IL-4-deficient mice develop less acute but more chronic relapsing collagen-induced arthritis

Rheumatoid arthritis as well as collagen-induced arthritis (CIA) is thought to involve T cell autoimmunity of the Th1 type and the Th2 cytokine IL-4 has been proposed to play a suppressive role. To exclude a possible skewing role of the mycobacteria used in the complete Freund's adjuvant (CFA) we induced CIA with type II collagen (CII) in incomplete Freund's adjuvant (IFA). Our results show that IL-4 deficiency leads to a lesser susceptibility to arthritis and lower B and T cell responses if induced with CII/IFA but not if induced with CII/CFA. In addition, IL-4-deficient mice were less susceptible to arthritis induced with monoclonal anti-CII antibodies. However, mice immunized with CII/IFA later developed a chronic relapsing disease, which was promoted by IL-4 deficiency. We conclude that IL-4 plays different roles depending on the type of adjuvant used and the phase (acute or chronic) of the clinical disease.     

APRIL (TNFSF13) regulates collagen‐induced arthritis,IL‐17 production and Th2 response

A proliferation‐inducing ligand (APRIL or TNFSF13) shares receptors with B‐cell activation factor of the TNF family (BAFF) on B and T cells. Although much is known about the function of APRIL in B cells, its role in T cells remains unclear. Blocking both BAFF and APRIL suggested that BAFF and/or APRIL contributed to collagen‐induced arthritis (CIA); however, the role of APRIL alone in CIA remained unresolved. We show here that, in vitro, our newly generated APRIL^?/? mice exhibited increased T‐cell proliferation, enhanced Th2 cytokine production under non‐polarizing conditions, and augmented IL‐13 and IL‐17 production under Th2 polarizing conditions. Upon immunization with OVA and aluminum potassium sulfate, APRIL^?/? mice responded with an increased antigen‐specific IgG1 response. We also show that in APRIL^?/? mice, the incidence of CIA was significantly reduced compared with WT mice in parallel with diminished levels of antigen‐specific IgG2a autoantibody and IL‐17 production. Our data indicate that APRIL plays an important role in the regulation of cytokine production and that APRIL‐triggered signals contribute to arthritis. Blockade of APRIL thus may be a valuable adjunct in the treatment of rheumatoid arthritis.     

Treatment of collagen‐induced arthritis by Natura‐α via regulation of Th‐1/Th‐17 responses

Cytokines and CD4⁺ Th cells play a crucial role in the pathogenesis of rheumatoid arthritis. Among the Th populations, Th‐1 and Th‐17 have been described as pathogenic in collagen‐induced arthritis (CIA) whereas Th‐2 and Treg were found to have protective effects. The objective of this study was to examine the affect of Natura‐α, a newly developed cytokine regulator, on CIA and on Th cell development. Natura‐α treatment was administered before or during arthritis induction. Anti‐type II collagen antibodies and cytokine expression were evaluated by ELISA. Emergence of CD4⁺CD25⁺Foxp3⁺ T cells was assessed by flow cytometry. Th‐17 differentiation of naive CD4 T cells was assessed in cultures with anti‐CD3 and anti‐CD28. We showed that Natura‐α both prevented and treated CIA. We further demonstrated that in vivo treatment with Natura‐α inhibited IL‐17 production and anti‐type II collagen IgG development. We showed in vitro, using an APC‐free system, that Natura‐α acted directly on differentiating T cells and inhibiting the formation of Th‐1 and Th‐17 cells but did not affect Th‐2 cells. Since Natura‐α inhibits a large spectrum of important pathogenic factors in CIA, it may provide a new and powerful approach to the treatment of rheumatoid arthritis and other inflammatory diseases.     

Neutrophil extracellular traps exacerbate Th1‐mediated autoimmune responses in rheumatoid arthritis by promoting DC maturation

Aberrant formation of neutrophil extracellular traps (NETs) is a key feature in rheumatoid arthritis (RA) and plays a pivotal role in disease pathogenesis. However, the mechanism through which NETs shape the autoimmune response in RA remains elusive. In this study, we demonstrate that inhibition of peptidylarginine deiminases activity in collagen‐induced arthritis (CIA) mouse model significantly reduces NET formation, attenuates clinical disease activity, and prevents joint destruction. Importantly, peptidylarginine deiminase 4 blocking markedly reduces the frequency of collagen‐specific IFN‐γ‐producing T helper 1 (Th1) cells in the draining lymph nodes of immunized mice. Exposure of dendritic cells (DCs) to CIA‐derived NETs induces DC maturation characterized by significant upregulation of costimulatory molecules, as well as elevated secretion of IL‐6. Moreover, CIA‐NET‐treated DCs promote the induction of antigen‐specific Th1 cells in vitro. Finally, NETs from RA patients show an increased potential to induce the maturation of DCs from healthy individuals, corroborating the findings obtained in CIA mouse model. Collectively, our findings delineate an important role of NETs in the induction and expansion of Th1 pathogenic cells in CIA through maturation of DCs and reveal a novel role of NETs in shaping the RA‐autoimmune response that could be exploited therapeutically.     

Protection against collagen‐induced arthritis in mice afforded by the parasitic worm product,ES‐62, is associated with restoration of the levels of interleukin‐10‐producing B cells and reduced plasma cell infiltration of the joints

We have previously reported that ES‐62, a molecule secreted by the parasitic filarial nematode Acanthocheilonema viteae, protects mice from developing collagen‐induced arthritis (CIA). Together with increasing evidence that worm infection may protect against autoimmune conditions, this raises the possibility that ES‐62 may have therapeutic potential in rheumatoid arthritis and hence, it is important to fully understand its mechanism of action. To this end, we have established to date that ES‐62 protection in CIA is associated with suppressed T helper type 1 (Th1)/Th17 responses, reduced collagen‐specific IgG2a antibodies and increased interleukin‐10 (IL‐10) production by splenocytes. IL‐10‐producing regulatory B cells have been proposed to suppress pathogenic Th1/Th17 responses in CIA: interestingly therefore, although the levels of IL‐10‐producing B cells were decreased in the spleens of mice with CIA, ES‐62 was found to restore these to the levels found in naive mice. In addition, exposure to ES‐62 decreased effector B‐cell, particularly plasma cell, infiltration of the joints, and such infiltrating B cells showed dramatically reduced levels of Toll‐like receptor 4 and the activation markers, CD80 and CD86. Collectively, this induction of hyporesponsiveness of effector B‐cell responses, in the context of the resetting of the levels of IL‐10‐producing B cells, is suggestive of a modulation of the balance between effector and regulatory B‐cell responses that may contribute to ES‐62‐mediated suppression of CIA‐associated inflammation and inhibition of production of pathogenic collagen‐specific IgG2a antibodies.     

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.     

CD11b regulates the Treg/Th17 balance in murine arthritis via IL‐6

Th17 cells are often associated with autoimmunity and been shown to be increased in CD11b^?/? mice. Here, we examined the role of CD11b in murine collagen‐induced arthritis (CIA). C57BL/6 and CD11b^?/? resistant mice were immunized with type II collagen. CD11b^?/? mice developed arthritis with early onset, high incidence, and sustained severity compared with C57BL/6 mice. We observed a marked leukocyte infiltration, and histological examinations of the arthritic paws from CD11b^?/? mice revealed that the cartilage was destroyed in association with strong lymphocytic infiltration. The CD11b deficiency led to enhanced Th17‐cell differentiation. CD11b^?/? dendritic cells (DCs) induced much stronger IL‐6 production and hence Th17‐cell differentiation than wild‐type DCs. Treatment of CD11b^?/? mice after establishment of the Treg/Th17 balance with an anti‐IL‐6 receptor mAb significantly suppressed the induction of Th17 cells and reduced arthritis severity. Finally, the severe phenotype of arthritis in CD11b^?/? mice was rescued by adoptive transfer of CD11b⁺ DCs. Taken together, our results indicate that the resistance to CIA in C57BL/6 mice is regulated by CD11b via suppression of IL‐6 production leading to reduced Th17‐cell differentiation. Therefore, CD11b may represent a susceptibility factor for autoimmunity and could be a target for future therapy.     

Pulmonary inflammation in mice with collagen‐induced arthritis is conditioned by complete Freund's adjuvant and regulated by endogenous IFN‐γ

Following immunization with collagen II (CII) in complete Freund's adjuvant (CFA), DBA/1 mice develop arthritis of major joints. This collagen‐induced arthritis (CIA) is used as a model for rheumatoid arthritis (RA) in man. Inflammatory changes in lung tissue commonly occur in RA. However, evidence for pulmonary inflammation in CIA is scarce and ambiguous. Here, we demonstrate pulmonary inflammation accompanying CIA in wild‐type DBA/1 mice. In IFN‐γ receptor‐deficient (IFN‐γR KO) mice, inflammation was more frequent and more severe. Injection of CFA only (without CII) proved to be as efficient in eliciting pulmonary inflammation as immunization with CFA + CII, though being less effective in causing arthritis. Significant correlation in severity between joint and pulmonary involvement could not be demonstrated. Macroscopic, microscopic, and functional characteristics of pulmonary inflammation in the mice resembled those seen in human RA. Increased inflammation in IFN‐γR KO mice was accompanied by augmented expression of various cytokines and chemokines, as measured by RT‐PCR on affected tissue. Treatment with a TNF‐α inhibitor ameliorated lung pathology. We conclude that CIA in DBA/1 mice is accompanied by pulmonary inflammation. Although both disease processes are kept in check by endogenous IFN‐γ, lack of strict parallelism indicates that overlap in their pathogeneses is partial.     

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.     

Activation of natural killer T cells by α-carba-GalCer (RCAI-56), a novel synthetic glycolipid ligand, suppresses murine collagen-induced arthritis

Alpha-carba-GalCer (RCAI-56), a novel synthetic analogue of α-galactosylceramide (α-GalCer), stimulates invariant natural killer T (NK T) cells to produce interferon (IFN)-γ. IFN-γ exhibits immunoregulatory properties in autoimmune diseases by suppressing T helper (Th)-17 cell differentiation and inducing regulatory T cells and apoptosis of autoreactive T cells. Here, we investigated the protective effects of α-carba-GalCer on collagen-induced arthritis (CIA) in mice. First, we confirmed that α-carba-GalCer selectively induced IFN-γ in CIA-susceptible DBA/1 mice in vivo. Then, DBA/1 mice were immunized with bovine type II collagen (CII) and α-carba-GalCer. The incidence and clinical score of CIA were significantly lower in α-carba-GalCer-treated mice. Anti-IFN-γ antibodies abolished the beneficial effects of α-carba-GalCer, suggesting that α-carba-GalCer ameliorated CIA in an IFN-γ-dependent manner. Treatment with α-carba-GalCer reduced anti-CII antibody production [immunoglobulin (Ig)G and IgG2a] and CII-reactive interleukin (IL)-17 production by draining lymph node (DLN) cells, did not induce apoptosis or regulatory T cells, and significantly increased the ratio of the percentage of IFN-γ-producing T cells to IL-17-producing T cells (Th1/Th17 ratio). Moreover, the gene expression levels of IL-6 and IL-23p19, Th17-related cytokines, were reduced significantly in mice treated with α-carba-GalCer. In addition, we observed higher IFN-γ production by NK T cells in α-carba-GalCer-treated mice in the initial phase of CIA. These findings indicate that α-carba-GalCer polarizes the T cell response toward Th1 and suppresses Th17 differentiation or activation, suggesting that α-carba-GalCer, a novel NK T cell ligand, can potentially provide protection against Th17-mediated autoimmune arthritis by enhancing the Th1 response.     

DRB1*0402 may influence arthritis by promoting naive CD4+ T‐cell differentiation in to regulatory T cells

HLA‐DRB1*0401 expression in humans has been associated with a predisposition to developing rheumatoid arthritis (RA) and collagen‐induced arthritis (CIA), while HLA‐DRB1*0402 is not associated with susceptibility. Here, we determined if mice transgenic (Tg) for human *0401 have a CD4⁺ T‐cell repertoire that predetermines proinflammatory cytokine production. The data show that both *0401 and *0402 Tg mice can produce TH1/TH17 cytokines, although the kinetics of response may be different. However, in the context of antigen‐specific responses in a CIA model, *0402 Tg mice generate a TH2 response that may explain their resistance to developing arthritis. In addition, a significant subset of naïve CD4⁺ T cells from *0402 Tg mice can be activated in polarizing conditions to differentiate into Treg cells that produce IFN‐γ. *0401 Tg mice harbor memory CD4⁺ T cells that differentiate into IL‐17⁺ cells in various polarizing conditions. Our data suggest that *0401 Tg mice generate a strong immune response to lipopolysaccharide and may be efficient in clearing infection, and may *0401 have been evolutionarily selected for this ability. Autoimmunity, such as RA, could likely be a bystander effect of the cytokine storm that, along with the presence of low Treg‐cell numbers in *0401 Tg mice, causes immune dysregulation.     

旋毛虫感染不同时期对小鼠胶原诱导性关节炎影响的差异性观察?

观察旋毛虫感染的不同阶段对小鼠胶原诱导性关节炎（ Collagen?Ⅱ induced arthritis, CIA）的影响并初步探讨其机制。建立雄性DBA／1小鼠胶原（CⅡ）诱导性关节炎（CIA）模型,以旋毛虫肌幼虫（400条／只）分别于造模前14 d、造模当天感染小鼠。关节评分评价足爪关节病变的发生及严重程度。于胶原首次诱导后第50 d处死小鼠,取足爪关节切片观察组织病理学变化; ELISA检测血清抗CⅡ特异性IgG、IgG1、 IgG2a水平;分离脾淋巴细胞以ConA刺激培养, ELISA检测培养上清中IFN?γ、 IL?4、 IL?10、 IL?17和TNF?α细胞因子水平。结果显示,与单纯CIA造模组相比,预先14 d感染旋毛虫的CIA小鼠关节炎发病率、关节评分及组织学评分均显著降低,血清IgG1水平则显著升高,脾细胞培养上清Th2型细胞因子IL?4和调节性细胞因子IL?10水平显著增加。而造模当天感染旋毛虫的CIA小鼠关节评分和组织学评分显著升高,血清IgG2a水平显著升高,细胞培养上清Th1型细胞因子IFN?γ和促炎细胞因子IL?17、 TNF?α水平显著升高,且差异具有统计学意义。该结果表明,旋毛虫感染早期可加重胶原诱导性小鼠关节炎,而感染后期则对关节炎有一定抑制作用,提示旋毛虫对小鼠胶原诱导性关节炎的影响作用因感染时限的不同而存在差异,且该差异可能与不同感染时期诱导的Th反应类型的变化有关。     

T‐helper 1 and T‐helper 2 adjuvants induce distinct differences in the magnitude,quality and kinetics of the early inflammatory response at the site of injection

Vaccine adjuvants activate the innate immune system and thus influence subsequent adaptive T‐cell responses. However, little is known about the initial immune mechanisms preceding the adjuvant‐induced differentiation of T‐helper (Th) cells. The effect of a T‐helper 1 (Th1) adjuvant, dimethyldioctadecylammonium liposomes with monophosphoryl lipid‐A (DDA/MPL), and a T‐helper 2 adjuvant, aluminium hydroxide [Al(OH)₃], on early, innate chemotactic signals and inflammatory cell influx at the site of injection was therefore investigated. Injection of the adjuvants into the peritoneal cavity of mice demonstrated distinct differences in the magnitude, quality and kinetics of the response. The inflammatory response to DDA/MPL was prominent, inducing high local levels of pro‐inflammatory cytokines, chemokines and a pronounced inflammatory exudate consisting of neutrophils, monocytes/macrophages and activated natural killer cells. This was in contrast to the response induced by Al(OH)₃, which, although sharing some of the early chemokine signals, was more moderate and consisted almost exclusively of neutrophils and eosinophils. Notably, Al(OH)₃ specifically induced the release of a significant amount of interleukin (IL)‐5, whereas DDA/MPL induced high amounts of tumour necrosis factor‐α (TNF‐α), IL‐1α and IL‐6. Finally, a microarray analysis confirmed that the effect of DDA/MPL was broader with more than five times as many genes being specifically up‐regulated after injection of DDA/MPL compared with Al(OH)₃. Thus, the adjuvants induced qualitatively distinct local inflammatory signals early after injection.     

CXCL4 is a novel inducer of human Th17 cells and correlates with IL‐17 and IL‐22 in psoriatic arthritis

CXCL4 regulates multiple facets of the immune response and is highly upregulated in various Th17‐associated rheumatic diseases. However, whether CXCL4 plays a direct role in the induction of IL‐17 production by human CD4⁺ T cells is currently unclear. Here, we demonstrated that CXCL4 induced human CD4⁺ T cells to secrete IL‐17 that co‐expressed IFN‐γ and IL‐22, and differentiated naïve CD4⁺ T cells to become Th17‐cytokine producing cells. In a co‐culture system of human CD4⁺ T cells with monocytes or myeloid dendritic cells, CXCL4 induced IL‐17 production upon triggering by superantigen. Moreover, when monocyte‐derived dendritic cells were differentiated in the presence of CXCL4, they orchestrated increased levels of IL‐17, IFN‐γ, and proliferation by CD4⁺ T cells. Furthermore, the CXCL4 levels in synovial fluid from psoriatic arthritis patients strongly correlated with IL‐17 and IL‐22 levels. A similar response to CXCL4 of enhanced IL‐17 production by CD4⁺ T cells was also observed in patients with psoriatic arthritis. Altogether, we demonstrate that CXCL4 boosts pro‐inflammatory cytokine production especially IL‐17 by human CD4⁺ T cells, either by acting directly or indirectly via myeloid antigen presenting cells, implicating a role for CXCL4 in PsA pathology.     

Single Immunization of Newborn Mice with Heterologous Type-II Collagen Induces Arthritic Disease

Collagen-induced arthritis (CIA) is a widely accepted model of autoimmune disease with significant similarities to rheumatoid arthritis in humans. CIA is provoked in susceptible strains upon immunization of adult mice with native type-II collagen in complete Freund's adjuvant (CFA). Neonatal exposure to antigen is supposed to result in T cell clone deletion and induction of tolerance. Here we report that the neonatal injection of bovine type-II collagen (bCII) to ICR (CD-2) mice triggers the development of autoimmune chronic joint inflammation. Compared with standard CIA significant joint swelling was not observed and anti-collagen antibodies were not detected if the second challenge with the antigen was not supplied. Histopathologic examination of the joints showed cell infiltration, synovial hyperplasia and at the later period bone destruction. Mice immunized as neonates expressed Ag-specific proliferative response and delayed type hypersensitivity (DTH) reaction to bCII.     

Flk‐1+ mesenchymal stem cells aggravate collagen‐induced arthritis by up‐regulating interleukin‐6

The immunomodulatory ability of mesenchymal stem cells (MSCs) may be used to develop therapies for autoimmune diseases. Flk‐1⁺ MSCs are a population of MSCs with defined phenotype and their safety has been evaluated in Phase 1 clinical trials. We designed this study to evaluate whether Flk‐1⁺ MSCs conferred a therapeutic effect on collagen‐induced arthritis (CIA), an animal model of rheumatic arthritis, and to explore the underlying mechanisms. Flk‐1⁺ MSCs, 1–2 × 10⁶, were injected into CIA mice on either day 0 or day 21. The clinical course of arthritis was monitored. Serum cytokine profile was determined by cytometric bead array kit or enzyme‐linked immunosorbent assay. Flk‐1⁺ MSCs and splenocytes co‐culture was conducted to explore the underlying mechanisms. Flk‐1⁺ MSCs did not confer therapeutic benefits. Clinical symptom scores and histological evaluation suggested aggravation of arthritis in mice treated with MSCs at day 21. Serum cytokine profile analysis showed marked interleukin (IL)‐6 secretion immediately after MSC administration. Results of in vitro culture of splenocytes confirmed that the addition of Flk‐1⁺ MSCs promoted splenocyte proliferation and increased IL‐6 and IL‐17 secretion. Moreover, splenocyte proliferation was also enhanced in mice treated with MSCs at day 21. Accordingly, MSCs at low concentrations were found to promote lipopolysaccharide‐primed splenocytes proliferation in an in vitro co‐culture system. We propose that Flk‐1⁺ MSCs aggravate arthritis in CIA model by at least up‐regulating secretion of IL‐6, which favours Th17 differentiation. When Flk‐1⁺ MSCs are used for patients, we should be cautious about subjects with rheumatoid arthritis.     

Single immunization of newborn mice with heterologous type-II collagen induces arthritic disease

Collagen-induced arthritis (CIA) is a widely accepted model of autoimmune disease with significant similarities to rheumatoid arthritis in humans. CIA is provoked in susceptible strains upon immunization of adult mice with native type-II collagen in complete Freund's adjuvant (CFA). Neonatal exposure to antigen is supposed to result in T cell clone deletion and induction of tolerance. Here we report that the neonatal injection of bovine type-II collagen (bCII) to ICR (CD-2) mice triggers the development of autoimmune chronic joint inflammation. Compared with standard CIA significant joint swelling was not observed and anti-collagen antibodies were not detected if the second challenge with the antigen was not supplied. Histopathologic examination of the joints showed cell infiltration, synovial hyperplasia and at the later period bone destruction. Mice immunized as neonates expressed Ag-specific proliferative response and delayed type hypersensitivity (DTH) reaction to bCII.     

T‐bet is essential for Th1‐mediated,but not Th17‐mediated,CNS autoimmune disease

T cells that produce both IL‐17 and IFN‐γ, and co‐express ROR‐γt and T‐bet, are often found at sites of autoimmune inflammation. However, it is unknown whether this co‐expression of T‐bet with ROR‐γt is a prerequisite for immunopathology. We show here that T‐bet is not required for the development of Th17‐driven experimental autoimmune encephalomyelitis (EAE). The disease was not impaired in T‐bet^?/? mice and was associated with low IFN‐γ production and elevated IL‐17 production among central nervous system (CNS) infiltrating CD4⁺ T cells. T‐bet^?/? Th17 cells generated in the presence of IL‐6/TGF‐β/IL‐1 and IL‐23 produced GM‐CSF and high levels of IL‐17 and induced disease upon transfer to naïve mice. Unlike their WT counterparts, these T‐bet^?/– Th17 cells did not exhibit an IL‐17→IFN‐γ switch upon reencounter with antigen in the CNS, indicating that this functional change is not critical to disease development. In contrast, T‐bet was absolutely required for the pathogenicity of myelin‐responsive Th1 cells. T‐bet‐deficient Th1 cells failed to accumulate in the CNS upon transfer, despite being able to produce GM‐CSF. Therefore, T‐bet is essential for establishing Th1‐mediated inflammation but is not required to drive IL‐23‐induced GM‐CSF production, or Th17‐mediated autoimmune inflammation.