Th17细胞的分化、调节及其主要细胞因子和功能

近几年来以分泌白介素17(interleukin 17,IL-17)为特征的辅助性T细胞Th17(T help cell 17,Th17)细胞被认为是有区别于Th1(T help cell 1,Th1)、Th2(T help cell 2,Th2)新型的细胞亚群,它的发现改变了以往人们只将Th细胞分为Th1、Th2的传统分类认识。Th17细胞参与了自身免疫疾病、肿瘤的发生及机体各种炎症的发病机制,其分泌的细胞因子在生物学功能中发挥了极其重要的作用。同时Th17细胞的活化需要各种转化生长因子、IL-6(interleukin 6,IL-6)、IL-23(interleukin 23,IL-23)等细胞因子的参与,活化的Th17细胞同时再进一步的促进各种细胞因子的分泌,以通过分泌IL-17、IL-21(interleukin 21,IL-21)、IL-22(interleukin22,IL-22)、IL-26(interleukin 26,IL-26)、肿瘤坏死因子(tumor necrosis factor,TNF)α等细胞因子导致机体炎症等各种疾病的发生。     

Th17/Treg失衡与肝脏免疫病理反应的研究进展

Th17细胞及Th17/Treg失衡在炎症反应、组织损伤及纤维化形成中发挥了重要作用,与多种疾病的发生发展密切相关。前炎性细胞因子可诱导T细胞分化为Th17,使Th17/Treg失衡,导致IL-17、IL-6、趋化因子等促炎性细胞因子大量分泌并有效介导中性粒细胞动员与兴奋,使得机体产生炎症反应与免疫病理反应。就Th17/Treg细胞及其失衡在肝脏免疫病理反应中的研究进展进行了综述。     

白细胞介素17在类风湿性关节炎中意义的探讨

白细胞介素17（interleukin-17,IL-17）是近年来发现的一种重要的炎症性细胞因子。主要由CD4＋效应T细胞的亚群-辅助性T细胞17（T help cell 17,Th17）、CD8＋T细胞和γδT细胞产生,能调节并促进多种炎性介质的产生,有强大的招募中性粒细胞的作用,在白细胞的迁移、破骨细胞的活化和骨质的吸收等方面发挥重要作用。近年来研究发现,IL-17与多种炎性疾病、感染、肿瘤、过敏、及自身免疫性疾病均有密切关系,尤其在类风湿性关节炎（rheumatoid arthritis,RA）发病的各个环节中起重要作用。本文对IL-17在类风湿性关节炎的发生、发展、诊断及治疗等方面的作用进行综述。     

Ⅱ型固有淋巴细胞及其在变应性哮喘中的作用

变应性哮喘是一种以慢性气道炎症和气道高反应性为特征的异质性疾病,与白细胞介素-4(interleukin-4,IL-4)、IL-5和IL-13等II型辅助性T细胞(type 2 T helper cell,Th2)分泌的细胞因子有关。II型固有淋巴细胞(type 2 innate lymphoid cells,ILC2s)是在转录因子维甲酸相关孤核受体α(retinoic acid receptor related orphan receptorα,RORα)和GATA结合因子3(GATA-binding factor 3,GATA3)控制下由骨髓中的淋巴样祖细胞发育而来。ILC2s能分泌Th2型细胞因子如IL-5和IL-13,有助于启动和维持II型免疫反应。近期研究表明,ILC2s在变应性哮喘中发挥着不可替代的作用。研究ILC2s对于了解变应性哮喘的发病机制具有重要意义。该文将主要综述ILC2s的发现、发育、分布与功能及其与变应性哮喘关系的最新进展。     

辅助性T细胞17在免疫相关性全血细胞减少症中的免疫调节功能研究

免疫相关性全血细胞减少(immune-related pancytopenia,IRP)是临床多个学科易见的疾病,也是困扰临床医师的一大难题。近年来关于辅助性T细胞17(T helper 17,Th17)对IRP发病作用的研究更是热点。通过检测免疫相关性全血细胞减少症患者骨髓中Th17细胞数量及功能变化,探讨Th17细胞在IRP中的免疫调节作用。研究发现,IRP患者(IL-23R)+CD4+/CD4+细胞比率及其骨髓上清液IL-6、IL-17、IL-23水平增高,提示IL-23介导的Th17细胞分化亢进可能是IRP发病原因之一。免疫干预治疗可以显著降低Th17细胞比率及IL-23R,抑制Th17细胞分化亢进可能是治疗IRP的一个靶点。     

T淋巴细胞在哮喘发病机制中的作用

支气管哮喘(简称哮喘)的本质是慢性气道炎症,是多种炎症细胞(如嗜酸性粒细胞、肥大细胞、T淋巴细胞、中性粒细胞等)和其介质共同参与引起的慢性炎症反应,而T淋巴细胞在其中发挥重要作用。T淋巴细胞目前主要分为四个亚群,分别是Th1、Th2、Th17和Treg亚群。过去曾认为Th1/Th2平衡失调是哮喘发病的关键因素,但近年研究发现Th17/Treg及Th2/Treg的平衡失调在哮喘的发病机制中同样发挥巨大作用,且日益受到重视。本文就T细胞在哮喘发病机制中的作用及研究进展做一综述。     

Th17/Treg细胞及其失衡在乙型肝炎致病机制中的作用

我国是乙型肝炎病毒(HBV)高感染率国家,乙型肝炎发病机制十分复杂,宿主免疫调节紊乱是导致不能有效清除病毒、病情迁延不愈的重要原因,其中CD4+T淋巴细胞发挥主要作用。最近,新发现的CD4+T细胞的几种亚群为乙型肝炎致病机制的研究提供了新思路。这些新的T细胞亚群中,有一种被称为Th17细胞,表达转录因子ROR-γt,并分泌各种IL-17因子参与免疫反应。另一种为Treg细胞,表达转录因子Fox P3,主要分泌TGF-β因子,当TGF-β单独存在时,初始的效应T细胞分化为Treg细胞。辅助性Th17细胞(Th17)和调节性T细胞(regulatory T cell,Treg)在分化发育、增殖及功能上有着密切的联系,并参与乙型肝炎的致病过程,对乙型肝炎的发生、发展、及愈后有一定影响。最近的研究表明,Th17/Treg的失调可能参与了乙型肝炎的异常免疫反应,从而导致慢性炎症的形成和HBV的持续感染。本文就Th17细胞和Treg细胞及其失衡在乙型肝炎致病机制中的作用予以综述,为乙型肝炎的免疫学治疗提供理论基础。     

不同RF型类风湿性关节炎患者Th17相关细胞因子表达研究

目的：探讨类风湿因子阳性与阴性类风湿关节炎（rheumatoid arthritis,RA）患者外周血中辅助T细胞（Th17）及相关细胞因子白介素17（interleukin,IL-17）,白介素6（interleukin,IL-6）表达的差异。方法：收集RA患者51例,根据RF测定分为RF＋、RF-组,健康查体者（对照组）20例,采用流式细胞术检测受检者外周血单个核细胞（PBMC）的Th17细胞的百分率;以酶联免疫吸附法（ELISA）检测受检者血浆中IL-17,IL-6的水平。结果：RA患者CD4＋IL-17＋T细胞,IL-17、IL-6水平均高于对照组,RF因子阳性与阴性RA患者之间CD4＋IL-17＋T细胞,IL-17、IL-6表达水平均存在差异有统计学意义。结论：在RA中不同RF型免疫反应和炎症表达的不同,可能与Th17及相关细胞因子表达差异有关。     

Th17细胞及其在器官移植排斥反应中的作用

最近发现的辅助T细胞17（T helper cell 17,Th-17）是不同于辅助T细胞1型（Thelpercell1,Th-1）,辅助T细胞2型（Thelpercell2,Th-2）及调节性T细胞（regulatory T cell,Treg）的T细胞亚群,有其独立的分化和发育调节,且互相影响。它由初始T细胞在转化生长因子B（transforming growth factor B,TGF—B）与白细胞介素6（interleukin6,IL-6）、白细胞介素23（interleukin23,1L23）联合作用及转录因子维甲酸相关孤儿素受体γt（retinoic acid related orphan nuclear receptorm,ROR-γt）的协同诱导精细的调节下分化而来。其主要分泌的生物效应分子白细胞介素17（Interleukin17,IL-17）是一种促炎性反应细胞因子,在免疫和造血系统等发挥重要的作用。而器官移植排斥反应的本质就是炎性反应。因此深入研究Th-17细胞分化及其相关生物效应,有助认识其在器官移植排斥中的病理机制,也为治疗移植排斥反应提供新的靶点和途径。     

Th2型γδ T细胞参与急性RSV感染所诱发的气道炎症反应

γδ T细胞是机体重要的固有免疫细胞,参与肺组织炎性病变及哮喘的发生发展。但迄今为止,γδT细胞在呼吸道合胞病毒感染所诱发的气道炎症反应中的作用尚不十分清楚。研究通过建立RSV急性感染的实验动物模型,采用HE染色、Real-timeRT-PCR、流式细胞术等实验方法,旨在揭示γδT细胞在感染性气道炎症发生中的作用及其相关作用机制。结果显示,RSV感染导致BALA/c鼠肺炎性细胞浸润,其中嗜酸性粒细胞增加明显;同时肺组织局部Th2型细胞因子IL-4、IL-13 mRNA表达升高;RSV感染后,肺组织γδT细胞总数,特别是活化的CD69+γδT细胞数量显著增加,其中分泌Th2型细胞因子IL-4和IL-13的γδT细胞数量增加明显,而分泌Th1型细胞因子IFN-γ的γδT细胞数量显著减少,证实γδT细胞通过分泌Th2型细胞因子介导RSV感染诱发的气道炎症反应。     

双歧杆菌对过敏性哮喘儿童树突状细胞分泌IL-10、IL-12等细胞因子的影响

目的探讨双歧杆菌对过敏性哮喘儿童外周血单核细胞（PBMC）来源的树突状细胞（DC）分泌IL-1β、IL-6、IL-10、IL-12、IL-23和IFN-γ的影响。方法从15例过敏性哮喘儿童和15例非哮喘儿童的外周血单个核细胞诱导生成未成熟DC,加入双歧杆菌后继续培养DC2d,用ELISA方法检测培养上清中IL-1β、IL-6、IL-10、IL-12、IL-23和IFN-γ的水平。结果双歧杆菌能明显刺激哮喘儿童DC分泌IL-12、IFN-γ,IL-1β及IL-6和非哮喘儿童DC分泌IL-12、IL-10、IL-1β及IL-23水平增高。结论双歧杆菌能够刺激过敏性哮喘儿童DC分泌IL-12和IFN-γ,可能改变Th2优势分化,纠正Th1／Th2失衡。同时双歧杆菌还能刺激哮喘儿童DC分泌IL-1p及IL-6增高,达到促进,Th17细胞分化的作用。     

Potential role of myeloid cell/eosinophil-derived IL-17 in LPS-induced endotoxin shock

IL-17RA is a shared receptor subunit for several cytokines of the IL-17 family, including IL-17A, IL-17C, IL-17E (also called IL-25) and IL-17F. It has been shown that mice deficient in IL-17RA are more susceptible to sepsis than wild-type mice, suggesting that IL-17RA is important for host defense against sepsis. However, it is unclear which ligands for IL-17RA, such as IL-17A, IL-17C, IL-17E/IL-25 and/or IL-17F, are involved in the pathogenesis of sepsis. Therefore, we examined IL-17A, IL-17E/IL-25 and IL-17F for possible involvement in LPS-induced endotoxin shock. IL-17A-deficient mice, but not IL-25- or IL-17F-deficient mice, were resistant to LPS-induced endotoxin shock, as compared with wild-type mice. Nevertheless, studies using IL-6-deficient, IL-21Rα-deficient and Rag-2-deficient mice, revealed that neither IL-6 and IL-21, both of which are important for Th17 cell differentiation, nor Th17 cells were essential for the development of LPS-induced endotoxin shock, suggesting that IL-17A-producing cells other than Th17 cells were important in the setting. In this connection, IL-17A was produced by macrophages, DCs and eosinophils after LPS injection. Taken together, these findings indicate that IL-17A, but not IL-17F or IL-25, is crucial for LPS-induced endotoxin shock. In addition, macrophages, DCs and eosinophils, but not Th17 cells or γδ T cells, may be sources of IL-17A during LPS-induced endotoxin shock.     

IL-17-producing alveolar macrophages mediate allergic lung inflammation related to asthma

IL-17 is a pivotal proinflammatory molecule in asthmatics. However, the cellular source of IL-17 in asthma has not been identified to date. In this study, we report that macrophages rather than Th17 cells are the main producer of IL-17 in allergic inflammation related to asthma. After OVA challenge in a mouse model mimicking allergic asthma, the increased IL-17(+) cells in the lung were mainly CD11b(+)F4/80(+) macrophages, instead of T cells or others. Importantly, IL-17(+) alveolar macrophages (AMs), but not IL-17(+) interstitial macrophages, were significantly increased after allergen challenge. The increase of IL-17(+) AMs was not due to the influx of IL-17(+) macrophages from circulation or other tissues, but ascribed to the activation of AMs by mediator(s) secreted by IgE/OVA-activated mast cells. Depleting alveolar macrophages or neutralizing IL-17 prevented the initiation of OVA-induced asthma-related inflammation by inhibiting the increase of inflammatory cells and inflammatory factors in bronchoalveolar lavage fluid. Th2 cytokine IL-10 could down-regulate IL-17 expression in alveolar macrophages. The increased IL-17 and the decreased IL-10 in bronchoalveolar lavage fluid were further confirmed in asthmatic patients. These findings suggest that IL-17 is mainly produced by macrophages but not Th17 cells in allergic inflammation related to asthma. Mast cell-released mediators up-regulate the expression of IL-17 by macrophages, whereas IL-10 down-regulates IL-17 expression.     

Potentiation of Th17 cytokines in aging process contributes to the development of colitis

Th17 cells, which produce IL-17 and IL-22, promote autoimmunity in mice and have been implicated in the pathogenesis of autoimmune/inflammatory diseases in humans. However, the Th17 immune response in the aging process is still not clear. In the present study, we found that the induction of IL-17-produing CD4⁺ T cells was significantly increased in aged individuals compared with young healthy ones. The mRNA expression of IL-17, IL-17F, IL-22, and RORC2 was also significantly increased in aged people. Similar to humans, Th17 cells as well as mRNAs encoding IL-17, IL-22 and RORγt were dramatically elevated in naïve T cells from aged mouse compared to young ones. In addition, CD44 positive IL-17-producing CD4⁺ T cells were significantly higher in aged mice, suggesting that memory T cells are an important source of IL-17 production. Furthermore, the percentage of IL-17-produing CD4⁺ T cells generated in co-culture with dendritic cells from either aged or young mice did not show significant differences, suggesting that dendritic cells do not play a primary role in the elevation of Th17 cytokines in aged mouse cells. Importantly, transfer of CD4⁺CD45Rb^hi cells from aged mice induced more severe colitis in RAG^−/− mice compared to cells from young mice, Taken together, these results suggest that Th17 immune responses are elevated in aging humans and mice and may contribute to the increased development of inflammatory disorders in the elderly.     

Th17 cytokines induce pro-fibrotic cytokines release from human eosinophils

Background

Subepithelial fibrosis is one of the most critical structural changes affecting bronchial airway function during asthma. Eosinophils have been shown to contribute to the production of pro-fibrotic cytokines, TGF-β and IL-11, however, the mechanism regulating this process is not fully understood.

Objective

In this report, we investigated whether cytokines associated with inflammation during asthma may induce eosinophils to produce pro-fibrotic cytokines.

Methods

Eosinophils were isolated from peripheral blood of 10 asthmatics and 10 normal control subjects. Eosinophils were stimulated with Th1, Th2 and Th17 cytokines and the production of TGF-β and IL-11 was determined using real time PCR and ELISA assays.

Results

The basal expression levels of eosinophil derived TGF-β and IL-11 cytokines were comparable between asthmatic and healthy individuals. Stimulating eosinophils with Th1 and Th2 cytokines did not induce expression of pro-fibrotic cytokines. However, stimulating eosinophils with Th17 cytokines resulted in the enhancement of TGF-β and IL-11 expression in asthmatic but not healthy individuals. This effect of IL-17 on eosinophils was dependent on p38 MAPK activation as inhibiting the phosphorylation of p38 MAPK, but not other kinases, inhibited IL-17 induced pro-fibrotic cytokine release.

Conclusions

Th17 cytokines might contribute to airway fibrosis during asthma by enhancing production of eosinophil derived pro-fibrotic cytokines. Preventing the release of pro-fibrotic cytokines by blocking the effect of Th17 cytokines on eosinophils may prove to be beneficial in controlling fibrosis for disorders with IL-17 driven inflammation such as allergic and autoimmune diseases.     

Macrophage activation state determines the response to rhinovirus infection in a mouse model of allergic asthma

Background

The mechanisms by which viruses cause asthma exacerbations are not precisely known. Previously, we showed that, in ovalbumin (OVA)-sensitized and -challenged mice with allergic airway inflammation, rhinovirus (RV) infection increases type 2 cytokine production from alternatively-activated (M2) airway macrophages, enhancing eosinophilic inflammation and airways hyperresponsiveness. In this paper, we tested the hypothesis that IL-4 signaling determines the state of macrophage activation and pattern of RV-induced exacerbation in mice with allergic airways disease.

Methods

Eight week-old wild type or IL-4 receptor knockout (IL-4R KO) mice were sensitized and challenged with OVA and inoculated with RV1B or sham HeLa cell lysate.

Results

In contrast to OVA-treated wild-type mice with both neutrophilic and eosinophilic airway inflammation, OVA-treated IL-4R KO mice showed increased neutrophilic inflammation with few eosinophils in the airways. Like wild-type mice, IL-4R KO mice showed OVA-induced airway hyperreactivity which was further exacerbated by RV. There was a shift in lung cytokines from a type 2-predominant response to a type 1 response, including production of IL-12p40 and TNF-α. IL-17A was also increased. RV infection of OVA-treated IL-4R KO mice further increased neutrophilic inflammation. Bronchoalveolar macrophages showed an M1 polarization pattern and ex vivo RV infection increased macrophage production of TNF-α, IFN-γ and IL-12p40. Finally, lung cells from OVA-treated IL-4R KO mice showed reduced CD206+ CD301+ M2 macrophages, decreased IL-13 and increased TNF-α and IL-17A production by F4/80+, CD11b+ macrophages.

Conclusions

OVA-treated IL-4R KO mice show neutrophilic airway inflammation constituting a model of allergic, type 1 cytokine-driven neutrophilic asthma. In the absence of IL-4/IL-13 signaling, RV infection of OVA-treated mice increased type 1 cytokine and IL-17A production from conventionally-activated macrophages, augmenting neutrophilic rather than eosinophilic inflammation. In mice with allergic airways inflammation, IL-4R signaling determines macrophage activation state and the response to subsequent RV infection.     

IL-17 inhibits human Th1 differentiation through IL-12Rβ2 downregulation

Th17 cells are critical in adaptive immunity and autoimmune disease. The polarized development of Th17, Th1 and Th2 cells is dependent on counterregulatory effects on each other. Whereas IFN-γ inhibits Th17 development, the effect of IL-17 in human Th1 development is not known. We report a novel negative regulatory role of IL-17 on IL-12Rβ2 expression associated with reduced IL-12 responsiveness. IL-17 decreased IL-12-induced IFN-γ expression in PBMC and developing Th1 cells, associated with a selective reduction in IL-12Rβ2, and not IL-23R, IL-12Rβ1 or T-bet. Counterregulatory effects of human Th17 on Th1 lineage cytokines may contribute to lineage divergence. In autoimmune disease, IL-17 may reinforce its own developmental programme by reducing IL-12 responsiveness, thus limiting inhibitory effects of IFN-γ on Th17 development.     

Current understanding of Th2 cell differentiation and function

Helper T cell (Th) has been identified as a critical immune cell for regulating immune response since 1980s. The type 2 helper T cell (Th2), characterized by the production of interleukin-4 (IL-4), IL-5 and IL-13, plays a critical role in immune response against helminths invading cutaneous or mucosal sites. It also has a functional role in the pathophysiology of allergic diseases such as asthma and allergic diarrhea. Currently, most studies have shed light on Th2 cell function and behavior in specific diseases, such as asthma and helminthes inflammation, but not on Th2 cell itself and its differentiation. Based on different cytokines and specific behavior in recent research, Th2 cell is also regarded as new subtypes of T cell, such as IL-9 secreting T cell (Th9) and CXCR5⁺ T follicular helper cells. Here, we will discuss the latest view of Th2 cell towards their function and the involvement of Th2 cell in diseases.     

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.     

Loss of Sprouty4 in T cells ameliorates experimental autoimmune encephalomyelitis in mice by negatively regulating IL-1β receptor expression

Th17 cells, which have been implicated in autoimmune diseases, require IL-6 and TGF-β for early differentiation. To gain pathogenicity, however, Th17 cells require IL-1β and IL-23. The underlying mechanism by which these confer pathogenicity is not well understood. Here we show that Sprouty4, an inhibitor of the PLCγ-ERK pathway, critically regulates inflammatory Th17 (iTh17) cell differentiation. Sprouty4-deficient mice, as well as mice adoptively transferred with Sprouty4-deficient T cells, were resistant to experimental autoimmune encephalitis (EAE) and showed decreased Th17 cell generation in vivo. In vitro, Sprouty4 deficiency did not severely affect TGF-β/IL-6-induced Th17 cell generation but strongly impaired Th17 differentiation induced by IL-1/IL-6/IL-23. Analysis of Th17-related gene expression revealed that Sprouty4-deficient Th17 cells expressed lower levels of IL-1R1 and IL-23R, while RORγt levels were similar. Consistently, overexpression of Sprouty4 or pharmacological inhibition of ERK upregulated IL-1R1 expression in primary T cells. Thus, Sprouty4 and ERK play a critical role in developing iTh17 cells in Th17 cell-driven autoimmune diseases.