IL-17A is involved in diabetic inflammatory pathogenesis by its receptor IL-17RA

Interleukin (IL)-17A, a proinflammatory cytokine produced by T-helper (Th)17 cells, has been associated with autoimmune diseases. Type 1 diabetes (T1D) is caused either due to mutation of insulin gene or developed as an autoimmune disease. Studies have shown that IL-17A expression is upregulated in the pancreas in T1D patients and animal models. However, role or importance of IL-17A in T1D pathogenesis needs elucidation. Particularly, evidence for a direct injury of IL-17A to pancreatic β cells through activating IL-17 receptor A (IL-17RA) is lacking. Ins2^Akita (Akita) mouse, a T1D model with spontaneous mutation in insulin 2 gene leading to β-cell apoptosis, was crossed with IL-17A-knockout mouse and male IL-17A-deficient Akita mice were used. Streptozotocin, a pancreatic β-cell-specific cytotoxin, was employed to induce a diabetic model in MIN6 cells, a mouse insulinoma cell line. IL-17A expression in the pancreas was upregulated in both Akita and streptozotocin-induced diabetic mice. IL-17A-knockout Akita mice manifested reduced blood glucose concentration and raised serum insulin level. IL-17A deficiency also decreased production of the proinflammatory cytokines tumor necrosis factor (TNF)-α, IL-1β, and interferon (IFN)-γ in Akita mice. IL-17RA expression in MIN6 cells was upregulated by IL-17A. IL-17A enhanced expression of TNF-α, IL-1β, IFN-γ, and inducible nitric oxide synthase (iNOS) and further increased streptozotocin-induced expression of the inflammatory factors in MIN6 cells. IL-17A exacerbated streptozotocin-induced MIN6 cell apoptosis and insulin secretion impairment. Blocking IL-17RA with anti-IL-17RA-neutralizing antibody reduced all these deleterious effects of IL-17A on MIN6 cells. Collectively, IL-17A deficiency alleviated hyperglycemia, hypoinsulinemia, and inflammatory response in Akita mice that are characteristic for T1D. IL-17A exerted an alone and synergistic destruction with streptozotocin to pancreatic β cells through IL-17RA pathway. Thus, the data suggest that targeting IL-17A and/or IL-17RA is likely to preserve remaining β-cell function and treat T1D.Impact statementThe participation of interleukin (IL)-17A in diabetic pathogenesis is suggested in animal models of autoimmune diabetes and in patients with type 1 diabetes (T1D), but with some contradictory results. Particularly, evidence for a direct injury of IL-17A to pancreatic β cells is lacking. We showed that IL-17A deficiency alleviated diabetic signs including hyperglycemia, hypoinsulinemia, and inflammatory response in Ins2^Akita (Akita) mice, a T1D model with spontaneous mutation in insulin 2 gene leading to β-cell apoptosis. IL-17A enhanced inflammatory reaction, oxidative stress, and cell apoptosis but attenuated insulin level in mouse insulin-producing MIN6 cells. IL-17A had also a synergistic destruction to MIN6 cells with streptozotocin (STZ), a pancreatic β-cell-specific cytotoxin. Blocking IL-17 receptor A (IL-17RA) reduced all these deleterious effects of IL-17A on MIN6 cells. The results demonstrate the role and the importance of IL-17A in T1D pathogenesis and suggest a potential therapeutic strategy for T1D targeting IL-17A and/or IL-17RA.     

重组人IL-17A和IL-17F的制备方法及活性测定

人IL-17A和IL-17F具有很高的同源性,在炎症性疾病、自身免疫性疾病和肿瘤中都发挥着重要的作用,是当前研究的热点.应用原核表达系统在大肠杆菌BL21(DE3)中高效表达了人IL-17A和IL-17F;经培养条件的优化,未发现可溶性目的蛋白的表达,免疫印记分析显示,重组蛋白位于包涵体中;对包涵体进行洗涤、凝胶过滤层析纯化和柱上复性,获得重折叠的可溶性蛋白;随后用SDS-PAGE对蛋白样品进行了纯度分析、采用免疫印记和质谱的方法鉴定蛋白产物成分、用ME3T3-E1和RAW264.7两个细胞株对IL-17A、IL-17F的生物学活性进行测定.结果显示,柱上复性的方法制备的谊重组蛋白具有较高的纯度和活性.建立的重组人IL-17A和IL-17F的制备方法可为相关研究中细胞因子的大量应用提供参考.     

Development of experimental cerebral malaria is independent of IL-23 and IL-17

Cerebral malaria (CM) is the most severe complication of Plasmodium infection. Although inappropriate immune responses to Plasmodium falciparum are reported as the major causes of CM, the precise mechanisms for development remain unclear. IL-23 and IL-17 have critical roles in the onset of autoimmunity and inflammatory diseases triggered by microbial infections. Thus, we investigated the influence of IL-23 and IL-17 on experimental CM (ECM) using Plasmodium berghei ANKA infection of C57BL/6 mice. Both IL-23 deficient mice and wild-type (WT) mice developed ECM. IL-17 deficient mice also developed ECM, while IL-17 producing cells other than CD4⁺ T cells (Th17) were increased in WT mice that developed ECM. In conclusion, this study showed that IL-23 and IL-17 are not involved in ECM development.     

The human IL-17F/IL-17A heterodimeric cytokine signals through the IL-17RA/IL-17RC receptor complex

IL-17A and IL-17F, produced by the Th17 CD4(+) T cell lineage, have been linked to a variety of inflammatory and autoimmune conditions. We recently reported that activated human CD4(+) T cells produce not only IL-17A and IL-17F homodimers but also an IL-17F/IL-17A heterodimeric cytokine. All three cytokines can induce chemokine secretion from bronchial epithelial cells, albeit with different potencies. In this study, we used small interfering RNA and Abs to IL-17RA and IL-17RC to demonstrate that heterodimeric IL-17F/IL-17A cytokine activity is dependent on the IL-17RA/IL-17RC receptor complex. Interestingly, surface plasmon resonance studies indicate that the three cytokines bind to IL-17RC with comparable affinities, whereas they bind to IL-17RA with different affinities. Thus, we evaluated the effect of the soluble receptors on cytokine activity and we find that soluble receptors exhibit preferential cytokine blockade. IL-17A activity is inhibited by IL-17RA, IL-17F is inhibited by IL-17RC, and a combination of soluble IL-17RA/IL-17RC receptors is required for inhibition of the IL-17F/IL-17A activity. Altogether, these results indicate that human IL-17F/IL-17A cytokine can bind and signal through the same receptor complex as human IL-17F and IL-17A. However, the distinct affinities of the receptor components for IL-17A, IL-17F, and IL-17F/IL-17A heterodimer can be exploited to differentially affect the activity of these cytokines.     

产白介素-17T细胞在肺部细菌感染中的研究进展

目前产白介素-17(IL-17)T细胞主要包括了产IL-17 CD4+T细胞即Th17细胞、产IL-17γδT细胞和产IL-17 CD8+T细胞等。随着对Th17这一系细胞功能研究的不断深入,发现它们能通过产生IL-17和IL-22等细胞因子参与炎症反应。该文将对产IL-17 T细胞在肺部细菌感染中所起作用的最近研究进展进行综述。     

IL-17A and IL-17F repair HIV-1 gp140 damaged Caco-2 cell barriers by upregulating tight junction genes

It is widely accepted that impairment of the intestinal epithelial barrier from HIV/AIDS contributes significantly to microbial translocation and systemic immune activation. Such factors present potential targets for novel treatments aimed toward a functional cure. However, the extracellular mechanisms of intestinal barrier repair are poorly understood. In the current study, we investigated the abilities of IL-17A and IL-17F to repair the damaged barrier caused by HIV-1 gp140 using Caco-2 monolayers. It was found that HIV-1 gp140 downregulated the expression of tight junction-associated genes and disrupted the barrier integrity of Caco-2 monolayers. However, IL-17A and IL-17F treatment reversed the HIV-1 gp140-induced barrier dysfunction by upregulating the expression of tight junction-associated genes, the combination of which resulted in a stronger induction of barrier repair. Furthermore, the effects of IL-17A and IL-17F were reduced by downregulation of Act1 with siRNA and inhibition of NF-κB and MAPK pathways with BAY11-7082 and U0126, respectively. These data indicated that the NF-κB and MAPK pathways are involved in the repair of barrier integrity mediated by IL-17A and IL-17F, and IL-17 pathways are potential targets for gut barrier restoration therapies during HIV/AIDS.     

Cyclosporin A inhibits the production of IL-17 by memory Th17 cells from healthy individuals and patients with rheumatoid arthritis

Recent evidence from several studies indicated that IL-17-producing Th17 cells can represent the key effector cells in the induction and development of autoimmune disorders. Cyclosporine A (CsA) is a commonly used immunosuppressant to treat lots of autoimmune diseases including rheumatoid arthritis (RA). Here, we demonstrated that PBMCs and purified CD4⁺ T cells from healthy individuals and patients with RA could be induced to produce large amounts of IL-17 after stimulation with anti-CD3 plus anti-CD28 mAbs. Phenotypic analysis indicated that the majority of IL-17-producing cells were Th17 cells with memory phenotype. The addition of CsA into cell cultures significantly inhibited the IL-17 production by Th17 cells at protein and at mRNA levels. Compared to the PBMCs from normal individuals, PBMCs from the patients with RA produced higher levels of IL-17 that was also significantly inhibited by CsA both at protein and at mRNA levels. The mechanism might be the effect of CsA on the T cells activation because the expression of CD69 and CD25 molecules on T cells was markedly reduced in the presence of CsA. Taken together, these results demonstrated that CsA suppressed the IL-17 production and inhibited the Th17 cells differentiation from both healthy individuals and patients with RA.     

IL-17A在呼吸道慢性炎症性疾病中的研究进展

白介素-17A(IL-17A)是一种促炎因子,是IL-17细胞因子家族中的一员。该家族的细胞因子分别被命名为IL-17A至IL-17F,IL-17A是该家族中最具代表性的成员,它能够促进炎症细胞释放多种趋化因子、细胞因子和抗菌肽等,诱导中性粒细胞的聚集和增殖,是连接固有免疫和适应性免疫的桥梁。IL-17A的家族细胞因子在很多肺部过敏性、自身免疫性甚至肿瘤性疾病的发生发展和宿主防御中发挥着关键作用,在哮喘、慢性阻塞性肺病(COPD)、囊性纤维化(CF)、结节病、支气管扩张等呼吸道慢性炎症性疾病中均存在异常表达,虽然在多种疾病中未能阐明IL-17A影响疾病发展的具体作用机制,但已证明其水平与疾病的发展存在关联,这不仅为研究相关疾病的发病机制提供了新的切入点,也为其新型治疗手段的研究提供了新的思路。本文就IL-17A在呼吸道慢性炎症性疾病中的研究进展进行综述。     

Antagonistic RNA aptamer specific to a heterodimeric form of human interleukin-17A/F

Interleukin-17 (IL-17) is a pro-inflammatory cytokine produced primarily by a subset of CD4⁺ T cells, called Th17 cells, that is involved in host defense, inflammation and autoimmune disorders. The two most structurally related IL-17 family members, IL-17A and IL-17F, form homodimeric (IL-17A/A, IL-17F/F) and heterodimeric (IL-17A/F) complexes. Although the biological significance of IL-17A and IL-17F have been investigated using respective antibodies or gene knockout mice, the functional study of IL-17A/F heterodimeric form has been hampered by the lack of an inhibitory tool specific to IL-17A/F. In this study, we aimed to develop an RNA aptamer that specifically inhibits IL-17A/F. Aptamers are short single-stranded nucleic acid sequences that are selected in vitro based on their high affinity to a target molecule. One selected aptamer against human IL-17A/F, AptAF42, was isolated by repeated cycles of selection and counterselection against heterodimeric and homodimeric complexes, respectively. Thus, AptAF42 bound IL-17A/F but not IL-17A/A or IL-17F/F. The optimized derivative, AptAF42dope1, blocked the binding of IL-17A/F, but not of IL-17A/A or IL-17F/F, to the IL-17 receptor in the surface plasmon resonance assay in vitro. Consistently, AptAF42dope1 blocked cytokine GRO-α production induced by IL-17A/F, but not by IL-17A/A or IL-17F/F, in human cells. An RNA footprinting assay using ribonucleases against AptAF42dope1 in the presence or absence of IL-17A/F revealed that part of the predicted secondary structure fluctuates between alternate forms and that AptAF42dope1 is globally protected from ribonuclease cleavage by IL-17A/F. These results suggest that the selected aptamer recognizes a global conformation specified by the heterodimeric surface of IL-17A/F.     

IL-17的信号传导及功能研究

白介素17(IL-17),辅助性T细胞T_H17分泌的特征性细胞因子,在抵抗胞外细菌、真菌感染的宿主防御以及各种自身免疫性疾病发病中起到了重要的作用。本文对T_B17细胞、IL-17的发现作了历史性回顾,并综述了IL-17受体介导的信号传导途径和生理功能的研究进展,为T_H17细胞、IL-17及其受体作为药物治疗的新靶点提供新思路。     

IL-17F deficiency inhibits small intestinal tumorigenesis in Apc mice

IL-17 plays an important role in gut homeostasis. However, the role of IL-17F in intestinal tumorigenesis has not been addressed. Here we demonstrate that ablation of IL-17F significantly inhibits spontaneous intestinal tumorigenesis in the small intestine of Apc^Min/+ mice. IL-17F ablation decreased IL-1β and Cox-2 expression as well as IL-17 receptor C (IL-17RC) expression, which were increased in tumors from Apc^Min/+ mice. Lack of IL-17F did not reverse the splenomegaly but partially restored thymic atrophy, suggesting a local effect of IL-17F in the intestine. IL-17F deficient Apc^Min/+ mice showed a significant decrease in immune cell infiltration in the lamina propria. Interestingly, the expression of IL-17A from CD4 T cells in the lamina propria remains unchanged in the absence of IL-17F. Collectively, our results suggest the proinflammatory and essential role of IL-17F to develop spontaneous intestinal tumorigenesis in Apc^Min/+ mice in the presence of IL-17A.     

IL-23/IL-17轴在脓毒症中的表达及意义

目的:探讨IL-23/IL-17轴在脓毒症患者中的表达及意义.方法:符合诊断标准的脓毒症患者40例,以28天预后为终点,将患者分为存活组(n=21)和病死组(n=19),分析各组病人的急性生理和慢性健康评分(APACHE)Ⅱ和序贯器官衰竭估计(SOFA)评分,同时在入ICU第1天采取外周静脉血做IL-23和IL-17检测,并对病死率和IL-23、IL-17、APACHEⅡ、SOFA做相关性分析.结果:与存活组比较,病死组患者拥有较高的APACHEⅡ和SOFA评分(P<0.01),且外周血的IL-23和IL-17蛋白含量均明显升高(P<0.05).APACHEⅡ和SOFA评分、IL-17和IL-23含量与28天预后有明显的相关性(P<0.05).结论:脓毒症Th17细胞分泌的IL-23/IL-17增加,加重患者病情,在脓毒症发病机制中可能扮演重要角色.     

Murine NKT cells produce Th17 cytokine interleukin-22

Natural killer T (NKT) cells are known to produce Th17 cytokine IL-17 in addition to Th1/2 cytokines. In this study, the ability of NKT cells to produce IL-22, another Th17 cytokine, was examined in mice. When murine spleen cells were stimulated with α-galactosyl ceramide, a ligand for NKT cells, not only Th1/2 cytokines (IFN-γ, IL-4) but Th17 cytokines (IL-17, IL-22) were produced. NKT cells isolated from splenocytes released IL-17 and IL-22 following CD3, CD3/IL-2 or CD3/CD28 stimulation, in which CD3/CD28 costimulation was most effective. Production of IL-17 and IL-22 in CD4+ and CD8+ T cells from splenocytes was little, if any, even after CD3/CD28 costimulation. Treatment with IL-6/TGF-β decreased CD3/CD28-stimulated production of IL-22, but not that of IL-17, in NKT cells. These findings show for the first time that NKT cells are a cell source of IL-22, and that expression of two Th17 cytokines might be regulated in NKT cells by different mechanisms.     

Lower frequency of IL-17F sequence variant (His161Arg) in chronic fatigue syndrome patients

Chronic fatigue syndrome (CFS) is characterized by immune dysfunctions including chronic immune activation, inflammation, and alteration of cytokine profiles. T helper 17 (Th17) cells belong to a recently identified subset of T helper cells, with crucial regulatory function in inflammatory and autoimmune processes. Th17 cells are implicated in allergic inflammation, intestinal diseases, central nervous system inflammation, disorders that may all contribute to the pathophysiology of CFS. IL-17F is one of the pro-inflammatory cytokines secreted by Th17 cells. We investigated the association between CFS and the frequency of rs763780, a C/T genetic polymorphism leading to His161Arg substitution in the IL-17F protein. The His161Arg variant (C allele) antagonizes the pro-inflammatory effects of the wild-type IL-17F. A significantly lower frequency of the C allele was observed in the CFS population, suggesting that the His161Arg variant may confer protection against the disease. These results suggest a role of Th17 cells in the pathogenesis of CFS.     

Genomics of fish IL-17 ligand and receptors: a review

Interleukin-17 (IL-17) is a cytokine family composed of six ligands (A–F). Especially, the IL-17A and IL-17F are best characterized cytokines of IL-17 family cytokine. These are produced by Th17 cells and induce the expression of many mediators of inflammation properties. In addition, the five member of IL-17 receptor family (RA-RE) have been identified in mammals. Although the research on fish IL-17 is a little to date, this review discusses some of the recent advances in research on IL-17 ligand and receptor genes in fish. IL-17 family member was chosen from the fish genome database, and its structure and phylogeny is analyzed in detail. Moreover, invertebrate IL-17 genes are also discussed, and the isolation and current status of fish IL-17 receptor genes are summarized. Comparative genomic analysis of the IL-17 family among mammals, teleost and invertebrates provided new insights. Novel IL-17 ligand (IL-17N) was identified from teleost, moreover it was suggested that IL-17N may be a teleost specific ligand by synteny and phylogenetic analysis. On the other hand, IL-17 receptors are well conserved between mammal and teleost, the five member of IL-17 receptor family: IL-17RA-RE were found on the teleost genome. In addition, the IL-17RA gene was duplicated in tandem on the stickleback and medaka genome. Knowledge about the IL-17 ligand/receptor in fish is very limited. Therefore this review will hopefully encourage future studies of IL-17 in fish.     

CD8 positive T cells express IL-17 in patients with chronic obstructive pulmonary disease

Background

Chronic obstructive pulmonary disease (COPD) is a progressive and irreversible chronic inflammatory disease of the lung. The nature of the immune reaction in COPD raises the possibility that IL-17 and related cytokines may contribute to this disorder. This study analyzed the expression of IL-17A and IL-17F as well as the phenotype of cells producing them in bronchial biopsies from COPD patients.

Methods

Bronchoscopic biopsies of the airway were obtained from 16 COPD subjects (GOLD stage 1-4) and 15 control subjects. Paraffin sections were used for the investigation of IL-17A and IL-17F expression in the airways by immunohistochemistry, and frozen sections were used for the immunofluorescence double staining of IL-17A or IL-17F paired with CD4 or CD8. In order to confirm the expression of IL-17A and IL-17F at the mRNA level, a quantitative RT-PCR was performed on the total mRNA extracted from entire section or CD8 positive cells selected by laser capture microdissection.

Results

IL-17F immunoreactivity was significantly higher in the bronchial biopsies of COPD patients compared to control subjects (P < 0.0001). In the submucosa, the absolute number of both IL-17A and IL-17F positive cells was higher in COPD patients (P < 0.0001). After adjusting for the total number of cells in the submucosa, we still found that more cells were positive for both IL-17A (P < 0.0001) and IL-17F (P < 0.0001) in COPD patients compared to controls. The mRNA expression of IL-17A and IL-17F in airways of COPD patients was confirmed by RT-PCR. The expression of IL-17A and IL-17F was co-localized with not only CD4 but also CD8, which was further confirmed by RT-PCR on laser capture microdissection selected CD8 positive cells.

Conclusion

These findings support the notion that Th17 cytokines could play important roles in the pathogenesis of COPD, raising the possibility of using this mechanism as the basis for novel therapeutic approaches.     

Blockade of TLR9 agonist-induced type I interferons promotes inflammatory cytokine IFN-gamma and IL-17 secretion by activated human PBMC

Type I interferons (IFN) (IFN-alpha/beta) are recognized as both inhibitors and effectors of autoimmune disease. In multiple sclerosis, IFN-beta therapy appears beneficial, in part, due to its suppression of autoimmune inflammatory Th cell responses. In contrast, in systemic lupus erythematosus (SLE) triggering of plasmacytoid DC (pDC) Toll-like receptors (TLRs) by autoimmune complexes (autoICs) results in circulating type I IFN that appear to promote disease by driving autoantigen presentation and autoantibody production. To investigate how pDC-derived type I IFN might regulate Th cells in SLE, we examined a model in which sustained pDC stimulation by autoICs is mimicked by pretreating normal human PBMC with TLR9 agonist, CpG-A. Subsequently, PBMC Th cells are activated with superantigen, and APC are activated with CD40L. The role of CpG-A/TLR9-induced type I IFN in regulating PBMC is determined by blocking with virus-derived soluble type I IFN receptor, B18R. In summary, pretreatment with either rhIFN-alpha/beta or CpG-A inhibits PBMC secretion of superantigen-induced IFN-gamma and IL-17, and CD40L-induced IL-12p70 and IL-23. B18R prevents these effects. Data indicate that CpG-A-induced type I IFN inhibit IL-12p70-dependent PBMC IFN-gamma secretion by enhancing IL-10. Our results suggest that in SLE, circulating type I IFN may potentially act to inhibit inflammatory cytokine secretion.