CD161++CD8+ T cells,including the MAIT cell subset,are specifically activated by IL‐12+IL‐18 in a TCR‐independent manner

CD161⁺⁺CD8⁺ T cells represent a novel subset that is dominated in adult peripheral blood by mucosal‐associated invariant T (MAIT) cells, as defined by the expression of a variable‐α chain 7.2 (Vα7.2)‐Jα33 TCR, and IL‐18Rα. Stimulation with IL‐18+IL‐12 is known to induce IFN‐γ by both NK cells and, to a more limited extent, T cells. Here, we show the CD161⁺⁺ CD8⁺ T‐cell population is the primary T‐cell population triggered by this mechanism. Both CD161⁺⁺Vα7.2⁺ and CD161⁺⁺Vα7.2^? T‐cell subsets responded to IL‐12+IL‐18 stimulation, demonstrating this response was not restricted to the MAIT cells, but to the CD161⁺⁺ phenotype. Bacteria and TLR agonists also indirectly triggered IFN‐γ expression via IL‐12 and IL‐18. These data show that CD161⁺⁺ T cells are the predominant T‐cell population that responds directly to IL‐12+IL‐18 stimulation. Furthermore, our findings broaden the potential role of MAIT cells beyond bacterial responsiveness to potentially include viral infections and other inflammatory stimuli.     

Role of CD4 T cell helper subsets in immune response and deviation of CD8 T cells in mice*

The ability of different CD4⁺ T cell subsets to help CD8⁺ T‐cell response is not fully understood. Here, we found using the murine system that Th17 cells induced by IL‐1β, unlike Th1, were not effective helpers for antiviral CD8 responses as measured by IFNγ‐producing cells or protection against virus infection. However, they skewed CD8 responses to a Tc17 phenotype. Thus, the apparent lack of help was actually immune deviation. This skewing depended on both IL‐21 and IL‐23. To overcome this effect, we inhibited Th17 induction by blocking TGF‐β. Anti‐TGF‐β allowed the IL‐1β adjuvant to enhance CD8⁺ T‐cell responses without skewing the phenotype to Tc17, thereby providing an approach to harness the benefit of common IL‐1‐inducing adjuvants like alum without immune deviation.     

IL‐10 promotes homeostatic proliferation of human CD8+ memory T cells and,when produced by CD1c+ DCs,shapes naive CD8+ T‐cell priming

IL‐10 is an anti‐inflammatory cytokine that inhibits maturation and cytokine production of dendritic cells (DCs). Although mature DCs have the unique capacity to prime CD8⁺ CTL, IL‐10 can promote CTL responses. To understand these paradoxic findings, we analyzed the role of IL‐10 produced by human APC subsets in T‐cell responses. IL‐10 production was restricted to CD1c⁺ DCs and CD14⁺ monocytes. Interestingly, it was differentially regulated, since R848 induced IL‐10 in DCs, but inhibited IL‐10 in monocytes. Autocrine IL‐10 had only a weak inhibitory effect on DC maturation, cytokine production, and CTL priming with high‐affinity peptides. Nevertheless, it completely blocked cross‐priming and priming with low‐affinity peptides of a self/tumor‐antigen. IL‐10 also inhibited CD1c⁺ DC‐induced CD4⁺ T‐cell priming and enhanced Foxp3 induction, but was insufficient to induce T‐cell IL‐10 production. CD1c⁺ DC‐derived IL‐10 had also no effect on DC‐induced secondary expansions of memory CTL. However, IL‐15‐driven, TCR‐independent proliferation of memory CTL was enhanced by IL‐10. We conclude that DC‐derived IL‐10 selects high‐affinity CTL upon priming. Moreover, IL‐10 preserves established CTL memory by enhancing IL‐15‐dependent homeostatic proliferation. These combined effects on CTL priming and memory maintenance provide a plausible mechanism how IL‐10 promotes CTL responses in humans.     

Interleukin‐4 downregulates CD127 expression and activity on human thymocytes and mature CD8+ T cells

Signaling via the IL‐7 receptor complex (IL‐7Rα/CD127 and IL‐2Rγ/CD132) is required for T‐cell development and survival. Decreased CD127 expression has been associated with persistent viral infections (e.g. HIV, HCV) and cancer. Many IL‐2Rγ‐sharing (γ_C) cytokines decrease CD127 expression on CD4⁺ and CD8⁺ T cells in mice (IL‐2, IL‐4, IL‐7, IL‐15) and in humans (IL‐2, IL‐7), suggesting a common function. IL‐4 is of particular interest as it is upregulated in HIV infection and in thyroid and colon cancers. The role of IL‐4 in regulating CD127 expression and IL‐7 activity in human thymocytes and mature CD8⁺ T cells is unknown and was therefore investigated. IL‐4 decreased CD127 expression on all thymocyte subsets tested and only on naïve (CD45RA⁺) CD8⁺ T cells, without altering membrane‐bound CD127 mRNA expression. Pre‐treatment of thymocytes or CD8⁺ T cells with IL‐4 inhibited IL‐7‐mediated phosphorylation of STAT5 and decreased proliferation of CD8⁺ T cells. By downregulating CD127 expression and signaling on developing thymocytes and CD8⁺ T cells, IL‐4 is a potential contributor to impaired CD8⁺ T‐cell function in some anti‐viral and anti‐tumor responses. These findings are of particular consequence to diseases such as HIV, HCV, RSV, measles and cancer, in which CD127 expression is decreased, IL‐7 activity is impaired and IL‐4 concentrations are elevated.     

Interleukin‐2 reverses CD8+ T cell exhaustion in clinical malignant pleural effusion of lung cancer

Malignant pleural effusion (MPE) is a poor prognostic sign for cancer patients, whereas the functional condition of MPE CD8⁺ T cells is unknown. Intracavitary immunotherapy with interleukin (IL)‐2 has been proven effective in controlling MPE. To elucidate the underlying mechanism, 35 lung cancer (LC) patients with MPE and 12 healthy donors were included in this study. For the IL‐2 therapy experiments, after draining partial MPE, we treated 14 patients by administrating IL‐2 (3 or 5 × 10⁶ U in 50 ml saline) into the thoracic cavity. Before and after IL‐2 treatment (40‐48 h), the MPE and peripheral blood (PB) were obtained from the subjects. PB from healthy volunteers was collected as control. The expression of programmed cell death 1 (PD‐1), granzyme B (GzmB), interferon (IFN)‐γ and the proliferation were analysed in CD8⁺ T cells from MPE and PB. The CD8⁺ T cells in the MPE of LC patients showed lowest GzmB, IFN‐γ and proliferation but highest PD‐1 expression, compared with that in PB of LC patients and healthy donors. IL‐2 treatment reduced the expression of PD‐1, increased the expression of GzmB and IFN‐γ and enhanced the proliferation of CD8⁺ T cells in MPE. In addition, IL‐2 treatment reduced carcino‐embryonic antigen (CEA) level in MPE. These results indicate that MPE CD8⁺ T cells exhibit exhaustion phenotype which can be reversed by IL‐2 therapy.     

Modified vaccinia Ankara‐expressing Ag85A,a novel tuberculosis vaccine,is safe in adolescents and children,and induces polyfunctional CD4+ T cells

Modified vaccinia Ankara‐expressing Ag85A (MVA85A) is a new tuberculosis (TB) vaccine aimed at enhancing immunity induced by BCG. We investigated the safety and immunogenicity of MVA85A in healthy adolescents and children from a TB endemic region, who received BCG at birth. Twelve adolescents and 24 children were vaccinated and followed up for 12 or 6 months, respectively. Adverse events were documented and vaccine‐induced immune responses assessed by IFN‐γ ELISpot and intracellular cytokine staining. The vaccine was well tolerated and there were no vaccine‐related serious adverse events. MVA85A induced potent and durable T‐cell responses. Multiple CD4⁺ T‐cell subsets, based on expression of IFN‐γ, TNF‐α, IL‐2, IL‐17 and GM‐CSF, were induced. Polyfunctional CD4⁺ T cells co‐expressing IFN‐γ, TNF‐α and IL‐2 dominated the response in both age groups. A novel CD4⁺ cell subset co‐expressing these three Th1 cytokines and IL‐17 was induced in adolescents, while a novel CD4⁺ T‐cell subset co‐expressing Th1 cytokines and GM‐CSF was induced in children. Ag‐specific CD8⁺ T cells were not detected. We conclude that in adolescents and children MVA85A safely induces the type of immunity thought to be important in protection against TB. This includes induction of novel Th1‐cell populations that have not been previously described in humans.     

IL‐15‐dependent CD8+CD122+ T cells ameliorate experimental autoimmune encephalomyelitis by modulating IL‐17 production by CD4+ T cells

Interleukin‐15 (IL‐15) is an inflammatory cytokine whose role in autoimmune diseases has not been fully elucidated. Th17 cells have been shown to play critical roles in experimental autoimmune encephalomyelitis (EAE) models. In this study, we demonstrate that blockade of IL‐15 signaling by TMβ‐1 mAb treatment aggravated EAE severity. The key mechanism was not NK‐cell depletion but depletion of CD8⁺CD122⁺ T cells. Adoptive transfer of exogenous CD8⁺CD122⁺ T cells to TMβ‐1‐treated mice rescued animals from severe disease. Moreover, transfer of preactivated CD8⁺CD122⁺ T cells prevented EAE development and significantly reduced IL‐17 secretion. Naïve effector CD4⁺CD25^? T cells cultured with either CD8⁺CD122⁺ T cells from wild‐type mice or IL‐15 transgenic mice displayed lower frequencies of IL‐17A production with lower amounts of IL‐17 in the supernatants when compared with production by effector CD4⁺CD25^? T cells cultured alone. Addition of a neutralizing antibody to IL‐10 led to recovery of IL‐17A production in Th17 cultures. Furthermore, coculture of CD8⁺CD122⁺ T cells with effector CD4⁺ T cells inhibited their proliferation significantly, suggesting a regulatory function for IL‐15 dependent CD8⁺CD122⁺ T cells. Taken together, these observations suggest that IL‐15, acting through CD8⁺CD122⁺ T cells, has a negative regulatory role in reducing IL‐17 production and Th17‐mediated EAE inflammation.     

Wnt5a Inhibits Human Monocyte‐Derived Myeloid Dendritic Cell Generation

Wnt5a is a non‐canonical Wnt protein that is expressed at elevated levels in inflammatory conditions. Its role in inflammation remains unclear, although it is known that Wnt5a is expressed at a higher level in monocyte‐derived myeloid dendritic cells (Mo‐mDCs) than in monocytes and macrophages. The function of Wnt5a in dendritic cells (DCs) remains relatively unexplored. Here, we found that under Mo‐mDC culture conditions, Wnt5a inhibited the generation of CD14^+/low Mo‐mDCs while promoting the generation of CD14^+/++ CD16⁺ monocytes. We could further show that stimulation of monocytes with rWnt5a induced a rapid IL‐6 production and that the rWnt5a treated Mo‐mDC differentiation was restored upon blocking of IL‐6. Also, conditioned media from Wnt5a stimulated human breast cancer cells producing IL‐6, specifically inhibited Mo‐mDC differentiation. These observations are strengthened by our finding that patients with sepsis, a disease involving elevated Wnt5a and IL‐6 levels, also showed a significant increase in the CD14⁺ CD16⁺⁺/CD14^+/++ CD16⁺ monocyte populations, which was accompanied by a significant decrease in circulating mDCs. We finally show that under typical Mo‐mDC culture conditions, monocytes isolated from patients with sepsis as compared to healthy controls, preferentially differentiated into CD14^+/++ HLA‐DR⁺⁺ cells. We suggest that Wnt5a is a possible candidate mediator for the CD14^+/++ CD16⁺ monocyte accumulation seen in patients with infectious disease and cancer.     

CD147 modulates the differentiation of T‐helper 17 cells in patients with rheumatoid arthritis

The role of CD147 in regulation of rheumatoid arthritis (RA) is not fully elucidated. The aim of this study was to investigate the effect of cell‐to‐cell contact of activated CD14⁺ monocytes with CD4⁺ T cells, and the modulatory role of CD147 on T‐helper 17 (Th17) cells differentiation in patients with RA. Twenty confirmed active RA patients and twenty normal controls were enrolled. CD4⁺ T cells and CD14⁺ monocytes were purified by magnetic beads cell sorting. Cells were cultured under different conditions in CD4⁺ T cells alone, direct cell‐to‐cell contact co‐culture of CD4⁺ and CD14⁺ cells, or indirect transwell co‐culture of CD4⁺/CD14⁺ cells in response to LPS and anti‐CD3 stimulation with or without anti‐CD147 antibody pretreatments. The proportion of IL‐17‐producing CD4⁺ T cells (defined as Th17 cells) was determined by flow cytometry. The levels of interleukin (IL)‐17, IL‐6, and IL‐1β in the supernatants of cultured cells were measured by ELISA. The optimal condition for in vitro induction of Th17 cells differentiation was co‐stimulation with 0.1 μg/mL of LPS and 100 ng/mL of anti‐CD3 for 3 days under direct cell‐to‐cell contact co‐culture of CD4⁺ and CD14⁺ cells. Anti‐CD147 antibody reduced the proportion of Th17 cells, and also inhibited the productions of IL‐17, IL‐6, and IL‐1β in PBMC culture from RA patients. The current results revealed that Th17 differentiation required cell‐to‐cell contact with activated monocytes. CD147 promoted the differentiation of Th17 cells by regulation of cytokine production, which provided the evidence for pathogenesis and potential therapeutic targets for RA.     

Comparative Analysis of the Morphological, Cytochemical, Immunophenotypical, and Functional Characteristics of Normal Human Peripheral Blood Lineage/CD16/HLA-DR/CD14 Cells, CD14 Monocytes, and CD16 Dendritic Cells

Human peripheral blood (PB) CD14^lo/HLA-DR⁺ cells were initially described as a subset of mature monocytes. Recently, it has been suggested that these represent a part of a new subset of dendritic cells (DC), characterized by the coexpression of MDC-8/HLA-DR/CD16. The aim of the present paper was to analyze the morphological, cytochemical, phenotypical, and functional characteristics of PB CD16⁺/HLA-DR⁺ cells compared to both PB CD14⁺ monocytes and CD16⁻ DC. In contrast to CD14⁺ monocytes, purified CD16⁺/HLA-DR⁺ cells displayed cytoplasmic veils and lacked cytoplasmic myeloperoxidase and α-naphthyl acetate esterase. Normal human PB CD16⁺/HLA-DR⁺ cells also displayed phenotypic characteristics different from those of CD14⁺ monocytes: they lacked the CD64 Fcγ receptor, showed lower levels of CD32, and expressed higher amounts of CD16 compared to CD14⁺ monocytes. They also displayed a different pattern of expression of other antigens, including CD14, HLA-DR, CD45RA, CD45RO, complement receptors and complement regulatory surface proteins, adhesion and costimulatory molecules, and cytokine receptors, among others. When compared to CD16⁻ DC, CD16⁺/HLA-DR⁺ cells showed reactivity for CD16, dim positivity for CD14, higher expression of both Ig- and complement-receptors and lower reactivity for HLA-DR, adhesion, and costimulatory molecules (with the exception of CD86). The CD16⁺/HLA-DR⁺ cell subset displayed a higher Ig/complement-mediated phagocytic/oxidative activity than CD16⁻ DC, although this activity was significantly lower than that of mature monocytes. Regarding cytokine production at the single cell level, LPS plus IFN-γ-stimulated PB CD16⁺/HLA-DR⁺ cells produced significant amounts of IL1β, IL6, IL12, TNFα, and IL8; however, the percentage of cytokine-producing cells and the amount of cytokine/cell were lower in CD16⁺/HLA-DR⁺ cells than in CD14⁺ monocytes. In addition, upon comparing CD16⁺/HLA-DR⁺ cells with CD33⁺⁺⁺/CD16⁻ DC, we found that the percentage of cytokine-producing cells and the amount of cytokine/cell were significantly different in both cell subsets. In summary, our results show that CD16⁺/HLA-DR⁺ cells clearly display different morphologic, cytochemical, immunophenotypical, and functional characteristics compared to both mature monocytes and CD16⁻ DC. Interestingly, these cells are more frequent than other DC in normal human adult PB and cord blood samples, while they are less represented in normal bone marrow.     

Immunoregulation therapy changes the frequency of interleukin (IL)‐22+CD4+ T cells in systemic lupus erythematosus patients

T cell and T cell‐related cytokine abnormalities are involved in the pathogenesis of systemic lupus erythematosus (SLE). Our previous study showed that the interleukin (IL)‐22⁺CD4⁺T cells and IL‐22 play an important role in the pathogenesis of SLE. In this study, we aimed to investigate the effects of glucocorticoids (GCs) and immunodepressant agents on IL‐22 and IL‐22‐producing T cell subsets in SLE patients. The frequencies of peripheral blood T helper type 22 (Th22), IL‐22⁺Th17, IL‐22⁺Th1 and Th17 cells and the concentrations of serum IL‐22, IL‐17 and interferon (IFN)‐γ in SLE patients receiving 4 weeks of treatment with cyclophosphamide (CYC), methylprednisolone and hydroxychloroquine (HCQ) were characterized by flow cytometry analysis and enzyme‐linked immunosorbent assay (ELISA). The frequencies of Th22, IL‐22⁺ Th17 and Th17 cells and the concentrations of IL‐22 and IL‐17 were reduced in response to the drugs methylprednisolone, cyclophosphamide and hydroxychloroquine for 4 weeks in the majority of SLE patients. However, the percentage of Th1 cells showed no change. No differences in the levels of IL‐22 and IL‐22⁺CD4⁺ T cells were found between non‐responders and health controls either before or after therapy. IL‐22 levels were correlated positively with Th22 cells in SLE patients after treatment. These results suggest that elevated IL‐22 is correlated with IL‐22⁺CD4⁺T cells, especially Th22 cells, and may have a co‐operative or synergetic function in the immunopathogenesis of SLE. GC, CYC and HCQ treatment may regulate the production of IL‐22, possibly by correcting the IL‐22⁺CD4⁺T cells polarizations in SLE, thus providing new insights into the mechanism of GC, CYC and HCQ in the treatment of SLE.     

Elevated circulating Th17 and follicular helper CD4+ T cells in patients with rheumatoid arthritis

It remains not fully elucidated the potential functions of Th17 cells and follicular helper T (Tfh) cells and secreting cytokines in the pathogenesis of rheumatoid arthritis (RA) and their association with disease activity. In this study, the frequencies of Th17 and Tfh cells were determined by flow cytometry, and the levels of interleukin (IL)‐17, IL‐21, and IL‐22 were measured by ELISA in RA patients with different disease activities. The dynamic changes of cell subsets were also detected in response to disease‐modify antirheumatic drugs (DMARDs) therapy. The percentages of CD3⁺CD4⁺IL‐17A⁺ (Th17) cells and CD3⁺CD4⁺CXCR5⁺ICOS^high (Tfh) cells, as well as the concentrations of IL‐17, IL‐21, and IL‐22 were significantly elevated in RA patients than those in healthy individuals. Furthermore, Tfh cells, IL‐21, and IL‐22 in the serum was positively correlated with the values of disease activity score. Concentrations of IL‐21 and IL‐22 in the serum were remarkably reduced following the DMARDs therapies. Our data suggested that Th17 cells, Tfh cells as well as the secreting cytokines may be involved in the pathogenesis of RA. The frequency of circulating Tfh cells and the productions of IL‐21 and IL‐22 were associated with the disease activity of RA patients, and might be potential therapeutic targets for treatment of RA.     

OX40 and IL‐7 play synergistic roles in the homeostatic proliferation of effector memory CD4+ T cells

T‐cell homeostasis preserves the numbers, the diversity and functional competence of different T‐cell subsets that are required for adaptive immunity. Naïve CD4⁺ T (T_N) cells are maintained in the periphery via the common γ‐chain family cytokine IL‐7 and weak antigenic signals. However, it is not clear how memory CD4⁺ T‐cell subsets are maintained in the periphery and which factors are responsible for the maintenance. To examine the homeostatic mechanisms, CFSE‐labeled CD4⁺CD44^highCD62L^low effector memory T (T_EM) cells were transferred into sublethally‐irradiated syngeneic C57BL/6 mice, and the systemic cell proliferative responses, which can be divided distinctively into fast and slow proliferations, were assessed by CFSE dye dilution. We found that the fast homeostatic proliferation of T_EM cells was strictly regulated by both antigen and OX40 costimulatory signals and that the slow proliferation was dependent on IL‐7. The simultaneous blockade of both OX40 and IL‐7 signaling completely inhibited the both fast and slow proliferation. The antigen‐ and OX40‐dependent fast proliferation preferentially expanded IL‐17‐producing helper T cells (Th17 cells). Thus, OX40 and IL‐7 play synergistic, but distinct roles in the homeostatic proliferation of CD4⁺ T_EM cells.     

Emergence of a distinct HIV‐specific IL‐10‐producing CD8+ T‐cell subset with immunomodulatory functions during chronic HIV‐1 infection

Interleukin‐10 (IL‐10) plays a key role in regulating proinflammatory immune responses to infection but can interfere with pathogen clearance. Although IL‐10 is upregulated throughout HIV‐1 infection in multiple cell subsets, whether this is a viral immune evasion strategy or an appropriate response to immune activation is unresolved. Analysis of IL‐10 production at the single cell level in 51 chronically infected subjects (31 antiretroviral (ART) naïve and 20 ART treated) showed that a subset of CD8⁺ T cells with a CD25^neg FoxP3^neg phenotype contributes substantially to IL‐10 production in response to HIV‐1 gag stimulation. The frequencies of gag‐specific IL‐10‐ and IFN‐γ‐producing T cells in ART‐naïve subjects were strongly correlated and the majority of these IL‐10⁺ CD8⁺ T cells co‐produced IFN‐γ; however, patients with a predominant IL‐10⁺/IFN‐γ^neg profile showed better control of viraemia. Depletion of HIV‐specific CD8⁺ IL‐10⁺ cells from PBMCs led to upregulation of CD38 on CD14⁺ monocytes together with increased IL‐6 production, in response to gag stimulation. Increased CD38 expression was positively correlated with the frequency of the IL‐10⁺ population and was also induced by exposure of monocytes to HIV‐1 in vitro. Production of IL‐10 by HIV‐specific CD8⁺ T cells may represent an adaptive regulatory response to monocyte activation during chronic infection.     

Relationship of CD146 expression to secretion of interleukin (IL)‐17, IL‐22 and interferon‐γ by CD4+ T cells in patients with inflammatory arthritis

Expression of the adhesion molecule, CD146/MCAM/MelCAM, on T cells has been associated with recent activation, memory subsets and T helper type 17 (Th17) effector function, and is elevated in inflammatory arthritis. Th17 cells have been implicated in the pathogenesis of rheumatoid arthritis (RA) and spondyloarthritides (SpA). Here, we compared the expression of CD146 on CD4⁺ T cells between healthy donors (HD) and patients with RA and SpA [ankylosing spondylitis (AS) or psoriatic arthritis (PsA)] and examined correlations with surface markers and cytokine secretion. Peripheral blood mononuclear cells (PBMC) were obtained from patients and controls, and synovial fluid mononuclear cells (SFMC) from patients. Cytokine production [elicited by phorbol myristate acetate (PMA)/ionomycin] and surface phenotypes were evaluated by flow cytometry. CD146⁺CD4⁺ and interleukin (IL)‐17⁺CD4⁺ T cell frequencies were increased in PBMC of PsA patients, compared with HD, and in SFMC compared with PBMC. CD146⁺CD4⁺ T cells were enriched for secretion of IL‐17 [alone or with IL‐22 or interferon (IFN)‐γ] and for some putative Th17‐associated surface markers (CD161 and CCR6), but not others (CD26 and IL‐23 receptor). CD4⁺ T cells producing IL‐22 or IFN‐γ without IL‐17 were also present in the CD146⁺ subset, although their enrichment was less marked. Moreover, a majority of cells secreting these cytokines lacked CD146. Thus, CD146 is not a sensitive or specific marker of Th17 cells, but rather correlates with heterogeneous cytokine secretion by subsets of CD4⁺ helper T cells.     

IL‐18Rα‐deficient CD4+ T cells induce intestinal inflammation in the CD45RBhi transfer model of colitis despite impaired innate responsiveness

IL‐18 has been implicated in inflammatory bowel disease (IBD), however its role in the regulation of intestinal CD4⁺ T‐cell function remains unclear. Here we show that murine intestinal CD4⁺ T cells express high levels of IL‐18Rα and provide evidence that IL‐18Rα expression is induced on these cells subsequent to their entry into the intestinal mucosa. Using the CD45RB^hi T‐cell transfer colitis model, we show that IL‐18Rα is expressed on IFN‐γ⁺, IL‐17⁺, and IL‐17⁺IFN‐γ⁺ effector CD4⁺ T cells in the inflamed colonic lamina propria (cLP) and mesenteric lymph node (MLN) and is required for the optimal generation and/or maintenance of IFN‐γ‐producing cells in the cLP. In the steady state and during colitis, TCR‐independent cytokine‐induced IFN‐γ and IL‐17 production by intestinal CD4⁺ T cells was largely IL‐18Rα?dependent. Despite these findings however, IL‐18Rα?deficient CD4⁺ T cells induced comparable intestinal pathology to WT CD4⁺ T cells. These findings suggest that IL‐18‐dependent cytokine induced activation of CD4⁺ T cells is not critical for the development of T‐cell‐mediated colitis.     

DX5+CD4+ T cells modulate CD4+ T‐cell response via inhibition of IL‐12 production by DCs

DX5⁺CD4⁺ T cells have been shown to dampen collagen‐induced arthritis and delayed‐type hypersensitivity reactions in mice. These cells are also potent modulators of T‐helper cell responses through direct effects on CD4⁺ T cells in an IL‐4 dependent manner. To further characterize this T‐cell population, we studied their effect on DCs and the potential consequences on T‐cell activation. Here, we show that mouse DX5⁺CD4⁺ T cells modulate DCs by robustly inhibiting IL‐12 production. This modulation is IL‐10 dependent and does not require cell contact. Furthermore, DX5⁺CD4⁺ T cells modulate the surface phenotype of LPS‐matured DCs. DCs modulated by DX5⁺CD4⁺ T‐cell supernatant express high levels of the co‐inhibitor molecules PDL‐1 and PDL‐2. OVA‐specific CD4⁺ T cells primed with DCs exposed to DX5⁺CD4⁺ T‐cell supernatant produce less IFN‐γ than CD4⁺ T cells primed by DCs exposed to either medium or DX5^?CD4⁺ T‐cell supernatant. The addition of IL‐12 to the co‐culture with DX5⁺ DCs restores IFN‐γ production. When IL‐10 present in the DX5⁺CD4⁺ T‐cell supernatant is blocked, DCs re‐establish their ability to produce IL‐12 and to efficiently prime CD4⁺ T cells. These data show that DX5⁺CD4⁺ T cells can indirectly affect the outcome of the T‐cell response by inducing DCs that have poor Th1 stimulatory function.     

The proportion of different interleukin‐17‐producing T‐cell subsets is associated with liver fibrosis in chronic hepatitis C

Studies have suggested the pivotal role of T helper type 1 (Th1) ‐related cytokines on the outcome of hepatitis C virus (HCV) infection. Nevertheless, the role of different interleukin‐17 (IL‐17) ‐secreting T cells on chronic hepatitis C (CHC) is less clear. Here, the in vivo IL‐1β, IL‐6, and IL‐17 levels were positively correlated with both alanine transaminase (ALT) levels and hepatic lesions. When compared with the control group, CHC patients showed a lower proportion of IL‐17‐secreting (CD4⁺ and CD8⁺) T cells capable of simultaneously producing IL‐21. Moreover, the percentage of IL‐10‐secreting Th17 cells was also lower in CHC patients. Notably, advanced liver lesions were observed among those patients with lower percentage levels of IL‐17‐producing T cells positive for IL‐21, interferon‐γ (IFN‐γ) and IL‐10. In contrast, the severity of hepatic damage was associated with peripheral single IL‐17⁺ T cells. The percentage of IL‐17⁺ IL‐21^– IFN‐γ⁺ (CD4⁺ and CD8⁺) T‐cell phenotypes was positively associated with plasma CD14 levels. Finally, elevated levels of circulating CD14 were detected among CHC patients with extensive liver damage. In summary, although preliminary, our results suggest that a balance between different IL‐17‐producing T cells, associated with peripheral levels of CD14, may be a progress marker for liver disease in chronically HCV‐infected patients.