Split activity of interleukin-10 on antigen capture and antigen presentation by human dendritic cells: Definition of a maturative step

Human CD1⁺ CD14^- dendritic cells (DC) can be derived from CD14⁺ monocytes using granulocyte/monocyte colony-stimulating factor and interleukin (IL)-4. We have previously shown that IL-10 pre-treatment of such DC significantly inhibited their antigen-presenting capacity to CD4⁺ T cell clones. In this study, we further analyze how IL-10 influences antigen presentation. We first investigated whether IL-10 could alter the early stage of antigen presentation, the capture of antigen. This can be mediated by mannose receptor (MR)-mediated endocytosis and by fluid-phase uptake through macropinocytosis. IL-10-treated DC showed an enhancement of both mechanisms of antigen capture, as indicated by the increase of fluorescein isothiocyanate-dextran uptake through MR and lucifer yellow uptake. However, IL-10-treated DC, irradiated or glutaraldehyde-fixed, were less efficient than untreated DC in stimulating mixed leukocyte reaction as well as in inducing the activation of peptide-specific T cell clones, indicating that IL-10 achieves its effects mainly by modifying the cell surface phenotype of DC. HLA class I and II, as well as intercellular adhesion molecule (ICAM)-1, lymphocyte function-associated antigen-3, B7-1, B7-2 and ICAM-3 expression were either significantly increased or essentially unchanged, and the ability to bind the epitope recognized by the T cell clones was also unaffected regardless of IL-10 treatment. Our study also indicates that as-yet unidentified accessory molecules may play an essential role in T cell activation. Thus, the IL-10-treated DC possess an increased capacity to capture antigen, with a concomitant decreased stimulatory activity. Our study suggests that IL-10-treated DC have the characteristics of highly immature DC (high capture ability, low stimulatory potency) and may represent an early maturative step of human DC of monocytic origin.     

Interferon-γ- and interleukin-4-producing T cells can be primed on dendritic cells in vivo and do not require the presence of B cells

The antigen-presenting cell (APC) requirements for the in vivo induction of Th1-and Th2-type responses were investigated using a severe combined immunodeficiency (SCID)mouse chimera model. SCID mice adoptively transferred with either T cells [SCID(T)] or T + B cells [SCID(T + B)] and immunized with antigen in adjuvant were able to generate antigen-specific T cells which could produce both interferon (IFN)-γ and interleukin (IL)-4 upon in vitro restimulation. This suggests that B cell APC are not necessary for the priming of either IFN-γ- or IL-4-producing T cells in vivo. The ability of different APC to activate Th2-dependent effector mechanisms was also investigated. SCID(T) and SCID(T + B) mice were infected with the nematode parasite Nippostrongylus brasiliensis and analyzed for the development of IL-5-dependent peripheral blood eosinophilia. Following infection both SCID(T) and SCID(T + B) mice generated similar numbers of peripheral blood eosilnophils, suggesting that similar amounts of IL-5 had been produced. Therefore, B cell APC are also not required for the in vivo activation of Th2 cells to lymphokine production. To establish more precisely which APC prime T cells to produce IFN-γ and IL-4, normal mice were immunized by injection of syngeneic splenic dendritic cells which had been pulsed with antigen in vitro. T cells from these immunized mice were able to produce good IFN-γ and IL-4 responses upon in vitro restimulation with specific antigen; therefore, dendritic cells appear to be sufficient APC for the in vivo priming of both IFN-γ- and IL-4-producing T cells.     

Th1 cells induce and Th2 inhibit antigen-dependent IL-12 secretion by dendritic cells

Dendritic cells are the most relevant antigen-presenting cells (APC) for presentation of antigens administered in adjuvant to CD4⁺ T cells. Upon interaction with antigen-specific T cells, dendritic cells (DC) expressing appropriate peptide-MHC class II complexes secrete IL-12, a cytokine that drives Th1 cell development. To analyze the T cell-mediated regulation of IL-12 secretion by DC, we have examined their capacity to secrete IL-12 in response to stimulation by antigen-specific Th1 and Th2 DO11.10 TCR-transgenic cells. These cells do not differ either in TCR clonotype or CD40 ligand (CD40L) expression. Interaction with antigen-specific Th1, but not Th2 cells, induces IL-12 p40 and p75 secretion by DC. The induction of IL-12 production by Th1 cells does not depend on their IFN-γ secretion, but requires direct cell-cell contact mediated by peptide/MHC class II-TCR and CD40-CD40L interactions. Th2 cells not only fail to induce IL-12 secretion, but they inhibit its induction by Th1 cells. Unlike stimulation by Th1, inhibition of IL-12 production by Th2 cells is mediated by soluble molecules, as demonstrated by transwell cultures. Among Th2-derived cytokines, IL-10, but not IL-4 inhibit Th1-driven IL-12 secretion. IL-10 produced by Th2 cells appears to be solely responsible for the inhibition of Th1-induced IL-12 secretion, but it does not account for the failure of Th2 cells to induce IL-12 production by DC. Collectively, these results demonstrate that Th1 cells up-regulate IL-12 production by DC via IFN-γ-independent cognate interaction, whereas this is inhibited by Th2-derived IL-10. The inhibition of Th1-induced IL-12 production by Th2 cells with the same antigen specificity represents a novel mechanism driving the polarization of CD4⁺ T cell responses.     

Inhibition of murine B1 lymphocytes by interleukin-12

B1 cells are a subset of B lymphocytes found in many spectes and are implicated in the development of autoimmunity. B1 cells have previously been shown to be suppressed by the T helper (Th)1 cytokine interferon (IFN)-γ, and to be stimulated by the Th2 cytokines interleukin (IL)-2, IL-4, IL-5 and IL-10. To examine further the interactions of B1 cells and Th1 cells, we have now tested the effects of the Th1 cell-inducing cytokine IL-12 on murine B1 cells. BALB/c mice were immunized with phosphorylcholine conjugated to keyhole limpet hemocyanin (PC-KLH) and simultaneously treated with 1 μg recombinant murine IL-12 for 3 consecutive days. In addition to altering the isotype and idiotype distribution of anti-PC antibodies, IL-12 treatment was found to cause a loss of peritoneal, but not splenic B lymphocytes in immunized mice. B cell depletion required exposure to IL-12 plus antigenic stimulation. Levels of peritoneal B lymphocytes were fully restored by day 45, but the majority of these cells belonged to the B2 subset. Additionally, proliferation of B1 cells in vitro induced by IL-5 was substantially inhibited by IL-12. IL-12 itself had no effect on viable cell recovery of peritoneal cells (PeC) cultured in vitro, but viable cell recovery was significantly decreased in PeC cultured with IL-5 plus IL-12. These results show that IL-12 causes the loss of murine peritoneal B1 cells and suggest that treatment with this cytokine may be useful for disease conditions that involve B1 cell dysfunction.     

Human interleukin-5 induces staphylococcal A Cowan 1 strain-activated human B cells to secrete IgM

Studies on the role of human interleukin (IL)-5 in B cell growth and differentiation have yielded conflicting results. To clarify this issue, we studied the role of purified recombinant IL-5 on activated human B cells which were depleted of Tcells and adherent cells. Human IL-5 augments IgM secretion, but not IgG or IgA secretion of purified human B cells activated with staphylococcal A Cowan 1 strain (SAC). However, the period of B cell activation with SAC is critical for the B cell to respond to IL-5. After 24 h of SAC activation, human B cells are responsive to the IL-5 signal, but with longer periods of activation, IL-5 responsiveness diminishes. This may explain some of the previous conflicting results. The IgM enhancement was not seen when B cells were activated with pokeweed mitogen. In addition, human recombinant IL-4 synergized with IL-5 in augmenting IgM secretion by SAC-activated B cells, while IL-5 synergized with IL-2 to augment IgM, IgG and IgA secretion by SAC-activated B cells. As the purified IL-5 was derived from a COS-1 cell supernatant, and COS-1 cells secrete IL-6, we examined whether a polyclonal IL-6 antibody blocked the IgM-enhancing activity of IL-5. IL-6 antibody did not block the IL-5 enhancement of IgM secretion, but a monoclonal antibody to IL-5 inhibited the human IL-5 activity on human B cells. These results demonstrate that human IL-5 augments IgM secretion of SAC-activated human B-cells. In addition, this lymphokine synergizes with IL-4 and IL-2 in supporting Ig secretion.     

Increased TLR responses in dendritic cells lacking the ITAM-containing adapters DAP12 and FcRgamma

The inhibitory effect of DAP12 on macrophages has been revealed by examining myeloid cells from DAP12-deficient mice. In this report, we demonstrate that both DAP12 and the FcepsilonRIgamma-chain (FcRgamma) are required for negative regulation of TLR responses in bone marrow-derived dendritic cells (DC). Loss of both DAP12 and FcRgamma enhanced the pro-inflammatory cytokine production and maturation of DC after TLR stimulation, resulting in a greater percentage of DC that produced IL-12 p40, TNF, and IL-6, and expressed high levels of MHC class II, CD80, and CD86. Whereas DC lacking only DAP12 showed some increased TLR responses, those lacking only FcRgamma had a greater enhancement of maturation and cytokine production, though to a lesser extent than DC lacking both DAP12 and FcRgamma. Additionally, antigen-specific T cell proliferation was enhanced by DAP12(-/-)FcRgamma(-/-) DC relative to wild-type DC after maturation. Similar to DAP12(-/-)FcRgamma(-/-) DC, Syk-deficient DC also had increased inflammatory cytokine production, maturation, and antigen presentation. These results confirm the inhibitory effect of immunoreceptor tyrosine-based activation motif (ITAM) signaling in myeloid cells and show that DC and macrophages differ in their dependence on the ITAM-containing adapters DAP12 and FcRgamma for negative regulation of TLR signaling.     

Macrophages,but not dendritic cells,present collagen to T cells

Dendritic cells, such as epidermal Langerhans cells, play a crucial role for the antigen-specific priming of T cells. We have addressed the question whether dendritic cells present collagen, a major protein component in tissues through which dendritic cells migrate, i.e. the basement membrane, dermis, and synovial tissue. Langerhans cells, spleen cells and peritoneal macrophages were compared for antigen-presenting capacity using a panel of mouse T cell hybridomas reactive with different determinants on type II collagen, myelin basic protein, ovalbumin and pepsin. Langerhans cells did not present any of the type II collagen determinants, unless the antigen was administered as a 15-mer peptide, but did present myelin basic protein, ovalbumin and pepsin. Spleen cells and peritoneal macrophages, in contrast, presented all type II collagen determinants. This biased antigen presentation was also observed when Langerhans cells were pulsed with antigen in vivo. The inability to present type II collagen is related to the collagen sequence as such, since both native type II collagen, type II collagen α chains, as well as a type II collagen determinant incorporated in type I collagen, were not presented by Langerhans cells. In addition, granulocyte/macrophage colony-stimulating factor-expanded blood dendritic cells displayed the same biased antigen presentation, suggesting that the inability to present collagen is not restricted to dendritic cells localized in epidermis. B cell-deficient mice could prime a type II collagen-reactive T cell response, thus excluding B cells as obligatory antigen-presenting cells for the priming of collagen-reactive T cells. We suggest that neither Langerhans cells nor B cells, but macrophages are the primary antigen-presenting cells in the immune response towards type II collagen.     

A conditionally immortalized dendritic cell line which differentiates in contact with T cells or T cell-derived cytokines

A conditionally immortalized dendritic cell line was established from bone marrow of mice transgenic for a thermolabile mutant of the SV40 large T antigen under the control of the class I K^b promoter. At the permissive temperature of 33°–37°C, the line divides in the absence of granulocyte/macrophage colony stimulating factor. It shares a number of cell surface markers with bone marrow macrophages, but unlike macrophages, is constitutively major histocompatibility complex (MHC) class II⁺, negative for nonspecific esterase and unable to phagocytose sheep red blood cells. The cells show characteristic dendrites, an abundance of acidic vesicles and are highly active in endocytosis. If maintained at 33°C, the dendritic cell line processes and presents exogenous protein to MHC class II-restricted T cell hybrids and acts as potent mixed lymphocyte reaction stimulator, but fails to activate naive, resting T cells. Transfer to 39°C arrests growth and results in up-regulation of surface markers such as B7.1, CD40 and intercellular adhesion molecule-1. Further up-regulation of cell surface markers and acquisition of functional maturity occur following contact with T cells and their cognate antigen or in culture with a cytokine mixture derived from activated T cells.     

Triptolide inhibits IL-12 production and T cell-stimulatory capacity of dendritic cells

Extracts of Tripterygium wilfordii Hook F.(TWHF ) are effective in traditional Chinesemedicine for treatment of autoimmune diseasessuch as rheumatoid arthritis, systemic lupus ery thematosus, nephritis and asthma [1, 2]. Trip tolide, a diterpenoid triepoxide, is derived fromTWHF and is responsible for most of the immuno suppressive and anti inflammatory effects ofTWHF. Triptolide has been shown to be effectivein the treatment of autoimmune diseases, …     

IL-2基因修饰对树突状细胞的生物学特征和功能的影响

目的:观察白细胞介素2(IL-2)基因修饰对树突状细胞(DC)的生物学特征和功能的影响,探讨用IL-2基因修饰DC,增强DC介导特异性抗肿瘤免疫的机制。方法:IL－2基因修饰小鼠骨髓来源的DC后,用扫描电镜观察其表面形态的变化,FACS分析IL-2基因修饰对DC表面免疫分子表达的影响,RT-PCR方法检测DC中 IFN-γ mRNA表达。用3H-TdR掺入法检测IL-2基因修饰后,DC对同种异体T淋巴细胞的刺激作用和对肿瘤抗原的特异性提呈功能。结果:经IL-2基因修饰后,DC表面的伪足增多、变长;其表面与抗原提呈相关的免疫分子Ia、B7-1、B7-2和CD40的表达明显上调;il-2基因修饰的DC(DC-IL-2)中表达IFN-γ mRNA;CD-IL-2不但对同种异体T淋巴细胞有较强的促增殖作用,而且对肿瘤抗原的特异性提呈功能亦明显增强。结论:IL-2基因修饰DC,能促进DC的发育,上调DC表面与抗原提呈相关的免疫分子,增强了DC的生物活性。     

Murine dendritic cells pulsed in vitro with tumor antigen induce tumor resistance in vivo

The aim of this work is to induce tumor resistance to a B cell lymphoma in BALB/c mice using elements of the immune system. It has indeed been shown by us and by others that antigen-presenting cells (APC) like dendritic cells can induce efficient immune responses and can even substitute for Freund's adjuvant. Here we show that mice immunized with syngeneic dendritic cells pulsed in vitro with tumor antigen (BCL1 idiotype expressed by lymphoma cells) are protected against a subsequent tumor inoculation. The in vivo resistance can be correlated with the induction of a humoral response specific for the idiotype expressed by the tumor. No such protection can be achieved when B cells are used as APC. These data show that effector cells in tumor-bearing animals can be recruited and activated using dendritic cells, providing long-lasting immune surveillance.     

Autoimmune hepatic inflammation by vaccination of mice with dendritic cells loaded with well-differentiated hepatocellular carcinoma cells and administration of interleukin-12

Vaccination of mice with dendritic cells loaded with Hepa1-6, well-differentiated hepatocellular carcinoma cell line (DC/Hepa1-6), induced cytotoxic T lymphocytes against Hepa1-6. Liver-specific inflammation was generated by vaccination of mice with DC/Hepa1-6 and subsequent administration of interleukin (IL)-12. Vaccination with DCs loaded with MC38 or B16 and administration of IL-12 did not generate significant liver-specific inflammation. Splenic T cells from DC/Hepa1-6-vaccinated mice showed proliferative response by stimulation with S-100 protein of the liver and showed cytotoxic activity to hepatocytes. Hepatic mononuclear cells from DC/Hepa1-6 + IL-12-treated mice also showed cytotoxic activity to hepatocytes. Adoptive transfer of splenocytes from DC/Hepa1-6-vaccinated mice produced hepatic inflammation in recipient mice that had been pretreated with IL-12. IL-12 upregulated the expression of adhesion molecules and chemokines in the liver. In conclusion, CTLs responsive to hepatocytes induced by DC/Hepa1-6 and enhanced expression of adhesion molecules and chemokines in the liver by IL-12 would produce autoimmune hepatic inflammation.     

CD8- dendritic cells preferentially cross-present Saccharomyces cerevisiae antigens

Mouse splenic dendritic cell (DC) subsets possess distinct antigen-presentation abilities. CD8(+) DC are specialized in cross-presentation of antigens to CD8(+) T cells, whereas CD8(-) DC are more efficient in antigen presentation to CD4(+) T cells. In this study, we examined the capacity of CD8(+) and CD8(-) DC subsets to present fungal antigens in MHC class I and II molecules to CD8(+) and CD4(+) T cells, respectively. We used ovalbumin-expressing Saccharomyces cerevisiae (yeast-OVA) as a fungal model system. Both CD8(+) and CD8(-) DC subsets phagocytosed yeast in equal amounts and uptake was mediated via dectin-1. In addition, both DC subsets induced similar OVA-specific CD4(+) T cell proliferation after incubation with yeast-OVA. However, the induction of OVA-specific CD8(+) T cell activation was largely restricted to the CD8(-) DC subset. Furthermore, only CD8(-) DC produced cytokines such as IL-10 and TNF-alpha and increased IL-23p19 and IL-23p40 mRNA levels in response to yeast. Our results strongly suggest that DC subsets have different functions in the elicitation of adaptive immune responses in vivo.     

内皮细胞源性IL—8对人树突状细胞作用的研究

目的：探讨内皮源性白细胞介素－８（ＩＬ－８）对人树突状细胞（ＤＣ）的作用。方法：用ＴＮＦ－α分别诱导内皮细胞和单核细胞产生ＩＬ－８,并将这２种不同来源的ＩＬ－８分别加入ＤＣ常规诱导培养的早期（第３天）及后期（第７天）,培养至第９天收获细胞。采用流式细胞术（ＦＣＭ）分析ＤＣ的表型;体外混合淋巴细胞反应（ＭＬＲ）测定ＤＣ刺激Ｔ细胞增殖能力;ＥＬＩＳＡ检测培养上清中ＩＬ－１２的含量;ＰＩ染色观察ＤＣ凋亡。结果：在ＤＣ培养的早期（第３天）加入内皮源性ＩＬ－８可以抑制ＤＣ的成熟,ＦＣＭ分析表明：ＣＤ１ａ,ＣＤ４０,ＣＤ８０,ＣＤ８３,ＨＬＡ－ＤＲ等ＤＣ表面标志显著下降,而ＣＤ１４表达率明显高于常规培养组。同时,激发同种Ｔ细胞增殖的能力及分泌的ＩＬ－１２量均显著低于常规组（Ｐ〈０．０１）,而加入单核细胞来源的ＩＬ－８则无此     

Freshly isolated mouse 4F7+ splenic dendritic cells process and present exogenous antigens to T cells

The antibody 4F7 was reported to recognize an epitope expressed on dendritic cells (DC) from various tissues. To study the ability of splenic 4F7⁺ dendritic cells to process antigen for presentation to CD4⁺ T cells, DC were enriched using a separation procedure avoiding overnight culture which could lead to an altered phenotype. These DC were used as antigen-presenting cells (APC) in stimulation cultures of major histocompatibility complex class II-restricted T cells. It was found that they induce antigen-dependent lymphokine production by T cells and therefore could present exogenous antigens. These processing takes place intracellularly, because fixation abrogates presentation to T cells. Moreover, antigen presentation needs intracellular processing within endo- or lysosomes as chloroquine-treatment prevents T cell activation. Titration of APC numbers revealed that contaminating APC most likely did not account for antigen-specific T cell activation by DC. No evidence was found for release of antigenic peptides or for partial antigen processing possibly done by cell surface located enzymes on DC. In conclusion, these results indicate that freshly enriched DC are able to process antigens similarly to other APC.     

Associations between interleukin-23R and interleukin-12B polymorphisms and psoriasis susceptibility: a meta-analysis

Objective: The aim of this study was to determine whether interleukin (IL)-23?R and IL-12B polymorphisms confer susceptibility to psoriasis.

Methods: The authors conducted a meta-analysis on associations between the IL-23?R and IL-12B polymorphisms and psoriasis susceptibility.

Results: A total of 14 comparison studies were included in this meta-analysis. The meta-analysis identified a significant association between psoriasis and 2 alleles of the rs11209026 and rs7530511 polymorphisms in Europeans (odds ratio [OR]?=?0.624, 95% confidence interval [CI]?=?0.565–0.697, p?<?1.0?×?10^?8; OR?=?0.804, 95% CI?=?0.743–0.869, p?=?3.0?×?10^?7, respectively). Meta-analysis of IL-12B showed a significant association between the 2 alleles of the rs6887695 and rs3212227 polymorphisms and the risk of developing psoriasis (OR?=?0.710, 95% CI?=?0.673–0.749, p?<?1.0?×?10^?8; OR?=?0.684, 95% CI?=?0.639–0.731, p?<?1.0?×?10^?8, respectively). Stratification by ethnicity identified an association between the rs6887695 and rs3212227 polymorphisms and psoriasis in Europeans.

Conclusions: This meta-analysis showed that the IL-23?R (rs11209026 and rs7530511) polymorphisms are associated with psoriasis risk in Europeans and that the IL-12B (rs6887695 and rs3212227) polymorphisms are associated with susceptibility to psoriasis in Europeans.     

Induction of immunosuppressive functions of dendritic cells in vivo by CD4+CD25+ regulatory T cells: role of B7-H3 expression and antigen presentation

Suppressive functions of CD4+CD25+ regulatory T cells (Treg) are mainly studied by their interaction with conventional T cells. However, there is evidence that Treg also interact with antigen-presenting cells (APC), leading to suppression of APC function in in vitro coculture systems. Studying the in vivo distribution of Treg after injection, we found that Treg are located in direct proximity to dendritic cells (DC) and affect their functional maturation status. After contact to Treg, DC up-regulate the inhibitory B7-H3 molecule and display reduced numbers of MHC-peptide complexes, leading to impaired T cell stimulatory function. When Treg-exposed DC were used to immunize animals against antigens, the DC failed to produce a robust immune response as compared to control DC. Thus, these data indicate that Treg are able to inhibit DC activation and produce an inhibitory phenotype of DC. Accordingly, Treg may recruit DC for the amplification of immunosuppression by restraining their maturation in vivo and inducing an immunosuppressive phenotype of DC.     

Influence of B cell receptor ligation and TCR affinity on T-B collaboration in vitro

Co-culture of purified T and B cells obtained from cytochrome c-specific TCR- and hen egg lysozyme (HEL)-specific Ig-transgenic mice was used to examine the role of B cell receptor (BCR) ligation and TCR affinity on the efficiency of T-B cell collaboration. The results showed that BCR ligation of naive B cells with HEL was not required for effective presentation of high-affinity antigen to T cells, although it did enhance activation and division of both T and B cells. Anergic B cells were also effective at presentation of high-affinity antigen and proliferated more than naive B cells in response to T cell help, due to prior exposure to antigen in vivo. Despite the fact that induction of CD86 on anergic B cells following BCR ligation was suboptimal, these cells supported T cell activation and survival in culture as efficiently as naive B cells exposed to HEL. In contrast, when the low-affinity antigen mls-3^a served as the T cell stimulus, BCR ligation was essential to elicit a detectable T cell response. Thus the in vitro model demonstrates that co-stimulation is not an absolute requirement for effective antigen presentation and delivery of T cell help to B cells. Rather, the cooperative effects of BCR ligation and TCR affinity determine the relative requirement for co-stimulation.