Immunotherapy for the treatment of canine transmissible venereal tumor based in dendritic cells pulsed with tumoral exosomes

Context: Exosomes secreted by tumor cells are a good source of cellular components that stimulate the immune response, such as alarmins (mRNA, tetraspanins (CD9, CD63, CD81), heat-shock proteins, major histocompatibility complex class I molecules) and tumor-associated antigens. These properties permit to pulsed dendritic cells in the immunotherapy for many cancers types. The aim of this study was to demonstrate the use of exosomes derived from canine transmissible venereal tumor (CTVT) as an antigen to pulsed dendritic cells and its administration in dogs with CTVT as treatment against this disease.

Material and methods: From primary culture of CTVT cells the exosomes were isolated and characterized by scanning electron microscopy assay, dot blot and protein quantification. The monocytes of each patient were differentiated to dendritic cells (DC) and pulsed with CTVT exosomes (CTVTE). Phagocytosis, tumor size, populations of lymphocytes and IFN-c levels were evaluated.

Results: The CTVTE showed a size around 90 nm. CD81, CD63, CD9 and Hsp70 were expressed. Monocytes showed an expression of 85.71% for CD14⁺, 12.3% for CD80⁺, 0.1% for CD83⁺ and 0.8% for DLA-II. In DC 5.1% for CD14⁺, 86.7% for CD80⁺, 90.1% for CD83⁺ and 92.6% for DLA-II and a phagocytosis of 63% was obtained by FITC Dextran test. No side effects were observed in the experimental groups with our therapy. Tumor regression was of 100% at the seventh week, as well as an increase in the level of IFN-γ (142 pg/ml), and CD4⁺ (28%) and CD8⁺ (34%) cell percentage.

Discusion and conclusion: These results have shown that DC pulsed with tumor exosomes induce regression of the TVT in dogs.     

A dendritic cell-based assay for measuring memory T cells specific to dengue envelope proteins in human peripheral blood

Dengue envelope (E) protein is a dominant immune inducer and E protein-based vaccines elicited partial to complete protection in non-human primates. To study the immunogenicity of these vaccines in humans, an enzyme linked immunospot (ELISPOT) assay for measuring interferon gamma (IFN-γ) production was developed. Cells from two subject groups, based on dengue-exposure, were selected for assay development. The unique feature of the IFN-γ ELISPOT assay is the utilization of dendritic cells pulsed with E proteins as antigen presenting cells. IFN-γ production, ranging from 53-513 spot forming units per million peripheral blood mononuclear cells (PBMCs), was observed in dengue-exposed subjects as compared to 0-45 IFN-γ spot forming units in dengue-unexposed subjects. Further, both CD4⁺ and CD8⁺ T cells, and cells bearing CD45RO memory marker, were the major sources of IFN-γ production. The assay allowed quantification of E-specific IFN-γ-secreting memory T cells in subjects 9 years after exposure to a live-attenuated virus vaccine and live-virus challenge. Results suggested that the dendritic cell-based IFN-γ assay is a useful tool for assessing immunological memory for clinical research.     

通过肿瘤致敏的DCs活化的CD8+ T细胞可有效地杀死肿瘤细胞

目的：探索肿瘤裂解物负载的DCs诱导活化的初始T细胞介导细胞免疫及活化的T细胞杀死肿瘤细胞的能力。方法:应用黏附法分离外周血中的淋巴细胞和单核细胞,应用GM-CSF+IL-4刺激单核细胞并诱导为iDCs,然后进行分组，应用相应的细胞因子等刺激iDCs转化为mDCs,其中肿瘤裂解物冲击DCs组:冻融抗原负载+TNF-α+IL-1β; 无肿瘤裂解物冲击组: TNF-α+IL-1β。再分别用上述DCs与淋巴细胞进行混合培养以刺激混合淋巴细胞中的T细胞转化为细胞毒性T细胞, 并进行分组, 肿瘤裂解物冲击DCs组: 肿瘤裂解物冲击DCs+IL-2+IL-7；无肿瘤裂解物冲击DCs组: 无肿瘤裂解物冲击DCs+IL-2+IL-7；对照组: IL-2+IL-7。结果:成功获得iDCs,并高表达CD86、CD80和HLA-DR；相对于其它组，肿瘤裂解物冲击DCs组mDCs更显著上调CD83，且更有效地刺激淋巴细胞增殖； 肿瘤裂解物冲击DCs组的CTLs也高表达CD95(Fas)且TNF-α和IFN-γ的表达水平显著提高(P<0.05)。结论: 肿瘤裂解物冲击DCs可有效促进T细胞活化、增殖；并显著增强相应CTLs的杀死靶细胞的能力，这为发展DCs+CTLs的免疫治疗肿瘤提供了一种新而且简便的生物治疗模式。     

Immunotherapy with interferon-α-induced dendritic cells for chronic HCV infection (the results of pilot clinical trial)

The key role of T cells in hepatitis C virus (HCV) elimination and the ability of dendritic cells (DCs) to induce antiviral T cell responses suggest that DC vaccines could be a promising approach in the treatment of chronic HCV infection. The aim of our study was to evaluate, whether immunotherapy with DCs is safe and elicits anti-HCV T cell responses. Ten patients with HCV (genotype 1) were vaccinated with monocyte-derived DCs, generated in the presence of IFN-α (IFN-DCs) and pulsed with recombinant HCV Core and NS3 proteins. Treatment schedule included four subcutaneous vaccinations with 1?week interval and six vaccinations with month interval. No serious adverse events or an increase in hepatitis C biochemical activity were registered after vaccination. Using ex vivo assays for the detection of proliferative responses, IFN-γ production and CD8⁺ degranulation have shown that immunotherapy elicited antigen-specific responses in all patients although individual heterogeneity existed within their types, magnitude, and timing. Core/NS3-specific proliferative response and CD8⁺ T cell degranulation have already been registered after the first course of vaccination. Of note, Core-specific responses had higher magnitude. The appearance of antigen-specific IFN-γ responses was registered after the second vaccination course. Vaccination did not cause Th2 response and expansion of the CD4⁺CD25⁺CD127^? regulatory T cells. Generated immune responses failed to provide virus elimination. Nevertheless, there were inverse correlations between viral load and NS3-specific proliferation (R _S?=?0.62; p?=?0.05) and IFN-γ secretion (R _S?=???0.82; p?=?0.001) at 6-month post-treatment period. Immunotherapy with IFN-DCs was safe and elicited HCV-specific T cell responses which were insufficient to eliminate viruses but could be implicated in the restriction of viral replication.     

Thymic stromal lymphopoietin plays an adjuvant role in BCG-mediated CD8 cytotoxic T cell responses through dendritic cell activation

Although Bacillus Calmette–Guérin (BCG) has historically emerged as a potent adjuvant in cancer immunization through dendritic cell (DC) activation, the efficacy of its antitumor effect has been limited. Therefore, the strategy of adjuvant therapy using BCG needs to be improved by adding enhancers. Here we found that thymic stromal lymphopoietin (TSLP) acts as an enhancer for the BCG-mediated antitumor effect. While BCG-stimulated DCs induced CD8⁺ T cell production of IFN-γ without strong cell expansion, TSLP-stimulated DCs induced robust CD8⁺ T cell expansion without high quantities of IFN-γ production. Notably, DCs stimulated with both BCG and TSLP induced robust expansion of CD8⁺ T cells that produced a large amount of IFN-γ with a potent cytolytic activity related to granzyme B expression. Our data suggest that TSLP is a good adjuvant to enhance the BCG-mediated cytotoxic T cell effect through DC activation, and provide a functional basis for a novel strategy for antitumor immune-based therapy.     

IL-12hi Rapamycin-Conditioned Dendritic Cells Mediate IFN-γ–Dependent Apoptosis of Alloreactive CD4+ T Cells In Vitro and Reduce Lethal Graft-Versus-Host Disease

Rapamycin (RAPA) inhibits the mechanistic target of rapamycin (mTOR), a crucial immune system regulator. Dendritic cells (DC) generated in RAPA (RAPA-DC) enrich for CD4⁺ forkhead box p3 (FoxP3⁺) regulatory T cells and induce T cell apoptosis by an unknown mechanism. RAPA-DC also promote experimental allograft survival, yet paradoxically secrete increased IL-12, crucial for the generation of IFN-γ⁺ CD4⁺ T cells. However, IFN-γ is pro-apoptotic and IL-12-driven IFN-γ inhibits experimental graft-versus-host disease (GVHD). We hypothesized that IL-12^hi RAPA-DC would facilitate IFN-γ-mediated apoptosis of alloreactive T cells and, unlike control (CTR)-DC, would reduce lethal GVHD. Following LPS stimulation, RAPA-DC exhibited decreased MHCII and co-stimulatory molecules and contained a significant population of CD86^lo IL-12^hi cells. Consistent with our hypothesis, both unstimulated and LPS-stimulated RAPA-DC enhanced alloreactive CD4⁺ T cell apoptosis in culture. Augmented T cell apoptosis was ablated by IFN-γ neutralization or using T cells lacking the IFN-γ receptor, and it was associated with increased expression of Fas and cleaved caspase 8. DC production or responses to IFN-γ were not important to increased apoptotic functions of RAPA-DC. LPS-stimulated IL-12p40^−/− RAPA-DC induced lower levels of T cell apoptosis in culture, which was further decreased with addition of anti-IFN-γ. Finally, whereas CTR-DC accelerated mortality from GVHD, LPS-treated RAPA-DC significantly prolonged host survival. In conclusion, increased apoptosis of allogeneic CD4⁺ T cells induced by LPS-stimulated IL-12^hi RAPA-DC is mediated in vitro through IFN-γ and in part by increased IL-12 expression. Enhanced production of IL-12, the predominant inducer of IFN-γ by immune cells, is a probable mechanism underlying the capacity of LPS-treated RAPA-DC to reduce GVHD.     

Regulation of IFN-γ production in granulocyte-macrophage colony-stimulating factor-deficient mice

Granulocyte-macrophage colony-stimulating factor-deficient (GM-CSF−/−) mice produce far lower serum levels of IFN-γ in response to LPS than GM-CSF+/+ mice. CD4⁺ and CD8⁺ T cells from LPS-injected GM-CSF−/− mice showed a deficiency in IFN-γ production and proliferative activity in response to IL-2 and IL-12, whereas IFN-γ production by NK cells was not compromised. These defects of T cells were reversed by administration of GM-CSF in vivo, but not by supplementation with GM-CSF in vitro. GM-CSF−/− mice do not have an intrinsic defect in IFN-γ production, because IL-12 injection induces the same high levels of IFN-γ in GM-CSF−/− and GM-CSF+/+ mice. To investigate the inhibitory effect of LPS on GM-CSF−/− T cells and the indirect restorative activity of GM-CSF, we tested the action of supernatants from cultured dendritic cells (DC). A factor or factors in the DC supernatant normalized serum IFN-γ levels and T cell responses in LPS-injected GM-CSF−/− mice. IL-18 reproduced some but not all of these in vivo and in vitro effects of DC supernatants. Our results indicate that GM-CSF is important in protecting T cells from inhibitory signals generated during immunization or exposure to LPS, and that this effect of GM-CSF is indirect and mediated by factors produced by DC.     

Pro-inflammatory cytokines and prostaglandins induce maturation of potent immunostimulatory dendritic cells under fetal calf serum-free conditions

Culture conditions for human dendritic cells (DC) have been developed by several laboratories. Most of these culture methods, however, have used conditions involving fetal calf serum (FCS) to generate DC in the presence of granulocyte-macrophage colony-stimulating factor and interleukin (IL)-4. Recently, alternative culture conditions have been described using an additional stimulation with monocyte-conditioned medium (MCM) and FCS-free media to generate DC. As MCM is a rather undefined cocktail, the yield and quality of DC generated by these cultures varies substantially. We report that a defined cocktail of tumor necrosis factor (TNF)-α, IL-1β and IL-6 equals MCM in its potency to generate DC. Addition of prostaglandin (PG)E₂ to the cytokine cocktail further enhanced the yield, maturation, migratory and immunostimulatory capacity of the DC generated. More importantly, culture conditions also influenced the outcome of the T cell response induced. DC cultured with TNF-α/IL-1/IL-6 or MCM alone induced CD4⁺ T cells that release intermediate levels of interferon (IFN)-γ and no IL-4 or IL-10. Production of IFN-γ was significantly induced by addition of PGE₂, while no effect on production of IL-4 or IL-10 was observed. Even more striking differences were observed for CD8⁺ T cells. While MCM conditions only induced IFN-γ^low, IL-4^neg cells, TNF-α/IL-1/IL-6 promoted growth of IFN-γ^intermediate, IL-4^neg CD8⁺ T cells. Addition of PGE₂ again only further polarized this pattern enhancing IFN-γ production by alloreactive CD8⁺ T cells in both cultures without inducing type 2 cytokines. Taken together, the data indicate that the defined cocktail TNF-α/IL-1/IL-6 can substitute for MCM and that addition of PGE₂ further enhances the yield and quality of DC generated. TNF-α/IL-1, IL-6 + PGE₂-cultured DC seem to be optimal for generation of IFN-γ-producing CD4/CD8⁺ T cells.     

Generation of antitumor response by IL-2-transduced JAWS II dendritic cells

Antigen-loaded dendritic cells (DCs) are a promising tool for inducing a tumor-specific immune response. It seems probable that co-administration of those cells together with cytokine-transduced DCs can further increase effectiveness of the antitumor vaccine. The local production of IL-2 by genetically modified DCs may result in alteration of the unfavorable tumor environment causing immune response dysfunction.In the presented study murine DCs of an established JAWS II cell line were transduced with a retroviral vector carrying murine IL-2 gene (JAWS II/IL-2). JAWS II/IL-2 cells demonstrated slightly decreased tumor antigen (TAg) uptake capacities. However, this modification resulted in enhanced ability of the cells to migrate in vivo. The multiple injection of vaccines containing JAWS II/IL-2 cells caused MC38 tumor growth delay and prolonged mice survival. The immunological response was manifested as cytotoxic natural killer (NK) and T cell activation and tumor tissue infiltration by CD8⁺ and CD4⁺ cells, accompanied by increased IFN-γ production by spleen cells. These observations suggest that repeated peritumoral administration of IL-2-producing dendritic cells can inhibit tumor growth by intensification of CD8⁺ and CD4⁺ cells’ influx into tumor tissue and further activation of the systemic antitumor response. It can be concluded that IL-2 transduced dendritic cells may be used as a potent adjuvant in antitumor immunotherapy.     

Development in vitro of human CD4+ thymocytes into functionally mature Th2 cells. Exogenous interleukin-12 is required for priming thymocytes to produce both Th1 cytokines and interleukin-10

Fresh postnatal thymocyte cell suspensions were directly cloned under limiting dilution conditions with either phytohemagglutinin or toxic shock syndrome toxin-1 (TSST-1), a bacterial superantigen. Cultures contained allogenic irradiated feeder cells and interleukin (IL)-2, in the absence or presence of exogenous IL-4, interferon (IFN)-γ or IL-12. The resulting CD4⁺ T cell clones generated under these different experimental conditions were then analyzed for their ability to produce IL-2, IL-4, IL-5, IL-10, IFN-γ and tumor necrosis factor (TNF)-β in response to stimulation with phorbol 12-myristate 13-acetate (PMA)+anti-CD3 monoclonal antibody or PMA + ionomycin. Different from T cell clones generated from peripheral blood, virtually all CD4⁺ T cell clones generated from human thymocytes produced high concentrations of IL-2, IL-4 and IL-5, but no IFN-γ, TNF-β or IL-10. Moreover, after activation, these clones expressed on their surface membrane both CD30 and CD40 ligand, but not the product of lymphocyte activation gene (LAG)-3, and provided strong helper activity for IgE synthesis by allogeneic B cells. The Th2 cytokine pattern could not be modified by the addition of IFN-γ. However, upon addition of exogenous IL-12, the resulting CD4⁺ thymocyte clones produced TNF-β, IFN-γ, and IL-10 in addition to IL-4 and IL-5. These results suggest that CD4⁺ human thymocytes have the potential to develop into cells producing the Th2 cytokines IL-4 and IL-5, whereas the ability to produce both Th1 cytokines and IL-10 is acquired only after priming with IL-12.     

Enhanced stimulation of anti-ovarian cancer CD8(+) T cells by dendritic cells loaded with nanoparticle encapsulated tumor antigen

Citation
Hanlon DJ, Aldo PB, Devine L, Alvero AB, Engberg AK, Edelson R, Mor G. Enhanced stimulation of anti‐ovarian cancer CD8⁺ T cells by dendritic cells loaded with nanoparticle encapsulated tumor antigen. Am J Reprod Immunol 2011; 65: 597–609 Problem Dendritic cell (DC)‐based cancer therapies are favored approaches to stimulate anti‐tumor T‐cell responses. Unfortunately, tolerance to tumor antigens is difficult to overcome. Biodegradable poly(lactic‐co‐glycolic acid) (PLGA) nanoparticles (NP) are effective reagents in the delivery of drugs and tumor‐associated antigens (TAA). In this study, we assessed the capacity of a PLGA NP‐based delivery system to augment CD8 T‐cell responses to ovarian cancer TAA. Method of Study Human DC were generated from blood monocytes by conventional in vitro differentiation and loaded with either soluble tumor lysate or NP/lysate conjugates (NPL). These antigen‐loaded DC were then used to stimulate autologous CD8⁺ T cells. Cytokine production and activation markers were evaluated in the CD8⁺ T cells. Results DC loading with NPL increased cytokine production by stimulated CD8 T cells and induced T‐cell expression of cell surface co‐stimulatory molecules, typical of anti‐tumor immune responses. In contrast, delivery of naked tumor lysate antigens preferentially induced a T‐cell profile characteristic of tolerization/exhaustion. Conclusion These findings indicate that delivery of TAA in NP enables DC to efficiently activate anti‐tumor CD8⁺ T cells. PLGA NP encapsulation of tumor‐derived lysate protein antigens is an encouraging new preparative methodology for DC‐based vaccination meriting clinical testing.     

Ex Vivo Triggering of T-Cell-Mediated Immune Responses by Autologous Tumor Cell Vaccine in Oral Cancer Patients

We investigated immunomodulatory activity of autologous tumor cell vaccine from oral cancer patients ex vivo by lymphoproliferation assay and two color flow cytometry. Vaccine treatment lead to 10-fold higher proliferation of lymphocytes compared with the untreated controls. A significant increase in CD69⁺ and HLA-DR⁺ T-cells was observed in vaccine pulsed cultures compared with untreated (p<0.0001) controls. The frequency of IFN-γ and IL-2 expressing CD4⁺/CD8⁺T-cell subsets was significantly higher with a concomitant reduction in IL-4 and IL-10 expression in the vaccine-treated group (p<0.0001) compared with the untreated controls. Vaccine treatment further increased T-cell receptor Vβ3, Vβ5, and Vβ8 usage. It seems that the autologous tumor cell vaccine triggers T‐cell responses ex vivo, hence it may have a protective role in oral cancer patients.     

T cell response in murine Leishmanial mexicana amazonensis infection: production of interferon-γby CD8+ cells

The immune response to Leishmania major has been the subject of many investigations. However, Leishmania includes many species with different clinical manifestations. In this report, we studied the Tcell response to L. mexicana amazonensis, a New World species, in a murine model. We found that, similar to L. major, an Old World species, resistant C57BL/6 mice produced a high level of IFN-γ and a low level of IL-4. Conversely, susceptible BALB/c mice produced a much lower level of IFN-γ and higher level of IL-4. Although IFN-γ is one of the important lymphokines that mediate macrophage activation and thus the destruction of the intracellular parasites, which lymphocyte subsets are producing the IFN-γ is still a controversy. Much evidence including the isolation of protective, IFN-γ-producing, CD4⁺ cell lines have confirmed the participation of CD4⁺ Thl cells unequivocally. However, both CD4⁺ and CD8⁺ cells produced IFN-γ. Recently, an increasing body of evidence has appeared suggesting that CD8⁺ cells also play a role in the resolution of murine L. major infection. We found that in the L. m. amazonensis model, when CD8⁺ lymphocytes from resistant C57BL/6 mice were eliminated by anti-CD8 antibody and complement-mediated lysis, the IFN-γ production was reduced by 77%. This indicated that CD8⁺ cells produced a significant amount of the IFN-γ. However, our results also indicate that IFN-γ production by CD8⁺ cells was dependent on CD4⁺ cells.     

Splenic T lymphocytes induce the formation of immunosuppressive neutrophils through IFN-γ in sepsis

Background

Despite many advances in treatment, the prognosis of patients with sepsis still remains poor. Polymorphonuclear leukocytes (PMNs) are the first line of defense against infection. This study aimed to reveal the reason and mechanism of the production of PD-L1⁺ PMNs in sepsis.

Methods

Cecal ligation and perforation mouse model was established to simulate sepsis. And PMNs were treated for 4 h, 12 h with or without 100 ng/mL (IFN-γ) for further gene sequencing. PD-L1, PD-1, Ly6G, and CD3 were detected by multiplexed immunofluorescence. In addition, expression of PD-L1 and function of PMNs were assessed by flow cytometry. Serum and cell culture supernatant were measured with ELISA assays. Western blot was used to verify the JAK2/STAT1 pathway.

Results

Our study demonstrates that PMNs are the main immune cells with high expression of PD-L1 during sepsis, and these cells, therefore, play a critical role in immunosuppression. In vivo studies demonstrated a specific interaction between PD-L1⁺ PMNs and PD-1⁺ T cells. In vitro studies further demonstrated that IFN-γ induced the production of PD-L1⁺ PMNs through the JAK2/STAT1 pathway. In addition, Fedratinib, an inhibitor of Jak2, was shown to significantly reduce the expression of PD-L1 in neutrophils.

Conclusions

These data demonstrate that secretion of IFN-γ by splenic T lymphocytes induces the production of PD-L1?+?PMNs through the JAK2/STAT1 pathway in sepsis.

     

Specific expression of surface interferon-γ on interferon-γ producing T cells from mouse and man

Interferon (IFN)-γ is a potent immunoregulatory protein secreted by CD4⁺ and CD8⁺ T cells and by natural killer cells. Here, we show that IFN-γ is specifically displayed at a low concentration on the cell surface of those activated T cells from mouse and man which express IFN-γ. It is transiently expressed on the cell surface with kinetics similar to those of intracellular IFN-γ expression. Detectable surface IFN-γ is not expressed by activated T helper (Th) cells producing other cytokines but which do not express IFN-γ. Thus, surface IFN-γ is the first available marker for live T lymphocytes expressing IFN-γ, e.g. Th1 cells.     

Schistosoma-specific helper T cell clones from subjects resistant to infection by Schistosoma mansoni are Th0/2

Although T helper cells play a critical role in human immunity against schistosomes, the properties of the T lymphocytes that govern resistance and pathogenesis in human schistosomiasis are still poorly defined. This work addresses the question as to whether human resistance to Schistosoma mansoni is associated with a particular T helper subset. Twenty-eight CD3⁺, CD4⁺, CD8^? parasite-specific T cell clones were isolated from three adults with high degree of resistance to infection by S. mansoni. The lymphokine secretion profiles of these clones were determined and compared to those of 21 CD3⁺, CD4⁺, CD8^? clones with unknown specificity, established from these same subjects in the same cloning experiment. Almost all parasite-specific clones produced interleukin (IL)-4 and interferon (IFN)-γ in large amounts. However, they generally produced more IL-4 than IFN-γ; variations in IL-4/IFN-γ ratios were accounted for by differences in IFN-γ production since IL-4 levels were comparable for the clones from the three subjects. T cell clones of unknown specificity produced significantly less IL-4 and more IFN-γ than parasite-specific T cell clones. Most clones produced IL-2, and IL-2 production did not differ between the two types of clones. Parasite-specific T cell clones from the resistant subjects were compared to specific T cell clones from a sensitized adult from a nonendemic area: T cell clones from this latter subject were the highest IFN-γ and the lowest IL-4 producers, compared to those of resistant subjects. Thus, parasite-specific T cell clones isolated from adults resistant to S. mansoni belong to the Th0 subset and produced more IL-4 than IFN-γ (Th0/2), whereas clones of a sensitized adult from a nonendemic area are also Th0, but produce more IFN-γ than IL-4 (Th0/1). These results support previous conclusions on the role of IgE in protection against schistosomes in humans, and may indicate that IFN-γ is required for full protection.     

Establishment of a cell line with features of early dendritic cell precursors from fetal mouse skin

During ontogeny, the skin is progressively populated by major histocompatibility complex class II-negative dendritic cell (DC) precursors that then mature into efficient antigen-presenting cells (APC). To characterize these DC progenitors better, we generated myeloid cell lines from fetal mouse skin by infecting cell suspensions with a retroviral vector carrying an env^AKR-myc^MH2 fusion gene. These cells, represented by the line FSDC, displayed a dendritic morphology and their proliferation in serum-free medium was promoted by granulocyte/macrophage colony-stimulating factor (GM-CSF), but not macrophage-CSF. FSDC expressed strong surface-membrane ATP/ADPase activity, intracellular staining for 2A1 antigen, and a surface phenotype consistent with a myeloid precursor: H-2^d.b+, I-A^d.b+, CD54⁺, CD11b⁺, CD11c⁺, 2.4G2⁺, F4/80⁺, CD44⁺, 2F8⁺, ER-MP 12^?, Sca-1⁺, Sca-2⁺, NLDC-145^?, B7.2⁺, B7.1^?, J11d^?, B220^?, Thy-1^?, and CD3^?. FSDC stimulated poorly allogeneic or syngeneic T cells in the primary mixed-leukocyte reaction, and markedly increased this function after treatment with GM-CSF, GM-CSF and interleukin (IL)-4 or interferon-γ (IFN-γ); in contrast, stem cell factor, IL-1α and tumor necrosis factor-α had no effect. Preculture with IFN-γ was required for presentation of haptens to primed T cells in vitro. However, FSDC, even after cytokine activation, were less potent APC than adult epidermal Langerhans cells in both of the above assays. Finally, FSDC derivatized with haptens and injected either intravenously or subcutaneously could efficiently induce contact sensitivity responses in naive syngeneic mice. The results indicate that fetal mouse skin is colonized by myeloid precursors possessing a macrophage/immature DC-like surface phenotype and priming capacity in vivo. These cells need further differentiation and activation signals (e.g. cytokines) to express their antigen presenting potential in vitro.     

Influence of a mutation in IFN-γ receptor 2 (IFNGR2) in human cells on the generation of Th17 cells in memory T cells

The T cell subsets involved in inflammatory reactions are mainly the IFN-γ secreting Th1 cells and IL17-producing Th17 cells. Although Th17 cells are primed in the thymus, there is evidence that Th17 cells can be generated from effector memory CD4⁺ T cells. Cytokines as IL-6, TGF-β, IL-21 and IL-23 involved in development of Th17 cells are well described. Here we analyzed the impact of a mutation in the IFN-γ receptor 2 (IFN-γR2) on the induction of Th17 cells. By isolation of T cells and monocytes of a patient with this mutation we could demonstrate an inhibitory role of IFN-γ signaling as IFN-γR2-deficient monocytes induce a higher percentage of IL-17⁺ cells from both healthy and IFN-γR2-deficient CD4⁺ T cells. This data confirm the interference of these two T helper subsets and points to a balance of Th1 and Th17 cells obtained by their own cytokine production and their interplay with APCs.