CTLA-4 x Ig converts naive CD4+CD25- T cells into CD4+CD25+ regulatory T cells

CTLA-4 x Ig was originally designed as an immunosuppressive agent capable of interfering with the co-stimulation of T cells. In the present study, we demonstrate that CTLA-4 x Ig, in combination with TCR ligation, has the additional capacity to convert naive CD4+CD25- T cells into Foxp3+ regulatory T (T(reg)) cells, as well as to expand their numbers. The CD4+CD25+Foxp3+ T(reg) generated by CTLA-4 x Ig treatment in vitro potently suppress effector T cells. Extending this in vivo, we show that systemic administration of CTLA-4 x Ig increases the percentage of CD4+CD25(hi)Foxp3+ cells within mixed lymphocyte reaction-induced murine lymph nodes. Significantly, the in vitro conversion of naive CD4+CD25- T cells into T(reg) cells is antigen-presenting cell (APC) dependent. This finding, together with the further observation that this conversion can also be driven in vitro by an antibody that engages B7-2 ligand, suggests that CTLA-4 x Ig-driven T(reg) induction may be predicated upon active CTLA-4 x Ig to B7-2 signaling within APC, which elicits from them T(reg)-inducing potential. These findings extend CTLA-4 x Ig's functional repertoire, and at the same time, reinforce the concept that T cell anergy and active suppression are not entirely distinct processes and may be linked by some common molecular triggers.     

天然CD4+CD25+Treg细胞的研究进展

天然CD4+ CD25+ Treg细胞在针对自身抗原和外来抗原的免疫应答中起关键控制作用,其缺乏或功能性的缺陷将导致多重病理性的失调.本文就近年在其产生、作用机制以及与免疫耐受的诱导关系等方面的研究进展进行了综述.     

CD4+CD25+T调节细胞的研究进展

CD4 CD25 TH细胞通过抗原特异性方式或细胞接触的方式抑制自身反应性T细胞的活化,能有效地维持自身免疫耐受,是调节自身反应性T细胞和防止自身免疫病发生的重要调节细胞。     

CD4+ CD25+调节性T细胞对树突状细胞的杀伤作用

目的 探讨CD4^＋CD25^＋调节性T细胞是否对树突状细胞发挥免疫调节作用及其可能的机制。方法 用MACS（magnetic cell sorting）从BALB／c小鼠静息T细胞分离纯化CD4^＋CD25^＋T细胞，体外细胞增殖实验观察其对CD4^＋CD25^＋T细胞的免疫抑制作用；GM-CSF／IL-4培养自体小鼠骨髓来源DC，FACS（fluorescence-activated cell sorting）鉴定其表面分子特性；以CD3／CD28单克隆抗体活化CD4^＋CD25^＋调节性T细胞，FACS体外杀伤实验研究其对自体DC的调节作用，并观察穿孔素抑制剂EGTA对上述作用的影响。结果 用MACS法成功分离出CD4^＋CD25^＋T细胞，纯度可达98％，特异性表达而Faxp3基因，能明显抑制CD4^＋CD25^＋T细胞的体外增殖；骨髓来源的DC表达CDllc、MHCⅡ及少量协同刺激分子CD80、CD86；FACS体外杀伤实验证实以CD3／CD28抗体体外活化的CD4^＋CD25^＋调节性T细胞对自体DC有显著杀伤作用（P〈0．05），穿孔素抑制剂EGTA能部分抑制该杀伤效应（P〈0．05）。结论 CD4^＋CD25^＋调节性T细胞可通过杀伤作用对自体DC发挥免疫调节作用，穿孔素／颗粒酶杀伤途径可能参与其中。     

Neuropilin-1+T细胞与CD4+CD25+调节性T细胞的比较

目的:分析Neuropilin-1 T细胞(Nrp-1 T细胞)与经典CD4 CD25 调节性T细胞(Treg)的关系并比较二者的免疫调节作用。方法:流式细胞术分析BALB/c小鼠脾脏T细胞上Nrp-1与CD4、CD25的表达关系并分选Nrp-1 T细胞及CD4 CD25 Treg,通过B16-F10-luc-G5黑色素肿瘤细胞体外培养实验并利用萤光成像系统,观察比较两种细胞对NK细胞杀伤B16-F10-luc-G5黑色素瘤细胞的影响。结果:CD4 CD25 Treg中表达Nrp-1的比例为(27.28±1.17)%,明显高于CD4 CD25-T细胞的(1.63±0.08)%(P<0.01);在体外实验中,Nrp-1 T细胞与CD4 CD25 Treg均能抑制NK细胞杀伤B16-F10-luc-G5黑色素瘤细胞,Nrp-1 T细胞组的肿瘤细胞数目在6、24、48、72h分别为984±15、1015±14、1261±21、1323±38,高于CD4 CD25 Treg组的931±4、983±8、1201±18、1256±18,两组肿瘤细胞数目在各时间点均有统计学意义(P<0.01)。结论:经典CD4 CD25 Treg中表达Nrp-1的细胞比例较高,Nrp-1 T细胞有负性免疫调节作用,抑制功能比CD4 CD25 Treg更强,可以作为一类新的Treg亚群。     

CD4+CD25+调节性T细胞的发育与胸腺CD4-CD25+细胞关联性的探讨

目的:探讨CD4 CD25 调节性T细胞(CD4 CD25 regulatoryTcells,CD4 CD25 Tr)的发育及其与胸腺CD4-CD25 细胞的关系。方法:以流式细胞术检测小鼠从出生至发育成熟过程中,胸腺、脾脏、淋巴结和外周血中CD4 CD25 Tr比例变化,以及胸腺CD4-CD25 细胞比例变化;通过磁激活细胞分选(MACS)从小鼠淋巴结纯化CD4 CD25 T和CD4 CD25-T细胞,经CFDA-SE标记,以多种刺激形式诱导增殖。结果:小鼠出生1d到10周的发育过程中,胸腺CD4 CD25 Tr比例一直比较恒定,但在脾脏、淋巴结和外周血,随鼠龄增加而不断升高,从1d龄到1周时升高最迅速,其后的升高速度逐渐减慢,10周龄时达平台期。胸腺中CD4-CD25 细胞在出生1d的小鼠比例非常高,1d龄到1周龄期间迅速下降,10周龄时达平台期。ConA不能诱导CD4 CD25 Tr和CD4 CD25-T细胞增殖,但CD4 CD25 Tr出现一过性细胞增大;佛波醇酯加离子霉素能诱导CD4 CD25 Tr和CD4 CD25-T细胞增殖;包被的抗CD3抗体加可溶性抗CD28抗体能刺激CD4 CD25-T细胞增殖,但CD4 CD25 Tr不增殖,加入高浓度IL-2,CD4 CD25-T细胞增殖更强,CD4 CD25 Tr出现增殖。结论:胸腺CD4-CD25 细胞很有可能是CD4 CD25 Tr的前体。     

CD4+ CD25+ [corrected] regulatory T cells render naive CD4+ CD25- T cells anergic and suppressive

CD4(+) CD25(+) Foxp3(+) naturally occurring regulatory T cells (nTreg) are potent inhibitors of almost all immune responses. However, it is unclear how this minor population of cells is capable of exerting its powerful suppressor effects. To determine whether nTreg mediate part of their suppressor function by rendering naive T cells anergic or by converting them to the suppressor phenotype, we cocultured mouse nTreg with naive CD4(+) CD25(-) T cells from T-cell receptor (TCR) transgenic mice on a RAG deficient (RAG(-/-)) background in the presence of anti-CD3 and interleukin-4 (IL-4) to promote cell viability. Two distinct responder cell populations could be recovered from the cocultures. One population remained undivided in the coculture and was non-responsive to restimulation with anti-CD3 or exogenous IL-2, and could not up-regulate IL-2 mRNA or CD25 expression upon TCR restimulation. Those responder cells that had divided in the coculture were anergic to restimulation with anti-CD3 but responded to restimulation with IL-2. The undivided population was capable of suppressing the response of fresh CD4(+) CD25(-) T cells and CD8(+) T cells, while the divided population was only marginally suppressive. Although cell contact between the induced regulatory T cell (iTreg) and the responders was required for suppression to be observed, anti-transforming growth factor-beta partially abrogated their suppressive function. The iTreg did not express Foxp3. Therefore nTreg are not only able to suppress immune responses by inhibiting cytokine production by CD4(+) CD25(-) responder cells, but also appear to modulate the responder cells to render them both anergic and suppressive.     

Development and function of CD25+CD4+ regulatory T cells

The essential role played by CD25(+)CD4(+) regulatory T cells (T(R) cells) in the control of physiological as well as pathological immunity is now well established, but many aspects of their biology still remain unclear. One of the unresolved issues regards their development: where does this occur, what signals are required, and how do T(R) cells fit into the larger taxonomy of the T-cell family? Recent data has begun to shed light on the development and function of these important cells.     

Antigen-specific T cell suppression by human CD4+CD25+ regulatory T cells

Anergic/suppressive CD4+CD25+ T cells have been proposed to play an important role in the maintenance of peripheral tolerance. Here we demonstrate that in humans these cells suppress proliferation to self antigens, but also to dietary and foreign antigens. The suppressive CD4+CD25+ T cells display a broad usage of the T cell receptor Vbeta repertoire,suggesting that they recognize a wide variety of antigens. They reside in the primed/memory CD4+CD45RO+CD45RB(low) subset and have short telomeres, indicating that these cells have the phenotype of highly differentiated CD4+ T cells that have experienced repeated episodes of antigen-specific stimulation in vivo. This suggests that anergic/suppressive CD4+CD25+ T cells may be generated in the periphery as a consequence of repeated antigenic encounter. This is supported by the observation that highly differentiated CD4+T cells can be induced to become anergic/suppressive when stimulated by antigen presented by non-professional antigen-presenting cells. We suggest that besides being generated in the thymus, CD4+CD25+ regulatory T cells may also be generated in the periphery. This would provide a mechanism for the generation of regulatory cells that induce tolerance to a wide array of antigens that may not be encountered in the thymus.     

CD4-mediated functional activation of human CD4+CD25+ regulatory T cells

Naturally occurring CD4(+)CD25(+)FoxP3(+) regulatory T cells (CD25(+) Tregs) constitute a specialized population of T cells that is essential for the maintenance of peripheral self-tolerance. The immune regulatory function of CD25(+) Tregs depends upon their activation. We found that anti-CD4 antibodies activate the suppressive function of human CD25(+) Tregs in a dose-dependent manner. We demonstrate that CD4-activated CD25(+) Tregs suppress the proliferation of CD4(+) and CD8(+) T cells, their IL-2 and IFN-gamma production as well as the capacity of CD8(+) T cells to re-express CD25. By contrast, anti-CD4 stimulation did not induce suppressive activity in conventional CD4(+) T cells. These results identify CD4 as a trigger for the suppressive function of CD25(+) Tregs and suggest a possible CD4-mediated exploitation of these cells.     

CD4+CD25+免疫调节性T细胞对CD4+T细胞介导的移植物抗宿主病预防作用的研究

目的研究CD4+CD25+免疫调节性T(Treg)细胞在小鼠骨髓移植后,对移植物抗宿主病的预防作用及其作用机制.方法用C3H(H-2k)小鼠骨髓作为供体,提取C3H(H-2k)小鼠CD4+T及CD4+CD25+T细胞,C3H×B6(H-2k/b)F1小鼠为骨髓移植的受者.在受者接受致死量全身放射后,输注供者去除T细胞的骨髓(ATBM),使其造血功能重建(ATBM组).于不同的实验组给予CD4+(CD4组)T细胞,CD4+CD25+T(CD25组)或二者同时输注(CD4/CD25组).观察各组小鼠移植物抗宿主病(GVHD)的发生率.结果所有10只ATBM组小鼠至骨髓移植后60天仍全部存活,无GVHD发生;所有10只CD4组小鼠在骨髓移植10天内全部死于GVHD(P＜0.01);所有5只CD25组小鼠于骨髓移植后60天仍全部存活,无明显GVHD发生(P＞0.05);同样,所有6只CD4/CD25组小鼠至骨髓移植后仍全部存活,无明显GVHD发生(P＞0.05).结论在同种异基因小鼠的骨髓移植模型中,CD4+CD25+T不诱导GVHD的发生,并有预防CD4+T细胞介导的GVHD发生的作用.     

CD4+CD25+ regulatory T cells down-regulate co-stimulatory molecules on antigen-presenting cells

CD4+CD25+ T cells have been shown to inhibit experimentally induced organ-specific autoimmune disease and depletion of these regulatory T cells from normal mice results in development of such conditions. Furthermore, CD4+CD25+ T cells suppress the IL-2 production and thereby the proliferation of polyclonally activated CD4+CD25- T cells in vitro. The suppression in vitro is independent of secreted factors but requires interactions between CD4+CD25- and CD4+CD25+ T cells and antigen-presenting cells (APC). We have now further investigated the function of CD4+CD25+ T cells in vitro and have focused on their interactions with APC. We found that CD4+CD25+ T cells down-regulated the expression of the co-stimulatory molecules CD80 and CD86 on dendritic cells. The steady-state level of CD80 mRNA was also decreased, while the steady-state level of CD86 mRNA was not, suggesting that distinct mechanisms regulate the expression of these molecules. The down-regulation occurred even in the presence of stimuli that would normally increase the expression of CD80 and CD86 molecules. Thus, down-regulation of co-stimulatory molecules may be an additional effector function of these regulatory T cells.     

CD4+CD25+Foxp3+ regulatory T cells induce cytokine deprivation-mediated apoptosis of effector CD4+ T cells

A key issue in mammalian immunology is how CD4+CD25+Foxp3+ regulatory T cells (T(reg) cells) suppress immune responses. Here we show that T(reg) cells induced apoptosis of effector CD4+ T cells in vitro and in vivo in a mouse model of inflammatory bowel disease. T(reg) cells did not affect the early activation or proliferation of effector CD4+ T cells. Cytokines that signal through the common gamma-chain suppressed T(reg) cell-induced apoptosis. T(reg) cell-induced effector CD4+ T cell death required the proapoptotic protein Bim, and effector CD4+ T cells incubated with T(reg) cells showed less activation of the prosurvival kinase Akt and less phosphorylation of the proapoptotic protein Bad. Thus, cytokine deprivation-induced apoptosis is a prominent mechanism by which T(reg) cells inhibit effector T cell responses.     

Phenotypic characterization of regulatory CD4+CD25+ T cells in rats

CD25 has become widely used as a marker for a subset of regulatory CD4(+) T cells present in the thymus and periphery of mice, rats and humans. However, CD25 is also expressed on conventionally activated T cells that are not regulatory and not all peripheral regulatory T cells express CD25. The identification of a stable and unique marker for regulatory T cells would therefore be valuable. This study provides a detailed account of the phenotype of CD4(+)CD25(+) regulatory T cells in rats. In the thymus, CD4(+)CD8(-)CD25(+) cells were found to have a more mature phenotype than the corresponding CD4(+)CD8(-)CD25(-) cells with respect to expression of Thy1 (CD90), CD53 and CD44, suggesting that CD25 expression, and perhaps commitment to regulatory function, might be a late event in thymocyte development. CD4(+)CD25(+) cells in both the thymus and periphery were found to have enriched and heterogeneous expression of activation markers such as OX40 (CD134) and OX48 (an antibody determined in this study to be specific for CD86). CD4(+)CD25(+) T cells were also found to have enriched expression of CD80, at both the mRNA and protein level. However, functional studies in vitro and in vivo showed that neither OX40 or CD86 were useful markers for the further subdivision of regulatory T cells. Our studies indicate that, at present, CD25 remains the most useful marker to enrich for regulatory CD4(+) T cells in rats and no further subdivision of the regulatory component of CD4(+)CD25(-)CD45RC(low) T cells has yet been achieved.     

γ型干扰素、CD4+CD25+调节性T细胞与自身免疫病

γ型干扰素在适应性免疫应答中起重要作用.在MHC-Ⅱ类分子限制性自身免疫病中,T细胞反应主要以1型辅助性T细胞(Th1)为主,并伴有IFN-γ水平增高,而剔除小鼠胸腺来源的CD4 CD25 调节性T细胞则导致自身免疫病的发生,有研究认为调节性T细胞在诱导免疫耐受产生的过程中起关键性作用.IFN-γ及其受体缺陷小鼠的CD4 CD25 调节性T细胞的免疫抑制能力明显受损,这表明IFN-γ及其受体在CD4 CD25 调节性T细胞免疫调节作用中以及在自身免疫病发生中可能发挥重要而复杂的免疫调节作用.本文仅就IFN-γ与调节性T细胞及自身免疫病发病三者之间关系的研究进展进行简要综述.     

Chemokines,chemokine receptors and CD4+CD25+ regulatory T cells

The fields of regulatory T (Treg) cells and chemokines/chemokine receptors have progressed rapidly in the last few years. Treg cells, especially CD4⁺CD25⁺ Treg cells, play a critical role in maintaining self-tolerance and immune homeostasis. Chemokines and chemokine receptors are crucial for lymphoid development, homing and immunological regulation. This review will discuss the biological effects of chemokines and chemokine receptors on regulating the migration and development of CD4⁺CD25⁺ Treg cells, and the potential clinical implications of these findings when considering chemokine receptors as therapeutic targets.