis-inducing lymphocytes, which is mediated through PD-L1. Therefore, DX5+ NKT cells could be important in the regulation of immune responses associated with chronic colitis.     

Innate and adaptive stimulation of murine diverse NKT cells result in distinct cellular responses

Natural killer T (NKT) cells recognize glycolipids presented on CD1d. They share features of adaptive T lymphocytes and innate NK cells, and mediate immunoregulatory functions via rapid production of cytokines. Invariant (iNKT) and diverse (dNKT) NKT cell subsets are defined by their TCR. The immunological role of dNKT cells, that do not express the invariant TCRα‐chain used by iNKT cells, is less well explored than that of iNKT cells. Here, we investigated signals driving Toll‐like receptor (TLR) ligand activation of TCR‐transgenic murine dNKT cells. IFN‐γ production by dNKT cells required dendritic cells (DC), cell‐to‐cell contact and presence of TLR ligands. TLR‐stimulated DC activated dNKT cells to secrete IFN‐γ in a CD1d‐, CD80/86‐ and type I IFN‐independent manner. In contrast, a requirement for IL‐12p40, and a TLR ligand‐selective dependence on IL‐18 or IL‐15 was observed. TLR ligand/DC stimulation provoked early secretion of pro‐inflammatory cytokines by both CD62L⁺ and CD62L^? dNKT cells. However, proliferation was limited. In contrast, TCR/co‐receptor‐mediated activation resulted in proliferation and delayed production of a broader cytokine spectrum preferentially in CD62L^? dNKT cells. Thus, innate (TLR ligand/DC) and adaptive (TCR/co‐receptor) stimulation of dNKT cells resulted in distinct cellular responses that may contribute differently to the formation of immune memory.     

Glycolipid-activated NKT cells support the induction of persistent plasma cell responses and antibody titers

NKT cell activation with CD1d-binding glycolipid alpha-galactosylceramide (alpha-GC) enhances antibody responses to co-administered T-dependent antigen. The efficacy of alpha-GC relative to other CD1d-binding glycolipids and adjuvants is not known. There is little information on how NKT cells affect antibody production beyond initial booster-stimulated recall responses. We therefore tested the hypothesis that alpha-GC stimulates induction of plasma cells and antibody responses as effectively as Th1- and Th2-skewing variants of alpha-GC and several other adjuvants. C57BL/6 and CD1d-/- mice were immunized with nitrophenol-conjugated keyhole limpet hemocyanin (NP-KLH) plus alpha-GC or NP-KLH plus adjuvants before administration of an NP-KLH booster and assessing antibody responses and plasma cell frequency. alpha-GC boosted long-term antibody responses as efficiently as all other agents tested and induced plasma cells that were detected in bone marrow 13 weeks after immunization. We then determined whether NKT cells were required in the presence of other adjuvants. CD1d-/- mice had a reduced induction of plasma cells in response to NP-KLH/Alum as compared to C57BL/6 mice. However, NKT cells were not required for the continued presence of those cells that were induced. Although NKT cells are capable of inducing persistent plasma cell responses, they may not play a major role in supporting longevity post-induction.     

NK cells of human secondary lymphoid tissues enhance T cell polarization via IFN-gamma secretion

Human secondary lymphoid tissues harbor NK cells that predominantly secrete cytokines in response to activation. Here, we demonstrate that these immunoregulatory NK cells assist in the Th1 polarization of primary immune responses, induced by dendritic cells. Tonsilar, but not peripheral blood NK cells enhanced the expansion of IFN-gamma-producing CD4+ T cells via their superior ability to produce IFN-gamma. Addition of IFN-gamma increased Th1 polarization while antibody blocking of this cytokine abolished NK cell-dependent Th1 polarization. Our data suggest that NK cells in secondary lymphoid organs assist priming of Th1 cells via cytokine secretion and this effect should be harnessed during vaccination against viruses and tumors.     

Paradoxical role of programmed death-1 ligand 2 in Th2 immune responses in vitro and in a mouse asthma model in vivo

Programmed death-1 ligand 2 (PD-L2) is a ligand for programmed death-1 (PD-1), a receptor that plays an inhibitory role in T cell activation. Since previous studies have shown up-regulation of PD-L2 expression by Th2 cytokines, and asthma is driven by a Th2 response, we hypothesized that PD-L2 might be involved in regulation of the immune response in this disease. We have found that lungs from asthmatic mice had sustained up-regulation of PD-1 and PD-L2, with PD-L2 primarily on dendritic cells. Although addition of PD-L2-Fc in vitro led to decreased T cell proliferation and cytokine production, administration of PD-L2-Fc in vivo in a mouse asthma model resulted in elevated serum IgE levels, increased eosinophilic and lymphocytic infiltration into bronchoalveolar lavage fluid, higher number of cells in the draining lymph nodes, and production of IL-5 and IL-13 from these cells. Although PD-1 was expressed on regulatory T cells, PD-L2-Fc did not affect regulatory T cell activity in vitro. This study provides in vivo evidence of an exacerbated inflammatory response following PD-L2-Fc administration and indicates a potential role for this molecule in Th2-mediated diseases such as asthma.     

羧胺三唑通过抑制NFAT2核转运降低小鼠CD8^+T细胞中程序性死亡受体1的表达

目的研究羧胺三唑(CAI)对CD8+T细胞的作用,并探索其增强活化的T细胞杀伤作用的关键机制。方法用免疫磁珠分选出小鼠CD8+T细胞,分为对照组、CAI组、ZK756326(Ca2+激活剂)组以及CAI+ZK756326组。流式细胞计量术检测细胞内游离钙离子水平;酶联免疫吸附法检测细胞内钙调磷酸酶(CaN)的表达;免疫荧光染色检测细胞活化T细胞核因子2(NFAT2)核转运;染色质免疫共沉淀-qPCR检测细胞中NFAT2调控程序性死亡受体1(PD-1)表达。分离小鼠脾脏细胞毒性T淋巴细胞(CTLs),流式细胞计量术检测其中CD8+T细胞PD-1的表达。结果CAI组显著降低CD8+T细胞内Ca2+浓度(P<0.001),CAI+ZK756326组胞内Ca2+浓度有所升高(P<0.01);CAI显著降低CD8+T细胞中钙调磷酸酶的含量(P<0.001);CAI可显著抑制NFAT2核转运(P<0.001),并使NFAT2依赖的PD-1转录进程显著降低(P<0.001);CAI使小鼠脾脏CTLs细胞中PD-1+CD8+T细胞比例显著减少(P<0.001)。结论CAI通过抑制CD8+T细胞内钙离子水平以及钙调磷酸酶的表达抑制NFAT2核转运,从而降低CD8+T细胞PD-1的表达,进一步产生免疫治疗干预作用。     

The ability of murine dendritic cell subsets to direct T helper cell differentiation is dependent on microbial signals

Dendritic cells (DC) initiate T cell responses and direct the class of T cell immunity through the production of Th-polarizing cytokines. In the mouse, immunization with CD8alpha(+) DC has led to Th1 priming whereas immunization with CD8alpha(-) DC has been associated with Th2 induction. Here, we use a direct T cell priming assay in vitro to re-examine the Th-directing potential of total DC or purified CD4(+) DC, CD8alpha(+) DC or CD4(-) CD8alpha(-) (double-negative; DN) DC subsets from mouse spleen. We show that the default Th effector phenotype induced by priming with DC depends on the protocol used for T cell purification, the T cell:antigen-presenting cell ratio and the antigen dose but is only marginally affected by DC subtype. All DC subsets can direct increased Th1 development in response to microbial stimuli known to elicit IL-12 production. Similarly, all subsets can suppress Th1 development and allow Th2 cellsto expand upon exposure to IL-10-inducing microbial agents. The flexibility of DC in directing Th development in function of microbial signals argues against the notion of pre-determined "DC1" and "DC2" subsets and suggests that multiple DC subtypes can direct an appropriate Th response to different classes of infectious agents.     

负载滋养层细胞抗原对小鼠树突状细胞表型及功能的影响

目的 研究负载滋养层细胞抗原对小鼠髓源性树突状细胞(DC)分化成熟过程的影响,获得致耐受性DC.方法 体外使用粒细胞巨细胞集落刺激因子(GM-CSF)诱导小鼠骨髓细胞定向分化、经LPS刺激获得成熟DC;通过外胎盘锥组织块培养法获得滋养层细胞,制备可溶性抗原,加入DC培养体系.流式细胞术检测DC表面共刺激分子及MHC-Ⅱ的表达,ELISA法检测DC分泌IL-10和IL-12的浓度,混合淋巴细胞培养评估 DC刺激同种T细胞增殖、活化的功能.结果 成熟DC表型为CD40high CD80highCD86highMHC-Ⅱhigh,分泌大量的IL-12和极少量的IL-10 ,体外能有效刺激T细胞的增殖;负载滋养层细胞抗原的DC表型为CD40midCD80lo wCD86lowMHC-Ⅱlow,在分泌大量IL-12的同时IL-10也明显升高,不能有效刺激T细胞增殖,并使T细胞分泌细胞因子呈现明显Th2偏倚.结论 负载滋养层细胞抗原后的DC表面共刺激分子及MHC-Ⅱ表达降低,刺激T细胞增殖能力下降;其自分泌和促使T细胞旁分泌的细胞因子呈现Th2偏倚,是一种耐受性DC.     

Low-avidity CD8lo T cells induced by incomplete antigen stimulation in vivo regulate naive higher avidity CD8hi T cell responses to the same antigen

We have previously reported that multiple injections of soluble MHC class I tetramers assembled with wild-type HY peptide induces unresponsiveness to male skin grafts in naive female C57BL/6 (B6) mice. Induction of unresponsiveness is dependent on a population of unresponsive allospecific CD8(lo )T cells. Reduced expression of CD8 acts to limit a T cell response to HY peptide by limiting the avidity window of effective signal transduction. We and others have demonstrated that CD8(lo) T cells are an alternative stable phenotype of CD8alphabeta(+) T cells in vitro and in vivo after antigen stimulation. We show here that CD8(lo) T cells can suppress naive CD8(+) T cell responses to HY antigen in vitro and male skin graft rejection in vivo after adoptive transfer into female recipients. These novel regulatory T cells express surface TGF-beta1 and secrete T cytotoxic 2 cytokines after antigen-specific stimulation. Anti-TGF-beta antibody and latency-associated peptide inhibit the suppressive effects in vitro. We also show that HY-specific memory CD8(+) T cells overcome regulation by CD8(lo) T cells. These data define a novel peripheral regulatory CD8(+ )T cell population that arises after repeated antigen encounter in vivo. These cells have implications in the maintenance of tolerance and memory.     

Modulation of dendritic cells using granulocyte-macrophage colony-stimulating factor (GM-CSF) delays type 1 diabetes by enhancing CD4+CD25+ regulatory T cell function

Abnormalities in DC function are implicated in defective immune regulation that leads to type-1 diabetes (T1D) in NOD mice and humans. In this study, we used GM-CSF and Flt3-L to modulate DC function in NOD mice and observed the effects on T1D development. Treatment with either ligand at earlier stages of insulitis suppressed the development of T1D. Unlike Flt3-L, GM-CSF was more effective in suppressing T1D, even when administered at later stages of insulitis. In vitro studies and in vivo adoptive transfer experiments revealed that CD4+CD25+ T cells from GM-CSF-treated mice could suppress effector T cell response and T1D. This suppression is likely mediated through enhanced IL-10 and TGF-β1 production. Adoptive transfer of GM-CSF exposed DCs to naive mice resulted in an expansion of Foxp3+ T cells and a significant delay in T1D onset. Our results indicate that GM-CSF acted primarily on DCs and caused an expansion of Foxp3+ Tregs which delayed the onset of T1D in NOD mice.     

gp120-induced programmed cell death in recently activated T cells without subsequent ligation of the T cell receptor

In most individuals, HIV infection is characterized by a progressive decline in the number of peripheral blood CD4⁺ T lymphocytes, and while the number of CD4⁺ cells is within the normal range, defects in immune function are detectable. To date neither the decline in function nor the decline in cell number have been satisfactorily explained. Here we describe a mechanism which may contribute to the immunodeficiency and decline in CD4⁺ cell numbers in HIV-infected individuals. We show that recently activated T cells are susceptible to apoptosis when exposed to HIV gp120 in the presence of anti-gp120 antibody.     

Contribution of the PD-1 ligands/PD-1 signaling pathway to dendritic cell-mediated CD4+ T cell activation

Dendritic cells (DC) are extremely proficient inducers of naïve CD4⁺ T cell activation due to their high expression level of peptide‐MHC and an array of accessory molecules involved in cell migration, adhesion and co‐signaling, including PD‐1 ligand 1 (PD‐L1) and PD‐1 ligand 2 (PD‐L2). Whether PD‐L1 and PD‐L2 have a stimulatory or inhibitory function is a matter of debate, and could be partially dependent on the model system used. In this study we examined the role of PD‐L1 and PD‐L2 expressed by DC in naïve CD4⁺ T cell activation in a more physiologically relevant model system, using OVA‐specific T cells in combination with various levels of TCR stimulation. Overexpression of PD‐L1 or PD‐L2 by DC did not inhibit T cell proliferation, even when B7–1 and B7–2 mediated costimulation was absent, although IL‐2 production was consistently decreased. Surprisingly, blocking PD‐L1 and PD‐L2 with soluble programmed death‐1 (sPD‐1) also inhibited T cell activation, probably via reverse signaling via PD‐L1 and/or PD‐L2 into DC, leading to reduced DC maturation. This study suggests a relatively minor contribution of PD‐1 ligands in DC‐driven CD4⁺ T cell activation and provides evidence for reverse signaling by PD‐L1 and PD‐L2 into DC, resulting in a suppressive DC phenotype.     

Depending on their maturation state, splenic dendritic cells induce the differentiation of CD4(+) T lymphocytes into memory and/or effector cells in vivo

There is increasing evidence that dendritic cells (DC) display opposite functions in the immune system, as they may induce immunity or tolerance depending on intrinsic and environmental factors. In mice, adoptive transfer of mature DC pulsed extracorporeally with antigen induces the development of antigen-specific Th1- and Th2-type CD4(+) cells. In this work, we compared the adjuvant properties of immature (freshly isolated) and mature (cultured) splenic DC in vivo. Our data show that injection of either cell population induces the clonal expansion of CD4(+) T cells but that only mature DC trigger their differentiation into effector cells producing IFN-gamma. In contrast, transfer of immature DC provokes the development of intermediates in the differentiation process, similar to the central memory cells. These observations, together with data in the literature, suggest that DC may induce tolerance, memory, or immunity depending on their maturation state.     

Regulated expression of the inhibitory receptor LAIR-1 on human peripheral T cells during T cell activation and differentiation

The leukocyte-associated Ig-like receptor-1 (LAIR-1) is capable of inhibiting immune cell function through interaction with collagens. LAIR is expressed on the majority of peripheral blood mononuclear cells. The abundant expression of both receptor and ligand calls for regulatory mechanisms to relieve the continuous interaction between collagens and LAIR-1. This regulation may occur at the expression level of the receptor. Here, we report that LAIR-1 is indeed differentially expressed during human T cell differentiation. Naive CD4(+) and CD8(+) T cells as well as CD8(+) T cells of the effector phenotype express higher levels of LAIR-1 compared to memory T cells. In vitro stimulation revealed a decrease in LAIR-1 expression upon activation, and the lower LAIR-1 expression on CD127(-) T cells suggests that activation-induced down-modulation of LAIR-1 may also occur in vivo. Furthermore, crosslinking of LAIR-1 on primary T cells results in an inhibition of T cell function. Our data suggest that regulated expression of LAIR-1 and the subsequent change in the threshold for activation may be a mechanism to modulate inhibition of the immune system.     

Leptin deficiency impairs maturation of dendritic cells and enhances induction of regulatory T and Th17 cells

Leptin is an adipose‐secreted hormone that plays an important role in both metabolism and immunity. Leptin has been shown to induce Th1‐cell polarization and inhibit Th2‐cell responses. Additionally, leptin induces Th17‐cell responses, inhibits regulatory T (Treg) cells and modulates autoimmune diseases. Here, we investigated whether leptin mediates its activity on T cells by influencing dendritic cells (DCs) to promote Th17 and Treg‐cell immune responses in mice. We observed that leptin deficiency (i) reduced the expression of DC maturation markers, (ii) decreased DC production of IL‐12, TNF‐α, and IL‐6, (iii) increased DC production of TGF‐β, and (iv) limited the capacity of DCs to induce syngeneic CD4⁺ T‐cell proliferation. As a consequence of this unique phenotype, DCs generated under leptin‐free conditions induced Treg or T_H17 cells more efficiently than DCs generated in the presence of leptin. These data indicate important roles for leptin in DC homeostasis and the initiation and maintenance of inflammatory and regulatory immune responses by DCs.