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.     

Decreasing the threshold for thymocyte activation biases CD4+ T cells toward a regulatory (CD4+CD25+) lineage

Thymus-derived CD4(+)CD25(+) regulatory T (T(r)) cells play a critical role in suppressing aberrant responses to self in vivo. The factors that influence a CD4(+) T cell's decision to commit to an immunoregulatory T(r) cell lineage are currently unknown. In the present study, we found that in mice, abundantly expressing a few or one peptide(s) bound to MHC class II molecules, a large portion of conventional CD4(+) T cells could be biased towards the commitment to a T(r) lineage by reducing the threshold required for thymocyte activation. This occurred in the presence of either an antisense glucocorticoid receptor transgene or a pharmacological inhibitor of glucocorticoid synthesis. These results demonstrate a novel in vivo pathway for the generation of T(r) cells, and raise the possibility that therapeutic enhancement of the T(r) cell repertoire through pharmacological manipulation of TCR signaling thresholds may provide a feasible means of ameliorating autoimmunity.     

CD4+CD25+调节性T细胞在川崎病免疫发病机制中的作用

目的探讨CD4 CD25 调节性T细胞在川崎病(KD)免疫发病机制中的作用。方法急性期KD患儿25例,正常同年龄对照组25例,KD患儿分别于静脉丙种球蛋白(IVIG)治疗前后直接取血备检,未加任何体外丝裂原刺激培养。采用流式细胞术分别检测外周血CD4 CD25 调节性T细胞比例及CD14 细胞表面共刺激分子的表达;逆转录-聚合酶链反应(RT-PCR)及荧光定量PCR检测外周血CD4 T细胞中Foxp3、CTLA-4和GITR基因mRNA的表达。结果急性期KD患儿外周血CD4 CD25 调节性T细胞比例明显低于同年龄对照组(P<0.01),IVIG治疗后显著上升(P<0.01);急性期KD患儿外周血CD4 T细胞中Foxp3、CTLA-4和GITR基因mRNA表达水平均明显低于正常对照组(P<0.01),IVIG治疗后均有不同程度的恢复(P<0.01);急性期KD患儿CD14 细胞明显过度表达CD80及CD86等共刺激分子(P<0.01),IVIG治疗后CD80及CD86表达均显著下降。结论急性期KD患儿CD4 CD25 调节性T细胞数量减少可能与KD免疫调节功能紊乱有关。     

CD8+ suppressor-mediated regulation of human CD4+ T cell responses to glutamic acid decarboxylase 65

Although potentially autoreactive T cells are present even in healthy subjects, most individuals do not develop autoimmune disease. It has been well demonstrated that CD4+ CD25+ regulatory T cells play a significant role in controlling the expansion of autoreactive T cells in the periphery. However, some healthy individuals exhibit measurable responses to self peptide even in the presence of CD4+ CD25+ regulatory cells. This article describes the regulation of human CD4+ T cell responses to glutamic acid decarboxylase 65 (GAD65), an autoantigen implicated in type-1 diabetes, by autologous CD8+ suppressor T cells. In cells cultured from healthy individuals, the inclusion of autologous CD8+ T cells at physiological levels resulted in a dramatic decrease in the magnitude of in vitro CD4+ T cell responses to GAD65 peptide. Based on transwell experiments, the observed suppression was cell contact-dependent. However, antibody blocking studies indicated that suppression was mediated by IL-10. Cell fractionation studies suggested that CD8+ suppressor T cells originate from the CD45RA+ CD27- population. The suppression of CD4+ T cell responses to GAD65 in healthy individuals raises the possibility that CD8+ suppressor T cells play an important role in controlling potentially autoreactive T cells in the general population.     

Early regulation of CD8 T cell alloreactivity by CD4+CD25- T cells in recipients of anti-CD154 antibody and allogeneic BMT is followed by rapid peripheral deletion of donor-reactive CD8+ T cells, precluding a role for sustained regulation

While acquisition of regulatory function by CD4+CD25- T cells has been reported following antigenic stimulation, "naturally occurring" regulatory CD4+ T cells (Treg) are believed to express CD25. We examined the mechanisms involved in peripheral CD8 T cell tolerance by induction of mixed chimerism using non-myeloablative conditioning with low-dose (3 Gy) total body irradiation and anti-CD154 antibody. Recipient CD4+ T cells were initially required for the induction of CD8 cell tolerance, but were not needed beyond 2 weeks. Depletion of CD25+ Treg prior to bone marrow transplantation and blockade of IL-2 with neutralizing antibody did not impede tolerance induction. Tolerance was dependent on CTLA4, but not on IFN-gamma. In C57BL/6 mice containing a fraction of 2C TCR transgenic CD8+ T cells, which recognize the MHC class I alloantigen Ld, induction of chimerism with L(d+), but not Ld-, bone marrow cells led to deletion of peripheral 2C+ CD8+ cells within 1 week in peripheral blood and spleen. Complete deletion required the presence of recipient CD4+ T cells. Thus, a novel, rapid form of regulation by CD4+CD25- T cells permits initial CD8 T cell tolerance in this model. Rapid peripheral deletion of donor-specific CD8 T cells precludes an ongoing requirement for CD4 T cell-mediated regulation.     

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.     

MHC class II-independent CD25+ CD4+ CD8alpha beta+ alpha beta T cells attenuate CD4+ T cell-induced transfer colitis

CD4+ alpha beta T cell populations that develop in mice deficient in MHC class II (through 'knockout' of either the Aalpha, or the Abeta chain of the I-A(b) molecule) comprise a major 'single-positive' (SP) CD4+ CD8- subset (60-90%) and a minor 'double-positive' (DP) CD4+ CD8alpha beta+ subset (10-40%). Many DP T cells found in spleen, mesenteric lymph nodes (MLN) and colonic lamina propria (cLP) express CD25, CD103 and Foxp3. Adoptive transfer of SP but not DP T cells from Aalpha(-/-) or Abeta(-/-) B6 mice into congenic RAG(-/-) hosts induces colitis. Transfer of SP T cells repopulates the host with only SP T cells; transfer of DP T cells repopulates the host with DP and SP T cells. Anti-CD25 antibody treatment of mice transplanted with DP T cells induces severe, lethal colitis; anti-CD25 antibody treatment of mice transplanted with SP T cells further aggravates the course of severe colitis. Hence, regulatory CD25+ T cells within (or developing from) the DP T cell population of MHC class II-deficient mice control the colitogenic potential of CD25- CD4+ T cells.     

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。     

免疫磁珠负性分离纯化小鼠脾脏CD8+ T细胞

目的 探讨小鼠脾脏CD8 T细胞的免疫磁珠负性分选方法,并对分选后所得细胞进行纯度、活力及功能检测.方法 以免疫磁珠负性分选法从小鼠脾脏细胞中分离CD8 T细胞,流式细胞术检测所得细胞的纯度,台盼蓝检测细胞活力并用ConA刺激检测增殖能力. 结果 经过流式细胞仪测定免疫磁珠负性分选后的小鼠脾脏CD8 T细胞纯度达到(91.6±3.6)%,台盼兰染色细胞活力为(94.9±3.2)%,ConA刺激72 h后有(56.3±1.7)%的细胞增殖.结论 免疫磁珠负性分选法能够分选出高纯度的CD8 T细胞,并且不影响分选靶细胞的细胞活力和功能.     

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。     

替比夫定对慢性乙型肝炎患者外周血CD4+CD25+CD127lowT和CD8+CD25+T细胞频率的影响及临床意义

目的探讨核苷类药物替比夫定对慢性乙肝患者(CHB)外周血中CD4+CD25+CD127lowT细胞和CD8+CD25+T细胞比例的影响,并结合临床指标分析其临床意义。方法替比夫定抗病毒治疗22例CHB患者,在治疗前及治疗后3,6个月时,分别以流式细胞仪检测外周血中CD4+CD25+CD127lowT细胞和CD8+CD25+T细胞比例,实时荧光定量RT-PCR检测Foxp3 mRNA的表达水平,荧光定量PCR检测血清HBV DNA水平,酶联免疫吸附法检测HBV标志物,全自动生化分析仪检测ALT水平。结果 CHB患者外周血中CD4+CD25+CD127lowT细胞和CD8+CD25+T细胞比例显著高于对照组。替比夫定治疗3个月时,这两群细胞比例显著下降,Foxp3 mRNA的表达也显著下降;HBV DNA水平降至检测水平以下的CHB患者,其CD4+CD25+CD127lowT细胞也降至正常水平。治疗3、6个月时,HBeAg阴转率分别为9.1%和18.2%,发生HBeAg血清学转换者的CD4+CD25+CD127lowT细胞和CD8+CD25+T细胞比例均降至正常水平。结论替比夫定能快速有效抑制CHB患者的病毒复制...     

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。     

CD4+CD25+调节性T细胞在约氏疟原虫感染早期作用机制的实验研究

目的探讨CD4^＋CD25^＋调节性T细胞在约氏疟原虫感染早期的免疫调节机制。方法用抗CTLA-4 mAb和抗CD25 mAb分别与约氏疟原虫感染早期的小鼠脾细胞共同培养后,以ELISA法检测其培养上清的IL-10、TGF-β1及IFN-γ的含量。结果与抗CTLA-4 mAb共同培养后,脾细胞上清中IL-10的水平明显降低,但TGF-β1和IFN-γ水平未出现有意义的变化;与抗-CD25 mAb共同培养后,IL-10、TGF-β1和IFN-γ水平均未出现有意义的变化,但IL-10水平有一定的降低趋势。结论约氏疟原虫感染早期,IL-10可能是介导CD4^＋CD25^＋调节性T细胞参与免疫调节的关键性细胞因子,CD4^＋CD25^＋调节性T细胞可能通过CTLA-4发挥免疫抑制作用。     

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.     

CD38+ CD45RBlow CD4+ T cells: a population of T cells with immune regulatory activities in vitro

An antibody reactive with CD38 revealed both phenotypic and functional heterogeneity amongst CD45RB^low cells. Functional analysis of the CD38⁺ and CD38⁻ fractions showed that the latter contained T cells which responded to recall antigens and produced high levels of cytokine in response to polyclonal stimulation. In contrast, the CD38⁺ population failed to proliferate or to produce detectable levels of cytokines. Despite appearing unresponsive, the CD38⁺ population significantly inhibited anti-CD3-induced proliferation and cytokine secretion by the reciprocal CD38⁻ population. Immune suppression required stimulation through the TCR and was dependent on a physical interaction between regulatory and responding CD4⁺ populations. It did not involve killing of the responding T cells or secretion of IL-10 or TGF-β. Despite some similarities there is no direct correlation between the in vitro suppression characteristic of the CD38⁺ CD45RB^low subset and in vivo suppression which has been shown to be mediated by unseparated CD45RB^low CD4⁺ T cells. However, these results demonstrate that two functionally distinct subsets of T cells reside within the antigen-exposed or CD45RB^low CD4⁺ T cell population and are thus generated in vivo: (1) conventional memory T cells which proliferate and secrete cytokines in response to activation and (2) a population of regulatory T cells which inhibit T cell activation in vitro. Antibodies reactive with CD38 may provide a useful tool with which to study the role of these T cell subsets in the induction and regulation of the immune response.     

CD4+ T cell-independent maintenance and expansion of memory CD8+ T cells derived from in vitro dendritic cell activation

CD4+ T cells are essential for the maintenance of CD8+ memory T (Tm) cells following acute infection, but the importance of CD4+ T cells for the maintenance and expansion of CD8+ Tm cells to non-infectious antigens remains mostly unknown. Here, we showed that ovalbumin (OVA)-specific CD8+ Tm cell precursors derived from in vitro stimulation of TCR transgenic OT I CD8+ T cells with OVA protein-pulsed bone marrow-derived dendritic cells (DCOVA) can give rise to functional CD8+ Tm cells after adoptively transferred into mice. These CD8+ Tm cells can be maintained and remain fully functional in CD4+ T cell-absent environments in vivo. Furthermore, CD4+ T cells are not essential for the expansion of these CD8+ Tm cells. Finally, these in vitro DCOVA-activated CD8+ Tm cells maintained in CD4-deficient mice are also able to confer fully protective immunity against a later challenge of OVA-expressing tumor cells. Collectively, these findings demonstrate that in contrast to acute infections, maintenance and expansion of CD8+ Tm cells after priming with OVA protein-pulsed dendritic cells are independent of CD4+ T cells.     

Expansion of regulatory CD8+ CD25+ T cells after neonatal alloimmunization

Transplantation tolerance induced by neonatal injection of semi-allogeneic spleen cells is associated with a pathological syndrome caused by T helper type 2 (Th2) differentiation of donor-specific CD4(+) T lymphocytes. We have shown previously that this Th2-biased response is inhibited by host CD8(+) T cells. Herein, we demonstrate that upon neonatal immunization with (A/J × BALB/c)F(1) spleen cells, BALB/c mice expand a population of CD8(+) T cells expressing both CD25 and forkhead box P3 (FoxP3) markers. In this setting, CD8(+) CD25(+) T cells predominantly produce interferon (IFN)-γ and interleukin (IL)-10 and are efficient in controlling IL-4, IL-5 and IL-13 production by donor-specific CD4(+) T cells in vitro. CD8(+) FoxP3(-) T cells are single producers of IFN-γ or IL-10, whereas CD8(+) FoxP3(+) T cells are double producers of IFN-γ and IL-10. We further demonstrate that IFN-γ and IL-10 are two major cytokines produced by CD8(+) T cells involved in the in vivo regulation of Th2-type pathology. In this setting, we conclude that neonatal alloimmunization induces the expansion of several regulatory CD8(+) T cells which may control Th2 activities via IFN-γ and IL-10.     

High-frequency activation of single CD4+ and CD8+ T cells to proliferate and secrete cytokines using anti-receptor antibodies and IL-2(1).

A high cloning efficiency single-cell culture system was developed to define the activation requirements of isolated CD4+ and CD8+ T cells to proliferate and secrete cytokines. T cells were triggered using solid-phase anti-CD3 and anti-CD4 or anti-CD8 antibodies plus rIL-2. Activation was measured by microscopic scoring of proliferation and by measurement of cytokine production using the cytokine-responsive cell lines FDC-P1, which responds to GM-CSF, IL-3, IFN-gamma and IL-4, and 32D clone 3 which responds to IL-3 only. Whilst anti-CD3 plus rIL-2 triggered only 4% of peripheral T cells to proliferate, anti-CD3 plus anti-CD8 mAb triggered about 40% of CD8+ T cells; 80% of the resultant clones secreted cytokine and 90% of these were IL-3+. Anti-CD3 plus anti-CD4 mAb triggered proliferation in about 20% of CD4+ T cells, of which 34% formed cytokine-producing clones with 47% of these secreting IL-3. In addition to responding at higher frequency, CD8+ T cells formed larger clones which produced higher levels of cytokines than CD4+ cells. Cell separation on the basis of Pgp-1 expression suggested that this culture system did not select for previously activated cells. Whereas Pgp-1+ T cells from keyhole limpet haemocyanin (KLH)-primed mice were enriched in KLH-specific cells, no significant differences were observed in the clonogenicity or cytokine-secreting capacity of Pgp-1+ and Pgp-1- T cells from normal mice.