CD4~+CD25~+调节性T细胞在病毒感染中的免疫调节机制

CD4+CD25+调节性T细胞的主要功能是抑制自身反应性T细胞,主要通过细胞与细胞间直接接触和分泌抑制性细胞因子发挥作用,其在维持机体T细胞内环境稳定、调节和保持对自身抗原耐受之间的平衡以及移植免疫耐受方面具有重要作用。新近研究发现,CD4+CD25+Treg数量和功能异常与病毒感染性疾病的发生、发展关系密切。本文就CD4+CD25+Treg作用机制及其在病毒感染性疾病中的作用进行综述。     

CD4+CD25+调节性T细胞发挥效应的分子机制

调节性T细胞是一群具有免疫调节(或免疫抑制)作用的细胞,Foxp3 CD4 CD25 调节性T细胞约占CD4 T细胞的5%￣15%,主要是CD4 CD8-CD25-单阳性胸腺细胞在胸腺的自然选择过程中产生的,也可以通过外周诱导而产生。它通过细胞接触依赖机制和抑制性细胞因子依赖机制主动抑制自身免疫T细胞的活化,维持自稳状态。现对Foxp3 CD4 CD25 T细胞群的一些特征性分子在其效应机制中的作用进行综述。     

CD4~+CD25~+调节性T细胞与肿瘤免疫研究进展

调节性T细胞(Treg)是一类具有免疫调节功能的细胞群,在机体的免疫耐受中起着关键性作用。它们主要通过细胞-细胞直接接触的方式抑制CD4+和CD8+效应性T细胞的活化和增殖,来调节获得性免疫系统,阻止自身免疫疾病的发生。Treg中以自然产生的CD4+CD25+调节性T细胞(固有Treg细胞)研究最多。在人类,调控效能主要限于CD4+CD25high亚型。由于Treg独特的生物学功能,它在自身免疫性疾病的发生、移植耐受和肿瘤的发生和转归上越来越受到重视。该文就该类细胞的特点及其与肿瘤关系的研究进展作一综述。     

病毒感染中调节性T细胞的作用及其机制

CD4^+CD25^+调节性T细胞具有重要的免疫调节功能,在病毒感染的发生和转归中扮演重要的角色。某些病毒感染可诱导调节性T细胞的产生,并通过细胞间直接接触并分泌抑制性细胞因子的方式发挥抑制免疫应答功能,从而导致病毒感染的持续和疾病的慢性化;调节性T细胞也可通过抑制抗体的产生或细胞毒性T淋巴细胞的杀伤作用保护组织、细胞免受免疫损伤。     

牙龈卟啉单胞菌脂多糖对CD4^＋CD25^＋调节性T细胞免疫抑制功能的影响

目的探讨牙龈卟啉单胞菌（Porphyromonas gingivalis,Pg）对CD4^＋CD25^＋调节性T细胞（regulatory T cells,Tregs）免疫抑制功能的影响。方法采用酚水法提取Pg ATCC 33277株脂多糖（lipopolysaccharide,LPS）。免疫磁珠法分离BALB／c小鼠脾脏CD4^＋CD25^＋Tregs并进行体外培养,同时给予不同剂量（0～500ng／ml）Pg—LPS干预,培养48h后收集细胞及上清液。Real-TimePCR法测定培养细胞Foxp3mRNA的表达,ELISA法分别测定细胞上清液中IL-10、TGF-β水平;采用体外淋巴细胞混合培养法对Pg-LPS干预后的CD4^＋CD25^＋Tregs进行功能抑制试验。结果Pg-LPS干预不影响CD4^＋CD25^＋Tregs分泌IL-10和TGF-β,但是能够显著上调CD4^＋CD25^＋TregsFoxp3mRNA的表达,增强其免疫抑制作用;当Ps—LPS浓度低于300ng／m1时,CD4^＋CD25^＋TregsFoxp3mRNA表达以及免疫抑制作用的增强与Ps—LPS浓度之间呈剂量-效应关系。结论Pg-LPS能够增强CD4^＋CD25^＋Tregs的免疫抑制作用,这种免疫抑制增强效应可能与CD4^＋CD25^＋Tregs Foxp3基因表达的上调有关,并且不具有抑制性细胞因子依赖性。     

嗜血细胞综合征患儿外周血CD_4~+CD_(25)~+调节性T细胞变化及临床意义

目的观察嗜血细胞综合征(hemophagocytic syndrome,HPS)患儿外周血中调节性T细胞(RegulatoryTcells,Treg细胞)的变化,探讨其在HPS发病中的作用及临床意义。方法应用流式细胞仪检测17例初诊HPS患者(初诊组)、11例经诱导治疗后临床缓解者(缓解组)及20例健康人群(对照组)外周血中CD4+CD25+调节性T细胞。结果与对照组相比较,HPS患者初诊组及缓解组外周血CD4+CD25+调节性T细胞均升高(P0.05)。与初诊组相比较,缓解组CD4+CD25+Treg细胞降低(P0.05),但仍高于正常对照组(P0.05)。结论CD4+CD25+Treg细胞增多可能是HPS患者免疫功能受抑的重要原因之一,其变化对于HPS的预后判断有一定的意义。     

CD4^＋CD25^＋调节性T细胞在CD46途径下诱导IL-10生成的研究

目的：炎症抑制因子IL—10在过敏及自身免疫性疾病的发生过程中有着重要意义,补体调节蛋白CD46作为一种新的T细胞活化辅助因子可以诱导CD4^＋T细胞生成IL-10。另外有研究表明,CD4^＋CD25^＋调节性T细胞（CD^4＋CD25^＋Tregs）作为一种重要的免疫抑制细胞可以通过促进周围细胞分泌IL-10,使其抑制作用得到放大。本研究探讨在CD46辅助刺激途径下,CD4^＋CD25^＋Tregs诱导周围CD4^＋CD25^＋T细胞产生IL-10的能力。方法：分离纯化CD4^＋CD25^＋Tregs和CD4^＋CD25^＋T细胞,采用CD3／CD46或CD3／CD28刺激,分别进行单独培养或按1：10的比例共培养,同时以CD4^＋T细胞组作为比较。用氚标记胸腺嘧啶核苷（3H-TdR）掺入法测定细胞增殖速率,ELISA方法测定各培养组上清IL10的水平。结果：在CD46或CD28刺激下,CD4^＋CD25^＋Tregs／CIM＋CD25^＋T细胞共培养组、CD4^＋T细胞组的几-10水平均显著高于CD4^＋CD25^＋T细胞单独培养组。在CD46刺激下,CD4^＋CD25^＋T细胞组、CD4^＋CD25^＋Tregs／CD4^＋CD25^＋T细胞共培养组、CD4^＋T细胞组IL-10的水平均较CD28刺激下明显增高,各组细胞的增殖能力均较CD28刺激下显著降低。结论：在cD46或CD28刺激下,CD4^＋CD25^＋Tregs均能够诱导CD4^＋CD25^＋T细胞分泌IL-10,CD46作为一种新的T细胞共刺激分子,与传统的CD28分子相比,能够刺激IL-10分泌增加。本文阐述了CD46途径下CD4^＋CD25^＋Tregs诱生IL-10的功能,进一步研究CD46途径下各类免疫细胞的活化反应,对于明确此途径下免疫细胞的功能改变与某些疾病发病机制的关系具有重要意义。     

影响CD4+CD25+T细胞分化发育的细胞分子机制

免疫耐受的精髓即机体对外界病原体抗原产生免疫应答的同时对自身抗原不应答.近两年对CD4 CD25 调节性T细胞(CD4 CD25 regulatory T cell, Treg)所发挥的免疫耐受功能的研究取得了令人瞩目的长足进展,对此群细胞所具有的维持外周免疫耐受的独特地位已无可争议.但调节性T细胞的多种生物学特征特别是Treg细胞分化发育的分子机制与信号需求并不清楚,因此探索有关Treg的发生发育及其影响机制已成为近两年研究Treg细胞的热点.综述最近的相关研究数据,了解胸腺以及外周影响Treg细胞分化发育和功能产生的多种细胞分子机制,有助于进一步研究此群细胞的功能及其在抑制自身免疫性疾病、诱导移植耐受等方面的应用.     

CD4+CD25+调节性T细胞作用机制的双模式

CD4 CD25 调节性T细胞是具有免疫抑制功能的细胞群,在多种生理病理过程中发挥了重要作用。它们的作用机制主要包括细胞-细胞接触依赖和可溶性细胞因子介导两种抑制模式。由于CD4 CD25 调节性T细胞的抑制机制复杂,争议较大,进一步阐明它们的作用机制将有利于多种免疫相关疾病的防治。     

CD4+CD25+调节性T细胞的外周维持

CD4 CD25 调节性T细胞作为一种抑制性T细胞功能亚群,在维持机体的免疫自稳和免疫耐受方面发挥了关键作用。该作用的发挥与其外周细胞库的维持密切相关。新近的研究显示CD4 CD25 调节性T细胞主要通过两种机制来维持其外周细胞库,一些功能分子参与其中。     

CD18 is required for optimal development and function of CD4+CD25+ T regulatory cells

CD4+CD25+ T regulatory (Treg) cells inhibit immunopathology and autoimmune disease in vivo. CD4+CD25+ Treg cells' capacity to inhibit conventional T cells in vitro is dependent upon cell-cell contact; however, the cell surface molecules mediating this cell:cell contact have not yet been identified. LFA-1 (CD11a/CD18) is an adhesion molecule that plays an established role in T cell-mediated cell contact and in T cell activation. Although expressed at high levels on murine CD4+CD25+ Treg cells, the role of LFA-1 in these cells has not been defined previously. We hypothesized that LFA-1 may play a role in murine CD4+CD25+ Treg function. To evaluate this, we analyzed LFA-1-deficient (CD18-/-) CD4+CD25+ T cells. We show that CD18-/- mice demonstrate a propensity to autoimmunity. Absence of CD18 led to diminished CD4+CD25+ T cell numbers and affected both thymic and peripheral development of these cells. LFA-1-deficient CD4+CD25+ T cells were deficient in mediating suppression in vitro and in mediating protection from colitis induced by the transfer of CD4+CD25- T cells into lymphopenic hosts. Therefore, we define a crucial role for CD18 in optimal CD4+CD25+ Treg development and function.     

Expression of ICOS on human melanoma-infiltrating CD4+CD25highFoxp3+ T regulatory cells: implications and impact on tumor-mediated immune suppression

OBJECTIVE: Interaction of ICOS with its ligand (ICOSL, B7-H2) promotes T cell responses. As CD4+CD25highFoxp3+ naturally occurring T regulatory cells in melanoma patients express ICOS, we investigated the impact of ICOS on naturally occurring T regulatory cell function. METHODS: Expression of ICOS and T regulatory (Treg) cell markers was determined on CD4+CD25high T cells in PBMC and tumor-infiltrating lymphocytes from melanoma patients (n=10) and PBMC of normal controls (n=10) by multicolor flow cytometry. Suppression mediated by sorted ICOShigh and ICOSlow Treg was assessed in CFSE-based suppression assays with autologous CD4+CD25- responder cells (RC). Transwell inserts separating Treg from RC were used to evaluate suppression mechanisms used by Treg. ICOShigh or ICOSlow Treg were coincubated with RC+/-TCR and IL-2 stimulation. ICOShigh and ICOS- Treg were also expanded under conditions previously shown to induce Tr1 from RC. RESULTS: Treg in tumor-infiltrating lymphocytes expressed ICOS (mean fluorescence intensity=70+/-10), while Treg in PBMC had low ICOS expression (mean fluorescence intensity=3.5+/-2.5, p相似文献   

Cutting edge: TNFR-shedding by CD4+CD25+ regulatory T cells inhibits the induction of inflammatory mediators

CD4+CD25+ regulatory T (Treg) cells play an essential role in maintaining tolerance to self and nonself. In several models of T cell-mediated (auto) immunity, Treg cells exert protective effects by the inhibition of pathogenic T cell responses. In addition, Treg cells can modulate T cell-independent inflammation. We now show that CD4+CD25+ Treg cells are able to shed large amounts of TNFRII. This is paralleled by their ability to inhibit the action of TNF-alpha both in vitro and in vivo. In vivo, Treg cells suppressed IL-6 production in response to LPS injection in mice. In contrast, Treg cells from TNFRII-deficient mice were unable to do so despite their unhampered capacity to suppress T cell proliferation in a conventional in vitro suppression assay. Thus, shedding of TNFRII represents a novel mechanism by which Treg cells can inhibit the action of TNF, a pivotal cytokine driving inflammation.     

CD4+CD25+ 调节性T 细胞与冠状动脉粥样硬化病变的研究进展

CD4+CD25+调节性T细胞是一个具有独特免疫调节功能的T细胞亚群,人体主要通过CD4+CD25+调节性T细胞以免疫负向调节的方式来抑制自身反应性T细胞的作用,减少免疫性疾病的发生,从而维持机体内环境的稳定,维持免疫耐受。CD4+CD25+Treg已被证实其与肿瘤、感染、自身免疫病、移植免疫等多种疾病的发生、发展及转归均相关。随着社会的进步和人民生活水平的提高冠状动脉粥样硬化性病变作为一种慢性病变,其发病率越来越高,已经成为严重危害人类健康的常见病,近年来越来越多的证据表明炎症及免疫反应机制在冠状动脉粥样硬化性心脏病的发生、发展及预后过程中具有重要的作用。而CD4+CD25+调节性T细胞在冠状动脉粥样硬化性病变中所起的作用也受到越来越多的关注。本文就CD4+CD25+调节性T细胞与冠状动脉粥样硬化病变之间的关联做一综述。     

The majority of human peripheral blood CD4+CD25highFoxp3+ regulatory T cells bear functional skin-homing receptors

CD4+CD25+ T regulatory cells (Treg) are thought to be important in the peripheral tolerance. Recent evidence suggests that human peripheral blood CD4+CD25+ T cells are heterogeneous and contain both CD4+CD25(high) T cells with potent regulatory activity and many more CD4+CD25(low/med) nonregulatory T cells. In this study, we found that virtually all peripheral blood CD4+CD25(high)Foxp3+ Treg expressed high levels of the chemokine receptor CCR4. In addition, 80% of Treg expressed cutaneous lymphocyte Ag (CLA) and 73% expressed CCR6. These molecules were functional, as CLA+ Treg showed CD62E ligand activity and demonstrable chemotactic responses to the CCR4 ligands CCL22 and CCL17 and to the CCR6 ligand CCL20. The phenotype and chemotactic response of these Treg were significantly different from those of CD4+CD25(med) nonregulatory T cells. We further demonstrated that blood CLA+ Treg inhibited CD4+CD25- T cell proliferation induced by anti-CD3. Based on homing receptor profile, CLA+ Treg should enter normal skin. We next isolated CD4+CD25(high) T cells directly from normal human skin; these cells suppressed proliferation of skin CD4+CD25- T cells. Therefore, the majority of true circulating Treg express functional skin-homing receptors, and human Treg may regulate local immune responses in normal human skin.     

Human CD4+ T cells express TLR5 and its ligand flagellin enhances the suppressive capacity and expression of FOXP3 in CD4+CD25+ T regulatory cells

Germline encoded pattern recognition receptors, such as TLRs, provide a critical link between the innate and adaptive immune systems. There is also evidence to suggest that pathogen-associated molecular patterns may have the capacity to modulate immune responses via direct effects on CD4+ T cells. Given the key role of both CD4+CD25+ T regulatory (Treg) cells and the TLR5 ligand flagellin in regulating mucosal immune responses, we investigated whether TLR5 may directly influence T cell function. We found that both human CD4+CD25+ Treg and CD4+CD25- T cells express TLR5 at levels comparable to those on monocytes and dendritic cells. Costimulation of effector T cells with anti-CD3 and flagellin resulted in enhanced proliferation and production of IL-2, at levels equivalent to those achieved by costimulation with CD28. In contrast, costimulation with flagellin did not break the hyporesponsiveness of CD4+CD25+ Treg cells, but rather, potently increased their suppressive capacity and enhanced expression of FOXP3. These observations suggest that, in addition to their APC-mediated indirect effects, TLR ligands have the capacity to directly regulate T cell responses and modulate the suppressive activity of Treg cells.     

Interleukin-7 influences FOXP3+CD4+ regulatory T cells peripheral homeostasis

Mechanisms governing peripheral CD4+ FOXP3+ regulatory T cells (Treg) survival and homeostasis are multiple suggesting tight and complex regulation of regulatory T cells homeostasis. Some specific factors, such as TGF-β, interleukin-2 (IL-2) and B7 costimulatory molecules have been identified as essentials for maintenance of the peripheral Treg compartment. Conversely, Treg dependency upon classical T cell homeostatic factors such as IL-7 is still unclear. In this work, we formally investigated the role of IL-7 in Treg homeostasis in vivo in murine models. We demonstrated that IL-7 availability regulated the size of peripheral Treg cell pool and thus paralleled the impact of IL-7 on conventional T cell pool. Moreover, we showed that IL-7 administration increased Treg cell numbers by inducing thymic-independent Treg peripheral expansion. Importantly the impact of IL-7 on Treg expansion was detected whether conventional T cells were present or absent as IL-7 directly participates to the peripheral expansion of Treg after adoptive transfer into lymphopenic hosts. Our results definitively identify IL-7 as a central factor contributing to Treg peripheral homeostasis, thus reassembling Treg to other T cell subsets in respect of their need for IL-7 for their peripheral maintenance.     

Cooperation of invariant NKT cells and CD4+CD25+ T regulatory cells in the prevention of autoimmune myasthenia

CD1d-restricted NKT cells and CD4+CD25+ regulatory T (Treg) cells are thymus-derived subsets of regulatory T cells that have an important role in the maintenance of self-tolerance. Whether NKT cells and Treg cells cooperate functionally in the regulation of autoimmunity is not known. We have explored this possibility in experimental autoimmune myasthenia gravis (EAMG), an animal model of human myasthenia gravis, induced by immunization of C57BL/6 mice with the autoantigen acetylcholine receptor. We have demonstrated that activation of NKT cells by a synthetic glycolipid agonist of NKT cells, alpha-galactosylceramide (alpha-GalCer), inhibits the development of EAMG. alpha-GalCer administration in EAMG mice increased the size of the Treg cell compartment, and augmented the expression of foxp3 and the potency of CD4+CD25+ cells to inhibit proliferation of autoreactive T cells. Furthermore, alpha-GalCer promoted NKT cells to transcribe the IL-2 gene and produce IL-2 protein. Depletion of CD25+ cells or neutralization of IL-2 reduced the therapeutic effect of alpha-GalCer in this model. Thus, alpha-GalCer-activated NKT cells can induce expansion of CD4+CD25+ Treg cells, which in turn mediate the therapeutic effects of alpha-GalCer in EAMG. Induced cooperation of NKT cells and Treg cells may serve as a superior strategy to treat autoimmune disease.     

Agonist-driven development of CD4+CD25+Foxp3+ regulatory T cells requires a second signal mediated by Stat6

The factors that induce Foxp3 expression and regulatory T (Treg) cell development remain unknown. In this study, we investigated the role of STAT4 and STAT6 in agonist-driven generation of Ag-specific Foxp3-expressing Treg cells. Our findings indicate that fully efficient induction of Foxp3 expression and development of Ag-specific Treg cells requires the synergistic action of two signals: a TCR-mediated signal and a second signal mediated by STAT6. Indeed, by comparing the development of wild-type and STAT4- and STAT6-deficient hemagglutinin-specific T cells in the presence of hemagglutinin Ag, we found that the absence of STAT6 impaired the generation of Ag-specific CD4+CD25+Foxp3+ cells. Moreover, in transgenic mice expressing a constitutively active form of STAT6, we found that the fraction of CD4+Foxp3+ cells exceeds that of control wild-type littermates. Overall these findings support a role for the STAT6 pathway in Treg cell development and maintenance.     

Cutting edge: size and diversity of CD4+CD25high Foxp3+ regulatory T cell repertoire in humans: evidence for similarities and partial overlapping with CD4+CD25- T cells

Both differentiation and function of CD4+CD25(high) naturally arising regulatory T cells (Treg), which play a key role in the control of autoimmunity, are thought to depend on TCR specificity. In the present study, we comparatively measured the alphabetaTCR repertoire sizes of human peripheral blood Treg and CD4+CD25- T cells by using a methodology based on PCR amplification and sequencing analysis. We show that Treg use a large unrestricted alphabeta TCR repertoire, the size and diversity of which are closely similar to those of CD4+CD25- T cells, with a mean estimated size of 3.5 x 10(6) distinct alphabeta TCR vs 4.7 x 10(6) distinct alphabetaTCR for CD4+CD25- T cells. In addition, a 24% overlap between the repertoires of these two CD4+ subsets in the periphery is found. These data emphasize the intersection between naturally occurring Treg and effector T cell peripheral repertoires and provide new insights into the ontogeny of Treg in humans.