Interleukin‐27 suppresses osteoclastogenesis via induction of interferon‐γ

Interleukin (IL)‐27 is a heterodimeric cytokine that is known to have both stimulatory and inhibitory functions during immune responses. We investigated the effects of IL‐27 on arthritis and bone erosion in the murine collagen‐induced arthritis (CIA) model. We demonstrate that the inhibitory effect of IL‐27 on osteoclastogenesis is associated with interferon‐γ (IFN‐γ) production by using an IFN‐γ knockout mouse model. The IL‐27‐Fc was injected into both CIA and IFN‐γ‐deficient mice. The effects of IL‐27‐Fc on osteoclast differentiation were evaluated both in vitro and in vivo. The IL‐27‐Fc‐injected mice showed significantly lower arthritis indices and fewer tartrate‐resistant acid‐phosphatase‐positive osteoclasts in their joint tissues than untreated mice. Interleukin‐27 inhibited osteoclastogenesis from bone marrow‐derived mononuclear cells in vitro, which was counteracted by the addition of anti‐IFN‐γ antibody. The IL‐27‐Fc did not affect arthritis in IFN‐γ knockout mice. Interleukin‐27 also suppressed osteoclast differentiation in human and intriguingly, it could promote the expression of IFN‐γ on priming osteoclasts. These results imply that IL‐27 suppressed the generation of CIA and osteoclastogenesis, which were mediated by the induction of IFN‐γ.     

IL‐18‐induced expression of high‐affinity IL‐2R on murine NK cells is essential for NK‐cell IFN‐γ production during murine Plasmodium yoelii infection

Early production of pro‐inflammatory cytokines, including IFN‐γ, is essential for control of blood‐stage malaria infections. We have shown that IFN‐γ production can be induced among human natural killer (NK) cells by coculture with Plasmodium falciparum infected erythrocytes, but the importance of this response is unclear. To further explore the role of NK cells during malaria infection, we have characterized the NK‐cell response of C57BL/6 mice during lethal (PyYM) or nonlethal (Py17XNL) P. yoelii infection. Ex vivo flow cytometry revealed that NK cells are activated within 24 h of Py17XNL blood‐stage infection, expressing CD25 and producing IFN‐γ; this response was blunted and delayed during PyYM infection. CD25 expression and IFN‐γ production were highly correlated, suggesting a causal relationship between the two responses. Subsequent in vitro experiments revealed that IL‐18 signaling is essential for induction of CD25 and synergizes with IL‐12 to enhance CD25 expression on splenic NK cells. In accordance with this, Py17XNL‐infected erythrocytes induced NK‐cell CD25 expression and IFN‐γ production in a manner that is completely IL‐18‐ and partially IL‐12‐dependent, and IFN‐γ production is enhanced by IL‐2. These data suggest that IL‐2 signaling via CD25 amplifies IL‐18‐ and IL‐12‐mediated NK‐cell activation during malaria infection.     

PolyI:C plus IL‐2 or IL‐12 induce IFN‐γ production by human NK cells via autocrine IFN‐β

NK lymphocytes and type I IFN (IFN‐α/β) are major actors of the innate anti‐viral response that also influence adaptive immune responses. We evaluated type I IFN production by human NK cells in response to polyI:C, a potent type I IFN‐inducing TLR3 agonist. PolyI:C plus IL‐2/IL‐12 induced IFN‐β (but not IFN‐α) mRNA expression and protein production by highly pure human NK cells and by the human NK cell line NK92. Neutralizing anti‐IFNAR1 or anti‐IFN‐β Ab prevented the production of IFN‐γ induced by polyI:C plus IL‐2/IL‐12. Similarly, IFN‐γ production induced by polyI:C plus IL‐12 was reduced in NK cells isolated from IFNAR1^?/? compared with WT mice. The ability of polyI:C plus IL‐12 to induce IFN‐γ production was related to an increase of TLR3, Mda5 and IFNAR expression and by an increase of STAT1 and STAT4 phosphorylation. Collectively, these data demonstrate that NK cells, in response to polyI:C plus IL‐2/IL‐12, produce IFN‐β that induce, in an autocrine manner, the production of IFN‐γ and thereby highlight that NK cells may control the outcome of protective or injurious immune responses through type I IFN secretion.     

Interferon‐γ constrains cytokine production of group 2 innate lymphoid cells

Group 2 innate lymphoid cells (ILC2s) produce a significant amount of interleukin‐5 (IL‐5), which supports eosinophil responses in various tissues; they also produce IL‐13, which induces mucus production and contributes to tissue repair or fibrosis. The ILC2s are activated by alarmins, such as IL‐33 released from epithelia, macrophages and natural killer T (NKT) cells in response to infection and allergen exposure, leading to epithelial injury. We examined gene expression in lung ILC2s and found that ILC2s expressed Ifngr1, the receptor for interferon‐γ (IFN‐γ). Interferon‐γ severely inhibited IL‐5 and IL‐13 production by lung and kidney ILC2s. To evaluate the effects in vivo, we used α‐galactosylceramide (α‐GalCer) to induce NKT cells to produce IL‐33 and IFN‐γ. Intraperitoneal injection of α‐GalCer in mice induced NKT cell activation resulting in IL‐5 and IL‐13 production by ILC2s. Administration of anti‐IFN‐γ together with α‐GalCer significantly enhanced the production of IL‐5 and IL‐13 by ILC2s in lung and kidney. Conversely, cytokine production from ILC2s was markedly suppressed after injection of exogenous IL‐33 in Il33^?/? mice pre‐treated with α‐GalCer. Hence, IFN‐γ induced or already present in tissues can impact downstream pleiotropic functions mediated by ILC2s, such as inflammation and tissue repair.     

Enhanced protection from fibrosis and inflammation in the combined absence of IL‐13 and IFN‐γ

Persistent or dysregulated IL‐13 responses are key drivers of fibrosis in multiple organ systems, and this identifies this cytokine as an important therapeutic target. Nevertheless, the mechanisms by which IL‐13 blockade leads to the amelioration of fibrosis remain unclear. Because IFN‐γ exhibits potent anti‐fibrotic activity, and IL‐4Rα signalling antagonizes IFN‐γ effector function, compensatory increases in IFN‐γ activity following IL‐13/IL‐4Rα blockade might contribute to the reduction in fibrosis. To investigate the role of IFN‐γ, we developed novel IL‐13^?/?/IFN‐γ^?/? double cytokine‐deficient mice and examined disease progression in models of type 2‐driven fibrosis. As predicted, we showed that fibrosis in the lung and liver are both highly dependent on IL‐13. We also observed increased IFN‐γ production and inflammatory activity in the tissues of IL‐13‐deficient mice. Surprisingly, however, an even greater reduction in fibrosis was observed in IL‐13/IFN‐γ double deficient mice, most notably in the livers of mice chronically infected with Schistosoma mansoni. The increased protection was associated with marked decreases in Tgfb1, Mmp12, and Timp1 mRNA expression in the tissues; reduced inflammation; and decreased expression of important pro‐inflammatory mediators such as TNF‐α. Experiments conducted with neutralizing monoclonal antibodies to IL‐13 and IFN‐γ validated the findings with the genetically deficient mice. Together, these studies demonstrate that the reduction in fibrosis observed when IL‐13 signalling is suppressed is not dependent on increased IFN‐γ activity. Instead, by reducing compensatory increases in type 1‐associated inflammation, therapeutic strategies that block IFN‐γ and IL‐13 activity simultaneously can confer greater protection from progressive fibrosis than IL‐13 blockade alone. Published 2016. This article is a U.S. Government work and is in the public domain in the USA.     

Both IFN‐γ and IL‐17 are required for the development of severe autoimmune gastritis

IL‐17, produced by a distinct lineage of CD4⁺ helper T (Th) cells termed Th17 cells, induces the production of pro‐inflammatory cytokines from resident cells and it has been demonstrated that over‐expression of IL‐17 plays a crucial role in the onset of several auto‐immune diseases. Here we examined the role of IL‐17 in the pathogenesis of autoimmune gastritis, a disease that was previously believed to be mediated by IFN‐γ. Significantly higher levels of IL‐17 and IFN‐γ were found in the stomachs and stomach‐draining lymph nodes of mice with severe autoimmune gastritis. Unlike IL‐17, which was produced solely by CD4⁺ T cells in gastritic mice, the majority of IFN‐γ‐producing cells were CD8⁺ T cells. However, CD8⁺ T cells alone were not able to induce autoimmune gastritis. T cells that were deficient in IL‐17 or IFN‐γ production were able to induce autoimmune gastritis but to a much lower extent compared with the disease induced by wild‐type T cells. These data demonstrate that production of neither IL‐17 nor IFN‐γ by effector T cells is essential for the initiation of autoimmune gastritis, but suggest that both are required for the disease to progress to the late pathogenic stage that includes significant tissue disruption.     

Production of interleukin‐5, ‐10 and interferon‐γ in cord blood is strongly associated with the season of birth

Background The effect of labour and different labour‐related factors on the cord blood (CB) cell cytokine production is still relatively unknown. Objective To study the relationships between the production of IL‐5, IL‐10 and IFN‐γ in CB samples and maternal, early neonatal and birth‐related factors. Methods Whole‐blood samples were collected after birth (n=423) and they were stimulated for 24 and 48 h with a combination of phorbol ester and ionomycin. Production of IL‐5, IL‐10 and IFN‐γ was determined using ELISA. Maternal, early neonatal and birth‐related variables were recorded prospectively during pregnancy, and during and after delivery. Results After multivariable adjustment for confounders, the strongest predictor of IL‐5, IL‐10 and IFN‐γ production in CB cell samples was the season of birth. Children born in the spring had significantly lower cytokine responses compared with those born in the fall. IL‐5 production was inversely associated with female gender of the child and maternal smoking. If corrections for white blood cell (WBC) counts were not performed, IL‐5 production was also significantly associated with the mode of delivery. Respectively, the production of IL‐10 and IFN‐γ was inversely associated with prostaglandin induction before birth. Conclusion Environmental exposure to pollen and ultraviolet irradiation during gestation may have an effect on the cytokine profile of the offspring in CB because children born in the spring or winter showed the lowest IL‐5, IL‐10 and IFN‐γ responses. The production of IL‐10 and IFN‐γ was also inversely associated with prostaglandin labour induction before birth. Other labour‐related factors were not significantly associated with production of IL‐5, IL‐10 and IFN‐γ after WBC count correction. Cite this as: L. Keski‐Nisula, M. H. J. Lappalainen, K. Mustonen, M.‐R. Hirvonen, P. I. Pfefferle, H. Renz, J. Pekkanen and M. Roponen, Clinical & Experimental Allergy, 2010 (40) 1658–1668.     

IL‐33 promotes innate IFN‐γ production and modulates dendritic cell response in LCMV‐induced hepatitis in mice

Recent studies have revealed IL‐33 as a key factor in promoting antiviral T‐cell responses. However, it is less clear as to how IL‐33 regulates innate immunity. In this study, we infected wild‐type (WT) and IL‐33^?/? mice with lymphocytic choriomeningitis virus and demonstrated an essential role of infection‐induced IL‐33 expression for robust innate IFN‐γ production in the liver. We first show that IL‐33 deficiency resulted in a marked reduction in the number of IFN‐γ⁺ γδ T and NK cells, but an increase in that of IL‐17⁺ γδ T cells at 16 h postinfection. Recombinant IL‐33 (rIL‐33) treatment could reverse such deficiency via increasing IFN‐γ‐producing γδ T and NK cells, and inhibiting IL‐17⁺ γδ T cells. We also found that rIL‐33‐induced type 2 innate lymphoid cells were not involved in T‐cell responses and liver injury, since the adoptive transfer of type 2 innate lymphoid cells neither affected the IFN‐γ and TNF‐α production in T cells, nor liver transferase levels in lymphocytic choriomeningitis virus infected mice. Interestingly, we found that while IL‐33 was not required for costimulatory molecule expression, it was critical for DC proliferation and cytokine production. Together, this study highlights an essential role of IL‐33 in regulating innate IFN‐γ‐production and DC function during viral hepatitis.     

Expression and Identification of Immunological Activities of the HIV‐gp120N‐Human Interferon Gamma Fusion Protein

The human immunodeficiency virus type 1 (HIV‐1) envelope glycoprotein gp120 is a vaccine immunogen that has been studied extensively. To enhance the immune response of cells against HIV‐1 gp120, we tested the coexpression of gp120N with interferon‐γ (IFN‐γ) as an immune adjuvant. Two recombinant prokaryotic plasmids were constructed: the pET44b‐HIV‐1‐gp120N plasmid construct carried the HIV‐1 gp120N gene (pET44‐gp120N), whereas the pET44b‐HIV‐1‐gp120N‐IFN‐γ plasmid construct carried a fusion gp120N‐IFN‐γ gene (pET44b‐gp120N‐IFN‐γ). Target protein expression was achieved in E. coli BL21 (DE3) cells by chemical induction. To test the immunological activity of the proteins, mice were injected with a control, gp120N, or the fusion gp120N‐IFN‐γ protein. The serum and spleen cells of the mice were collected for immunological detection. Results showed that specific T lymphocyte proliferation and the expression of the Th1‐type cytokines (IL‐2 and IFN‐γ) were higher in the gp120N‐IFN‐γ group than the other two groups (P < 0.05). No difference was observed in the expression levels of the Th2‐type cytokines (IL‐4 and IL‐10; P > 0.05). These results suggest that IFN‐γ plays a prominent role as an immune adjuvant when coexpressed with HIV‐1 gp120N. IFN‐γ enhances the specific cell immune response of mice against HIV‐1 gp120. Anat Rec, 292:381–386, 2009. © 2009 Wiley‐Liss, Inc.     

EAE mediated by a non‐IFN‐γ/non‐IL‐17 pathway

Previous studies have shown that EAE can be elicited by the adoptive transfer of either IFN‐γ‐producing (Th1) or IL‐17‐producing (Th17) myelin‐specific CD4⁺ T‐cell lines. Paradoxically, mice deficient in either IFN‐γ or IL‐17 remain susceptible to EAE following immunization with myelin antigens in CFA. These observations raise questions about the redundancy of IFN‐γ and IL‐17 in autoimmune demyelinating disease mediated by a diverse, polyclonal population of autoreactive T cells. In this study, we show that an atypical form of EAE, induced in C57BL/6 mice by the adoptive transfer of IFN‐γ‐deficient effector T cells, required IL‐17 signaling for the development of brainstem infiltrates. In contrast, classical EAE, characterized by predominant spinal cord inflammation, occurred in the combined absence of IFN‐γ and IL‐17 signaling, but was dependent on GM‐CSF and CXCR2. Our findings contribute to a growing body of data, indicating that individual cytokines vary in their importance across different models of CNS autoimmunity.     

Accelerated tumour metastasis due to interferon‐γ receptor‐mediated dissociation of perivascular cells from blood vessels

Angiostasis mediated by interferon (IFN)‐γ is a key mechanism of anti‐tumour immunity; however, the effect of IFN‐γ on host vascular endothelial growth factor A (VEGFA)‐expressing cells during tumour progression is still elusive. Here, we developed transgenic mice with IFN‐γ receptor (IFNγR) expression under control of the Vegfa promoter (V‐γR). In these mice, the IFN‐γ responsiveness of VEGFA‐expressing cells led to dramatic growth suppression of transplanted lung carcinoma cells. Surprisingly, increased mortality and tumour metastasis were observed in the tumour‐bearing V‐γR mice, in comparison with the control wild‐type and IFNγR‐deficient mice. Further study showed that perivascular cells were VEGFA‐expressing cells and potential IFN‐γ targets. In vivo, tumour vascular perfusion and pericyte association with blood vessels were massively disrupted in V‐γR mice. In vitro, IFN‐γ inhibited transforming growth factor‐β signalling by upregulating SMAD7, and therefore downregulated N‐cadherin expression in pericytes. Importantly, IFN‐γ neutralization in vivo with a monoclonal antibody reduced tumour metastasis. Together, the results suggest that IFNγR‐mediated dissociation of perivascular cells from blood vessels contributes to the acceleration of tumour metastasis. Thus, the inhibition of tumour growth via IFN‐γ‐induced angiostasis might also accelerate tumour metastasis. Copyright © 2017 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.     

IL‐33 attenuates the development of experimental autoimmune uveitis

Interleukin‐33 (IL‐33) is associated with several important immune‐mediated disorders. However, its role in uveitis, an important eye inflammatory disease, is unknown. Here, we investigated the function of IL‐33 in the development of experimental autoimmune uveitis (EAU). IL‐33 and IL‐33 receptor (ST2) were expressed in murine retinal pigment epithelial (RPE) cells in culture, and IL‐33 increased the expression of Il33 and Mcp1 mRNA in RPE cells. In situ, IL‐33 was highly expressed in the inner nuclear cells of the retina of naïve mice, and its expression was elevated in EAU mice. ST2‐deficient mice developed exacerbated EAU compared with WT mice, and administration of IL‐33 to WT mice significantly reduced EAU severity. The attenuated EAU in IL‐33‐treated mice was accompanied by decreased frequency of IFN‐γ⁺ and IL‐17⁺ CD4⁺ T cells and reduced IFN‐γ and IL‐17 production but with increased frequency of IL‐5⁺ and IL‐4⁺ CD4 T cells and IL‐5 production in the draining lymph node and spleen. Macrophages from the IL‐33‐treated mice show a significantly higher polarization toward an alternatively activated macrophage phenotype. Our results therefore demonstrate that the endogenous IL‐33/ST2 pathway plays an important role in EAU, and suggest that IL‐33 represents a potential option for treatment of uveitis.     

Innate IFN‐γ Production by Subsets of Natural Killer Cells,Natural Killer T Cells and γδ T Cells in Response to Dying Bacterial‐Infected Macrophages

Interferon‐γ (IFN‐γ) activation of macrophages is a crucial step in the early innate defence against bacterial infection. This innate IFN‐γ is thought to be produced mainly by natural killer (NK) cells through activation with interleukin (IL)‐12p70 secreted by macrophages and dendritic cells (DCs) that have sensed bacterial products. However, a number of reports have shown that bacterial stimuli are unable to induce macrophages and/or DCs to produce sufficient amounts of IL‐12p70 unless these cells are primed by IFN‐γ. It remains, therefore, unsettled how initial IFN‐γ is produced. In a previous study, we reported a novel IFN‐γ production pathway that was associated with cell death in macrophages caused by intracellular bacteria like Listeria monocytogenes (LM) and Shigella flexneri. In this study, we showed that cell death of bone‐marrow‐derived macrophage (BMM) cells following in vitro infection with Staphylococcus aureus (SA), an extracellular bacterium, can also stimulate this IFN‐γ production pathway. We also unequivocally demonstrated by using BMM cells from IL‐12‐deficient mice that the bacterial‐infected macrophage cell death‐mediated IFN‐γ production can occur without IL‐12 although the magnitude of the response is much smaller than that in the presence of IL‐12. The enhancing effect of IL‐12 on this response proved to be attributable to the negligible amounts (0.5～1.5 pg/ml) of IL‐12p70 but not to the large amounts of IL‐12p40 that were both secreted by SA‐ and LM‐infected macrophages. Taken all together, we propose that macrophage cell death caused by bacteria may trigger the initial IFN‐γ production at an early stage of bacterial infection.     

RORγt antagonist suppresses M3 muscarinic acetylcholine receptor‐induced Sjögren's syndrome‐like sialadenitis

We showed recently that M3 muscarinic acetylcholine receptor (M3R)‐reactive CD3⁺ T cells play a pathogenic role in the development of murine autoimmune sialadenitis (MIS), which mimics Sjögren's syndrome (SS). The aim of this study was to determine the effectiveness and mechanism of action of retinoic acid‐related orphan receptor‐gamma t (RORγt) antagonist (A213) in MIS. Splenocytes from M3R knockout (M3R^–/–) mice immunized with murine M3R peptide mixture were inoculated into recombination‐activating gene 1 knockout (Rag‐1^–/–) mice (M3R^–/–→Rag‐1^–/–) with MIS. Immunized M3R^–/– mice (pretransfer treatment) and M3R^–/–→Rag‐1^–/– mice (post‐transfer treatment) were treated with A213 every 3 days. Salivary volume, severity of sialadenitis and cytokine production from M3R peptide‐stimulated splenocytes and lymph node cells were examined. Effects of A213 on cytokine production were analysed by enzyme‐linked immunosorbent assay (ELISA) and on T helper type 1 (Th1), Th17 and Th2 differentiation from CD4⁺ T cells by flow cytometry. Pretransfer A213 treatment maintained salivary volume, improved MIS and reduced interferon (IFN)‐γ and interleukin (IL)‐17 production significantly compared with phosphate‐buffered saline (PBS) (P < 0·05). These suppressive effects involved CD4⁺ T cells rather than CD11c⁺ cells. Post‐transfer treatment with A213 increased salivary volume (P < 0·05), suppressed MIS (P < 0·005) and reduced IFN‐γ and IL‐17 production (P < 0·05). In vitro, A213 suppressed IFN‐γ and IL‐17 production from M3R‐stimulated splenocytes and CD4⁺ T cells of immunized M3R^–/– mice (P < 0·05). In contrast with M3R specific responses, A213 suppressed only IL‐17 production from Th17 differentiated CD4⁺ T cells without any effect on Th1 and Th2 differentiation in vitro. Our findings suggested that RORγt antagonism is potentially suitable treatment strategy for SS‐like sialadenitis through suppression of IL‐17 and IFN‐γ production by M3R‐specific T cells.     

Role of T cell TGF‐β signaling in intestinal cytokine responses and helminthic immune modulation

Colonization with helminthic parasites induces mucosal regulatory cytokines, like IL‐10 or TGF‐β, that are important in suppressing colitis. Helminths induce mucosal T cell IL‐10 secretion and regulate lamina propria mononuclear cell (LPMC) Th1 cytokine generation in an IL‐10‐dependent manner in WT mice. Helminths also stimulate mucosal TGF‐β release. As TGF‐β exerts major regulatory effects on T lymphocytes, we investigated the role of T lymphocyte TGF‐β signaling in helminthic modulation of intestinal immunity. T cell TGF‐β signaling is interrupted in TGF‐β receptor II dominant negative (TGF‐βRII DN) mice by T‐cell‐specific over‐expression of a TGF‐βRII DN. We studied LPMC responses in WT and TGF‐βRII DN mice that were uninfected or colonized with the nematode, Heligmosomoides polygyrus. Our results indicate an essential role of T cell TGF‐β signaling in limiting mucosal Th1 and Th2 responses. Furthermore, we demonstrate that helminthic induction of intestinal T cell IL‐10 secretion requires intact T cell TGF‐β‐signaling pathway. Helminths fail to curtail robust, dysregulated intestinal Th1 cytokine production and chronic colitis in TGF‐βRII DN mice. Thus, T cell TGF‐β signaling is essential for helminthic stimulation of mucosal IL‐10 production, helminthic modulation of intestinal IFN‐γ generation and H. polygyrus‐mediated suppression of chronic colitis.     

Regulation of IFN‐γ by IL‐13 dictates susceptibility to secondary postinfluenza MRSA pneumonia

Superinfection in mice at day 7 postinfluenza infection exacerbates bacterial pneumonia at least in part via downstream effects of increased IFN‐γ signaling. Here we show that up to 3 days postinfluenza infection, mice have reduced susceptibility to superinfection with methicillin‐resistant Staphylococcus aureus (MRSA), but that superinfection during that time exacerbated influenza disease. This was due to IL‐13 signaling that was advantageous for resolving MRSA infection via inhibition of IFN‐γ, but was detrimental to the clearance of influenza virus. However, if superinfection did not occur until the near resolution of influenza infection (day 7), IL‐13 signaling was inhibited, at least in part by upregulation of IL‐13 decoy receptor (IL‐13Rα2), which in turn caused increases in IFN‐γ signaling and exacerbation of bacterial infection. Understanding these cytokine sequelae is critical to development of immunotherapies for influenza‐MRSA coinfection since perturbations of these sequelae at the wrong time could increase susceptibility to MRSA and/or influenza.     

IFN‐γ stimulates CpG‐induced IL‐10 production in B cells via p38 and JNK signalling pathways

The production of IL‐10, a potent immunosuppressive cytokine, must be strictly regulated to ensure a balanced immune response. IFN‐γ, a key cytokine in multiple immune processes and pathologies, is known as an inhibitor of IL‐10 production by monocytes and macrophages, but also has some regulatory functions. In the present study, we explored the role of IFN‐γ on Toll‐like receptor (TLR)‐induced IL‐10 production in murine peritoneal and spleen cells and in human peripheral blood mononuclear cells. IFN‐γ inhibited IL‐10 production induced by TLR2, TLR3, TLR4 and TLR7/8 agonists, but stimulated IL‐10 production when cells were triggered with CpG oligodeoxynucleotides, a specific TLR9 agonist. The stimulatory effect of IFN‐γ on TLR9‐induced IL‐10 was restricted to B cells. In line with the increased IL‐10, B cells stimulated with CpG and IFN‐γ profoundly inhibited CD4 T cell proliferation. Further research into the mechanisms involved, revealed that the mitogen‐activated protein kinases p38 and JNK are essential players in this stimulatory effect, and that the phosphatase MKP1 – an inhibitor of p38 and JNK activity – is downregulated after combined stimulation with IFN‐γ and CpG. Our data may represent a novel immunoregulatory role of IFN‐γ in B cells after triggering of TLR9, by stimulating IL‐10 production.     

CCR6 and NK1.1 distinguish between IL‐17A and IFN‐γ‐producing γδ effector T cells

γδ T cells are a potent source of innate IL‐17A and IFN‐γ, and they acquire the capacity to produce these cytokines within the thymus. However, the precise stages and required signals that guide this differentiation are unclear. Here we show that the CD24^low CD44^high effector γδ T cells of the adult thymus are segregated into two lineages by the mutually exclusive expression of CCR6 and NK1.1. Only CCR6⁺ γδ T cells produced IL‐17A, while NK1.1⁺ γδ T cells were efficient producers of IFN‐γ but not of IL‐17A. Their effector phenotype correlated with loss of CCR9 expression, particularly among the NK1.1⁺ γδ T cells. Accordingly, both γδ T‐cell subsets were rare in gut‐associated lymphoid tissues, but abundant in peripheral lymphoid tissues. There, they provided IL‐17A and IFN‐γ in response to TCR‐specific and TCR‐independent stimuli. IL‐12 and IL‐18 induced IFN‐γ and IL‐23 induced IL‐17A production by NK1.1⁺ or CCR6⁺ γδ T cells, respectively. Importantly, we show that CCR6⁺ γδ T cells are more responsive to TCR stimulation than their NK1.1⁺ counterparts. In conclusion, our findings support the hypothesis that CCR6⁺ IL‐17A‐producing γδ T cells derive from less TCR‐dependent selection events than IFN‐γ‐producing NK1.1⁺ γδ T cells.