CD4+ CD25+ regulatory T cells suppress contact hypersensitivity reactions by blocking influx of effector T cells into inflamed tissue

CD4+ CD25+ regulatory T cells (Treg) exert suppressive functions on effector T cells in vitro and in vivo. However, the exact cellular events that mediate this inhibitory action remain largely unclear. To elucidate these events, we used intravital microscopy in a model of contact hypersensitivity (CHS) and visualized the leukocyte-endothelium interaction at the site of antigen challenge in awake C57BL/6 mice. Injection of Treg i.v. into sensitized mice at the time of local hapten challenge significantly inhibited rolling and adhesion of endogenous leukocytes to the endothelium. A similar inhibition of leukocyte recruitment could be recorded after injection of Treg-derived tissue culture supernatant. Thus, these data indicate that soluble factors may account for the suppressive effects. Accordingly we found that IL-10, but not TGF-beta, was produced by Treg upon stimulation and that addition of anti-IL-10 antibodies abrogated the suppressive effects of Treg and tissue culture supernatant in CHS reactions. Moreover, CD4+ CD25+ T cells isolated from IL-10-/- mice were not able to suppress the immune response induced by hapten treatment in C57BL/6 mice. In conclusion, our data suggest that cytokine-dependent rather than cell-cell contact-dependent mechanisms play a pivotal role in the suppression of CHS reactions by Treg in vivo.     

Absence of CD4+CD25+ regulatory T cells is associated with a loss of regulation leading to increased pathology in Helicobacter pylori-infected mice

Helicobacter pylori induces symptomatic chronic gastritis in a subpopulation of infected individuals. The mechanism(s) determining the development and severity of pathology leading to symptoms are not fully understood. In a mouse model of H. pylori infection we analysed the influence of immunoregulatory CD4+CD25+ T cells on H. pylori colonization and gastritis. Athymic C57BL/6 nu/nu mice were reconstituted with (a) lymph node (LN) cells (b) LN cells depleted of CD25+ T cells (CD25(-) LN) or (c) not reconstituted at all. Mice were then infected orally with 3 x 10(8)H. pylori SS1 bacteria. At 2 and 6 weeks after the inoculation there was a significant (P < 0.001) reduction in H. pylori colonization in athymic mice transferred with CD25(-) LN cells compared to mice transferred with LN cells. Colonization was still reduced at 12 weeks after inoculation. Mice transferred with CD25(-) LN cells showed an earlier onset and increased severity of gastritis as compared to mice receiving LN cells. Splenic cells isolated from mice receiving CD25(-) LN cells produced the highest level of IFN-gamma on stimulation with H. pylori antigens in vitro, had a higher H. pylori-specific DTH response and increased infiltration of CD4+ T cells and macrophages in the gastric mucosa. Athymic mice not transferred with T cells had persistent high H. pylori colonization and displayed a normal gastric epithelium without inflammatory cells. In conclusion, CD4+CD25+ cells reduce immunopathology in H. pylori infection, possibly by reducing the activation of IFN-gamma producing CD4+ T cells, even at the expense of a higher H. pylori load in the gastric mucosa.     

Contribution of CD8+ T cells to innate immunity: IFN-gamma secretion induced by IL-12 and IL-18

The role of CD8+ T cells in adaptive immunity is well documented and involves numerous effector mechanisms including direct cytolysis of targets and secretion of cytokines. The role of CD8+ T cells in innate immunity has not been previously appreciated. Using J774 macrophages infected in vitro with the intracellular bacterium, Listeria monocytogenes (LM), we show that CD8+ T cells isolated from na?ve C57BL/6 (B6) mice respond rapidly by secreting IFN-gamma. CD8+ T cells secreting IFN-gamma can also be found in na?ve B6 mice 16 h after infection with LM. This rapid IFN-gamma response is TCR-independent and mediated through the actions of IL-12 and IL-18. Cell surface staining and cell sorting experiments indicate that these novel CD8+ T cells express memory markers. In vitro CFSE-labeling experiments show that IFN-gamma-secreting CD8+ T cells proliferate rapidly after 2 days in culture and after 4 days constitute the majority of the CD8+ T cell population. Together, these data suggest an important role for IFN-gamma-secreting CD8+ T cells in the innate response to bacterial pathogens.     

Effects of interleukin 4 on CD25+CD4+ regulatory T cell function

CD25+CD4+ regulatory T cells (Tregs) contribute to the maintenance of peripheral tolerance against self and non-self. The modulatory effects of cytokines, such as interleukin 4 (IL-4) on the function of Tregs have not been explored in detail. We here report that IL-4 prevents spontaneous apoptosis and the decline of foxp3 mRNA which were found to occur during culture of isolated Tregs. Tregs exposed to IL-4 were more potent in suppressing the proliferation of na?ve CD4+ T cells and they better inhibited IFN-gamma production by CD4+ T cells as compared to Tregs cultured in medium. IL-4 also enhanced membrane IL-2Ralpha (CD25) expression on Tregs above the levels observed on freshly isolated cells. IL-4-mediated effects on Treg function persisted in Tregs from Stat6-/- mice, pointing to a Stat6-independent intracellular transduction pathway. In conclusion, our data suggest that the anti-inflammatory function of IL-4 could partly be mediated by effects on Tregs function.     

Expression of the programmed death ligand 1, B7-H1, on gastric epithelial cells after Helicobacter pylori exposure promotes development of CD4+ CD25+ FoxP3+ regulatory T cells

During Helicobacter pylori infection, T cells are recruited to the gastric mucosa, but the host T-cell response is not sufficient to clear the infection. Some of the recruited T cells respond in a polarized manner to a Th1 response, while others become anergic. We have previously shown that T-cell anergy may be induced during infection by the interaction of T cells with B7-H1, which is up-regulated on the gastric epithelium during H. pylori infection. Recently, regulatory T (Treg) cells with a CD4(+) CD25(high) FoxP3(+) phenotype were found at an increased frequency in the gastric mucosa of biopsy specimens from H. pylori-infected patients. While Treg cells are important in maintaining tolerance, they can also suppress immune responses during infection. In this study, we examined the induction of the Treg phenotype when na?ve T cells were incubated with gastric epithelial cells exposed to H. pylori. The frequency of this phenotype was markedly decreased when B7-H1 was blocked with monoclonal antibodies or its expression was blocked with small interfering RNA. The functional role of these Treg cells was assessed in proliferation assays when the cells were cocultured with activated T cells, which effectively decreased proliferation of the cells.     

Differential cytokine requirements for regulation of autoimmune gastritis and colitis by CD4(+)CD25(+) T cells

Murine autoimmune gastritis, induced by neonatal thymectomy or the injection of CD25-depleted lymphocytes into nu/nu recipients, is characterized by an inflammatory infiltrate into the gastric mucosa, parietal cell destruction and circulating anti-parietal cell antibodies. Using RAG-2(-/-)mice as recipients, we determined that the induction of disease relies on CD4(+)CD25(-)effector cells and prevention relies on CD4(+)CD25(+)regulatory cells; neither requires participation of CD8 cells or B cells. The severity of gastritis was dependent on the cytokine repertoire of CD4(+)CD25(-)effector T cells. Recipients of IL-4(-/-)T cells developed more severe gastritis and recipients of INF-gamma(-/-)T cells developed milder disease than recipients of wildtype or IL-10(-/-)effector T cells. Gastritis did not develop in the absence of IL-12. Protection from gastritis does not require either IL-4 or IL-10 because CD4(+)CD25(+)cells from IL-4(-/-)or IL-10(-/-)mice completely abrogated the disease process. CD4(+)CD25(+)cells also protected RAG-2(-/-)recipients from colitis and inhibitory activity was partially dependent on IL-10 expression. These findings highlight the critical role of CD4(+)CD25(+)regulatory T cells in protection from several autoimmune syndromes and delineate the differential contribution of IL-10 to CD4(+)CD25(+)Treg activity in the settings of gastritis and colitis.     

B7H1-Ig诱导Tr1细胞向CD4~+CD25~+Foxp3~+Treg细胞转化的研究

为探讨Ⅰ型调节性T细胞(Tr1)与CD4+CD25+Foxp3+Treg之间的转化和相互关系,以预包被而固相化的B7H1-Ig融合蛋白加抗CD3单抗刺激初始CD4+CD62L+T细胞,分析细胞因子及Foxp3表达水平的变化,检测细胞功能;在B7H1-Ig开始刺激时或诱导细胞分化结束后加入重组人TGF-β,观察其对细胞分化的影响。结果显示,B7H1-Ig激活的CD4+T细胞产生高水平IL-10、IFN-γ和IL-5,极低水平的IL-2和IL-4,不表达Foxp3,通过分泌抑制性细胞因子IL-10发挥免疫抑制功能,证实B7H1-Ig可诱导Tr1细胞的产生。同时发现TGF-β不影响B7H1-Ig刺激的初始CD4+T的分化,却可促进B7H1-Ig诱导的已分化Tr1细胞向CD4+CD25+Foxp3+Treg转化,提示在特定条件下,Tr1细胞可转化的CD4+CD25+Foxp3+Treg。研究结果为将来临床应用CD4+Treg治疗免疫失调性疾病奠定了基础。     

Ethylenecarbodiimide-coupled allogeneic antigen presenting cells induce human CD4+ regulatory T cells

Adoptive transfer of naturally occurring CD4(+)CD25(+) regulatory T cells can tolerize transplantation alloresponses in animal models. However isolation of these cells in sufficient numbers from humans is cumbersome and prone to contamination with alloreactive CD25(+) T cells. Incubation of ethylenecarbodiimide-coupled antigen presenting cells (APC) with na?ve T cells and antigen has been shown to induce tolerance in various experimental models. We therefore investigated whether ECDI-coupled allogeneic APC were able to induce an expandable human CD4(+) Treg population. CD4(+) and CD4(+) CD25(-) cells cultured for 5 days with ECDI-treated human PBMC exhibited potent suppressive capacity in a mixed lymphocyte reaction. Induction of these ECDI-Tregs was associated with up-regulation of Foxp3 mRNA and protein expression and they maintained high expression of CD62L and CD27 as well as low CD127 expression. ECDI-treated APC displayed reduced expression of the co-stimulatory signaling molecules CD40 and CD80, and failed to stimulate proliferation and cytokine secretion in co-cultured CD4(+) T cells. Restimulation in the presence of rapamycin and hrIL-2 led to expansion of ECDI-Tregs with increasing Foxp3 levels and suppressive activity significantly higher than expanded naturally occurring CD4(+)CD25(+) Tregs. In summary these findings support the hypothesis that ECDI-coupled APC can convert na?ve CD4(+) T cells into functional Tregs with different phenotypic characteristics than naturally occurring CD4(+)CD25(+) Tregs. These inducible Tregs could provide a novel approach that might facilitate the translation of ex vivo generated and expanded Tregs into clinical settings.     

Wild-type and interleukin-10-deficient regulatory T cells reduce effector T-cell-mediated gastroduodenitis in Rag2-/- mice, but only wild-type regulatory T cells suppress Helicobacter pylori gastritis

CD4(+) CD45RB(hi) CD25(-) effector T cells (T(E)) promote Helicobacter pylori gastritis in mice, and CD4(+) CD45RB(lo) CD25(+) regulatory T cells (T(R)) are anti-inflammatory. Using adoptive transfer into H. pylori-infected Rag2(-/-) mice, we evaluated effects of wild-type (wt) C57BL/6 or congenic interleukin-10-deficient (IL-10(-/-)) T(R) cells on gastritis, gastric cytokines, and H. pylori colonization. Infected Rag2(-/-) mice colonized in the corpus and antrum with 10(5) to 10(6) H. pylori CFU/gram without associated gastritis. T(E) cell transfer caused morbidity and an H. pylori-independent pangastritis and duodenitis (gastroduodenitis) associated with increased expression of gamma interferon (IFN-gamma) and tumor necrosis factor alpha. T(E) cell transfer to H. pylori-infected mice led to additive corpus gastritis associated with inflammatory cytokine expression and reduced colonization. wt T(R) cells reduced morbidity, H. pylori corpus gastritis, gastroduodenitis, and inflammatory cytokine expression and reversed the decline in H. pylori colonization attributable to T(E) cells. Although less effective than wt T(R) cells, IL-10(-/-) T(R) cells also reduced morbidity and gastroduodenitis but did not reduce H. pylori corpus gastritis or impact T(E) cell inhibition of colonization. Gastric tissues from mice receiving wt T(R) cells expressed higher levels of Foxp3 compared to recipients of IL-10(-/-) T(R) cells, consistent with lower regulatory activity of IL-10(-/-) T(R) cells. These results demonstrate that wt T(R) cells suppressed T(E)-cell-mediated H. pylori-independent gastroduodenitis and H. pylori-dependent corpus gastritis more effectively than IL-10(-/-) T(R) cells. Compartmental differences in T(E)-cell- and H. pylori-mediated inflammation and in regulatory effects between wt T(R) and IL-10(-/-) T(R) cells suggest that IL-10 expression by wt T(R) cells is important to regulatory suppression of gastric inflammation.     

Resistance of regulatory T cells to glucocorticoid-induced [corrected] TNFR family-related protein (GITR) during Plasmodium yoelii infection

CD4+ T cells are the major effector T cells against blood-stage Plasmodium yoelii infection. On the other hand, the lethal strain of P. yoelii (PyL) has acquired an escape mechanism from host T cell immunity by activating CD4+CD25+ regulatory T cells (Treg). Although the activation of Treg during PyL infection precludes the clearance of PyL from mice, it remains unclear whether activation of Treg is attributable to a specific response against PyL infection. Thus, we examined here whether Treg proliferate in an antigen-dependent manner during PyL infection. We also investigated the effector and regulatory mechanisms of Treg. Infection with PyL increased the number of CD4+CD25+ T cells, in which expression of Foxp3 mRNA is up-regulated. The Treg that were transferred into mice infected with PyL, but not with a non-lethal strain of P. yoelii (PyNL), proliferated during the initial 5 days following infection. The Treg from PyL-infected mice showed strong suppression compared with those from naive or PyNL-infected mice, and could suppress T cell activation by recognizing PyL- but not PyNL-derived antigens. Furthermore, the suppressive function of Treg activated in PyL-infected but not in naive mice could not be inhibited by treatment with an anti-glucocorticoid-induced TNFR family-related protein (GITR) mAb. These findings indicate that PyL infection specifically activates Treg that are specific for PyL-derived antigens. The infection also induces resistance for Treg to GITR signaling, and this eventually contributes to the escape of parasites from host T cell immunity.     

Immune regulation by CD4+CD25+ T cells and interleukin-10 in birch pollen-allergic patients and non-allergic controls

BACKGROUND: CD4+CD25+ regulatory T (Treg) cells and the cytokines IL-10 or TGF-beta play key roles in the maintenance of T cell homeostasis and tolerance to infectious and non-infectious antigens such as allergens. OBJECTIVE: To investigate the regulation of immune responses to birch pollen allergen compared with influenza antigen by Treg cells obtained from birch pollen-allergic patients and non-allergic controls. METHODS: Peripheral blood was collected from 10 birch pollen-allergic patients and 10 non-allergic healthy controls. CD4+CD25+ and CD4+CD25- cells isolated by magnetic-activated cell sorting were co-cultured and stimulated with birch pollen extract or influenza vaccine in the absence or presence of anti-IL-10 or soluble TGF-betaRII. RESULTS: CD4+CD25+ cells from non-allergic controls were able to suppress influenza antigen and birch pollen stimulated effector cell proliferation, whereas CD4+CD25+ cells from allergic patients suppressed influenza antigen-, but not birch pollen-stimulated proliferation. The production of Th1 cytokines, but not Th2 cytokines, was suppressed by CD4+CD25+ cells from both allergic patients and controls, upon stimulation with birch pollen extract. Neutralization of IL-10 led to significantly increased production of IFN-gamma in cultures with CD4+CD25- T effector cells. In addition, six-fold higher concentrations of TNF-alpha were detected after neutralization of IL-10 in both CD4+CD25- and CD4+CD25+ cell cultures from allergic patients and controls. CONCLUSION: We demonstrate that the allergen-specific suppressive function of CD4+CD25+ cells from allergic patients is impaired compared with non-allergic controls. Moreover, neutralization of IL-10 enhances the production of TNF-alpha, suggesting counter-acting properties of IL-10 and TNF-alpha, where IL-10 promotes tolerance and suppression by Treg cells and TNF-alpha promotes inflammatory responses.     

TGF-beta1 production by CD4+ CD25+ regulatory T cells is not essential for suppression of intestinal inflammation

Naturally occurring CD4+ CD25+ regulatory T cells (Treg) are potent suppressors of CD4+ and CD8+ T cell responses in vitro and inhibit several organ-specific autoimmune diseases. While most in vitro studies suggest that CD4+ CD25+ Treg cells adopt a cytokine-independent but cell contact-dependent mode of T cell regulation, their precise mechanism of suppression in vivo remains largely unknown. Here we examine the functional contribution of Treg cell-derived TGF-beta1 and effector T cell responsiveness to TGF-beta in CD4+ CD25+ T cell-mediated suppression of inflammatory bowel disease (IBD). We show that CD4+ CD25+ Treg cells from either TGF-beta1+/+ or neonatal TGF-beta1-/- mice can suppress the incidence and severity of IBD as well as colonic IFN-gamma mRNA expression induced by WT CD4+ CD25- effector T cells. Furthermore, TGF-beta-resistant Smad3-/- CD4+ CD25+ Treg cells are equivalent to WT Treg cells in their capacity to suppress disease induced by either WT or Smad3-/- CD4+ CD25- effector T cells. Finally, anti-TGF-beta treatment exacerbates the colitogenic potential of CD4+ CD25- effector T cells in the absence of CD4+ CD25+ Treg cells. Together, these data demonstrate that in certain situations CD4+ CD25+ T cells are able to suppress intestinal inflammation by a mechanism not requiring Treg cell-derived TGF-beta1 or effector T cell/Treg cell responsiveness to TGF-beta via Smad3.     

CD4+ CD25+调节性T细胞AICD机制的研究

目的探讨CD4^＋CD25^＋调节性T细胞活化诱导的细胞死亡（AICD）发生的机制。方法CD4^＋CD25^＋T细胞以磁性细胞分离器（MACS）从BALB／c小鼠或DO11．10小鼠的静息T细胞分离纯化。体外细胞增殖抑制实验证实其免疫调节作用。CD4^＋CD25^＋T细胞的AICD以CD3／CD28单克隆抗体活化或以特异性OVA323-339肽、抗原提呈细胞活化等两种方法获得。CD4^＋CD25^＋T细胞凋亡相关基因的表达通过实时定量PCR检测。流式细胞仪检测细胞的凋亡率。进一步观察FasL中和抗体、TRAIL中和抗体及caspase抑制剂zVAD-fmk对CD4^＋CD25^＋T细胞凋亡的影响。结果MACS成功分离CD4^＋CD25^＋T细胞，纯度可达98％，该细胞可特异性表达Foxp3基因，能明显抑制效应性T细胞的体外增殖。CD3／CD28抗体以及OVA特异性抗原活化8d的CD4^＋CD25^＋调节性T细胞AICD达39％～45％。活化前后的CD4^＋CD25^＋调节性T细胞死亡受体家族表达发生明显变化；FasL、TRAIL中和抗体及zVAD-fmk可明显抑制CD4^＋CD25^＋调节性T细胞的凋亡。结论FasL／Fas及其他凋亡相关分子可能参与了CD4^＋CD25^＋调节性T细胞的凋亡。     

Persistence of apoptosis-resistant T cell-activating dendritic cells promotes T helper type-2 response and IgE antibody production

Antigen-specific T cell-mediated apoptosis of dendritic cells (DCs) represents a unique down-regulatory mechanism that prevents the continuous activation of T cells by antigen-loaded DCs; this regulatory mechanism is impaired in allergy and as a consequence a large proportion of DCs tends to escape apoptosis following cognate interaction with CD4(+) T cells. However, the biological relevance of greater numbers of apoptosis-resistant DCs to the development of allergic IgE-mediated reactions remained to be determined. Here, we sought to investigate the in vitro and in vivo regulatory features of apoptosis-resistant DCs and to assess their role in host sensitization. Freshly isolated CD11c(+/hi)B220(-)DCs from ovalbumin (OVA)-sensitized, OVA-immunized and na?ve Balb/c mice were cultured with OVA-specific T cells and levels of T cell-mediated DCs apoptosis assessed by flow cytometry. Surviving apoptosis-resistant DCs were then recovered and subsequently co-cultured with OVA-specific CD62L(hi)CD44(low) na?ve T cells or passively transferred into naive syngenic recipients. In vitro profile of DC and T cell lymphokine production, chemokine receptors expression and in vivo, post-adoptive DC transfer T helper (T(H)) and IgE responses were assessed. Apoptosis-resistant DCs showed differential regulatory properties compared to their freshly isolated counterpart independent of the sensitization status of the donor. When co-cultured with na?ve OVA-specific T cells, apoptosis-resistant DCs from either sensitized or immunized mice induced T cells that produced increased levels of IL-4 and reduced levels of IFN-gamma and showed increased expression of T(H)-2 related CCR4 and CCR8 chemokine receptors. Finally, adoptive transfer of apoptosis-resistant DCs, induced higher levels of OVA-specific IgE responses in absence of antigen challenge in syngenic recipients compared to freshly isolated DCs from both sensitized and immunized mice. These data would suggest that sensitization-associated increased numbers of apoptosis-resistant T cell-activating DCs contribute to the generation/maintenance of IgE-mediated allergic reactions.     

Control of NK cell functions by CD4+CD25+ regulatory T cells

Regulatory T cells (Treg) are key players in the maintenance of peripheral tolerance. As a result of suppressive effects on CD4+ and CD8+ effector T cells, Treg control the adaptive immune system and prevent autoimmunity. In addition, they inhibit B lymphocytes, dendritic cells, and monocytes/macrophages. It is interesting that several recent papers show that CD4+CD25+ Treg are also able to inhibit NK cells. Thus, Treg exert their control on immune responses from the onset (triggering of innate immune cells) to the effector phase of adaptive immunity (B and T cell-mediated responses). That Treg inhibit NK cells suggests that their uncontrolled activation might break self-tolerance and induce "innate" autoimmune pathology. Conversely, Treg-mediated suppression of NK cell functions might have negative effects, as these cells are important in defense against infections and cancer. It is conceivable that Treg might dampen efficient activation of NK cells in these diseases.     

Depletion of tumor‐induced Treg prior to reconstitution rescues enhanced priming of tumor‐specific,therapeutic effector T cells in lymphopenic hosts

We reported previously that vaccination of reconstituted, lymphopenic mice resulted in a higher frequency of tumor‐specific effector T cells with therapeutic activity than vaccination of normal mice. Here, we show that lymphopenic mice reconstituted with spleen cells from tumor‐bearing mice (TBM), a situation that resembles the clinical condition, failed to generate tumor‐specific T cells with therapeutic efficacy. However, depletion of CD25⁺ Treg from the spleen cells of TBM restored tumor‐specific priming and therapeutic efficacy. Adding back TBM CD25⁺ Treg to CD25^? naïve and TBM donor T cells prior to reconstitution confirmed their suppressive role. CD25⁺ Treg from TBM prevented priming of tumor‐specific T cells since subsequent depletion of CD4⁺ T cells did not restore therapeutic efficacy. This effect may not be antigen‐specific as three histologically distinct tumors generated CD25⁺ Treg that could suppress the T‐cell immune response to a melanoma vaccine. Importantly, since ex vivo depletion of CD25⁺ Treg from TBM spleen cells prior to reconstitution and vaccination fully restored the generation of therapeutic effector T cells, even in animals with established tumor burden, we have initiated a translational clinical trial of this strategy in patients with metastatic melanoma.     

Immune modulation of inflammatory conditions: regulatory T cells for treatment of GvHD

The immune system is a highly balanced network of different cell types. This balance is disturbed in the setting of organ or stem cell transplantation, which can lead to graft rejection or "Graft versus host disease" (GvHD). Conventional pharmacological treatment by broad immune suppression is restricted by dose-limiting side effects. A novel strategy for prevention and control is cell therapy. This applies particularly to GvHD. A number of phase I trials have already been launched. The most appropriate cell type appears to be the regulatory T (Treg) cell as it is a natural "suppressor" of the immune system. Treg cells are able to inhibit various effector cells including CD4+ and CD8+ T cells, the main drivers of GvHD. Like other T cells, also Treg cells can be divided into na?ve and memory-type cells. We have previously identified effector/memory Treg cells (T(REM)), the regulatory counterparts of CD4+ effector/memory T cells (T(EM)). T(REM) may be particularly suited to inhibit proinflammatory reactions in peripheral tissues as they express the chemokine receptor CCR6, a feature they share with proinflammatory Th17 cells. As specific marker, they also express CD39 but lack the expression of CD49d and CD127. We could show that a simple depletion of CD49d and CD127 expressing cells yields a population of "untouched" Treg cells that is highly pure and largely consist of highly suppressive T(REM) cells. Mouse models have confirmed the efficacy of Treg cells in controlling GvHD but the translation has been lagging. First clinical trials suggesting safety of adoptive Treg transfer increase the need for methods that allow obtaining clinical-grade Treg cells in sufficient amounts. The new approach may therefore provide a promising new alternative to facilitate a simple access to these cells.     

Adenosine deaminase potentiates the generation of effector, memory, and regulatory CD4+ T cells

By interacting with CD26 on the CD4+ T cell surface and with the AdoR A(?B) on the DC surface, ADA triggers a costimulatory signal for human T cells. The aim of this study was to know whether ADA-mediated costimulation plays a role in the differentiation of T cells. The results show that irrespective of its enzymatic activity and dependent on TNF-α, IFN-γ, and IL-6 action, ADA enhanced the differentiation of CD4+CD45RA+CD45RO? na?ve T cells toward CD4+CD25+CD45RO+ Teffs and CD4+CD45RA?CD45RO+ memory T cells. Furthermore, ADA potentiated generation of CD4+CD25(high)Foxp3+ Tregs by a mechanism that seems to be mainly dependent on the enzymatic activity of ADA. Interestingly, an ADA-mediated increase on Teff, memory T cell, and Treg generation occurred, not only in cocultures from healthy individuals but also from HIV-infected patients. These data suggest that ADA is a relevant modulator of CD4+ T cell differentiation, even in cells from immunologically compromised individuals.     

CD4+ and CD8+ T cell responses in Helicobacter pylori-infected individuals

In order to characterize T cell responses in human Helicobacter pylori infection, we have examined proliferative responses and cytokine production by CD4+ and CD8+ T cells isolated from duodenal ulcer patients and asymptomatic H. pylori carriers, after activation with some H. pylori antigens that may be important in disease development. For control purposes, T cells from uninfected volunteers were also examined. The different H. pylori antigens induced only modest proliferative responses in circulating CD4+ and CD8+ T cells from both H. pylori-infected and uninfected individuals. However, circulating T cells from H. pylori-infected subjects produced larger amounts of interferon-gamma (IFN-gamma) in response to the Helicobacter antigens than did T cells from uninfected volunteers. Furthermore, CD8+ T cells produced larger amounts of IFN-gamma than did CD4+ T cells, on a per cell basis. Most IFN-gamma-producing cells from both infected and uninfected volunteers appeared to be naive T cells expressing CD45RA. Increased production of IL-4 and IL-5 was, on the other hand, only seen in a few instances after stimulation of isolated CD4+ and CD8+ T cells. Stimulation of freshly isolated gastric T cells with the different H. pylori antigens did not result in increased proliferation or cytokine production. In conclusion, our results show that several different purified H. pylori antigens induce production of IFN-gamma, preferentially by CD8+ cells. Therefore, they suggest that IFN-gamma-secreting CD8+ cells contribute significantly to the cytokine response induced by H. pylori infection.