GITR, a member of the TNF receptor superfamily, is costimulatory to mouse T lymphocyte subpopulations

GITR (glucocorticoid-induced TNFR family related gene) is a member of the TNFR superfamily (TNFRSF) that is expressed in different cell types, including T lymphocytes. Because of a high homology in its cytoplasmic region with other known costimulatory members of the TNFRSF, we investigated whether GITR played a costimulatory role in T lymphocyte subpopulations. Our results show that the proliferation response of CD8+ and CD4+ peripheral T cell subpopulations was potentiated when a GITR costimulus was added to an anti-CD3 stimulus. Furthermore, expression of the main activation-induced receptor (IL-2Ralpha) and production of IL-2 and IFN-gamma were increased more with a GITR costimulus than with anti-CD3 alone. GITR stimulation also enhanced anti-CD3-induced ERK phosphorylation, suggesting that GITR is involved in MAPK-pathway activation. Interestingly, CD4+CD25+ regulatory T cell (Treg cell) proliferation was triggered by the GITR costimulus; Treg cell proliferation was paralleled by the loss of the anergic phenotype and suppressor activity. Nevertheless, unstimulated GITR(-/-) CD4+CD25+ and GITR(+/+) CD4+CD25+ cells were equally able to exert suppressor activity on CD4+CD25- responder cells. These results indicate a novel function for GITR as costimulatory molecule of T cell subsets.     

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.     

Role of monocytes in anti-CD3-induced T-cell DNA synthesis: Effect of chloroquine and monensin on anti-CD3-induced human T-cell activation

Anti-CD3 monoclonal antibody (MoAb) induces proliferation of freshly isolated peripheral blood T cells only in the presence of monocytes/macrophages and requires binding of the Fc portion of antibody to monocytes/macrophages. In this investigation, we examined whether monocytes process anti-CD3 similar to any soluble antigen and present to T cells in context with HLA-DR to induce maximal DNA synthesis. Adherent monocytes were pulsed with anti-CD3 MoAb in the presence or absence of the lysozomotropic agents chloroquine and monensin, which are known to inhibit processing of soluble antigens, washed extensively, and then incubated with autologous T cells in the absence of soluble anti-CD3, and³H-thymidine incorporation and CD25 expression were measured. Both monensin and chloroquine inhibited anti-CD3-pulsed monocyte-induced T-cell DNA synthesis and CD25 expression in a dose-dependent manner. This inhibitory effect was not due to any loss in cell viability or the effect on the expression of HLA-DR on monocytes. Paraformaldehyde-fixed monocytes pulsed with anti-CD3 MoAb induced significantly less DNA synthesis, HLA-DR expression, and CD25 antigen expression on autologous T cells as compared to responses induced by unfixed anti-CD3-pulsed monocytes. The treatment of anti-CD3-pulsed monocytes with frame-work-specific anti-HLA-DR MoAb inhibited their capacity to induce T-cell DNA synthesis. These data suggest that monocytes, in addition to serving as the matrix for cross-linking, also process anti-CD3 MoAb and present to the T cells in the context of HLA-DR antigens to induce optimal DNA synthesis.     

Persistent CD3-Crosslinking Down-Regulates Interleukin-2 Responsiveness in Interleukin-2-Competent Cloned T Cells: the Possible Involvement of Protein Kinase C

To investigate the regulation of interleukin-2 (IL-2) responsiveness of T cells, a human CD4⁺ T-cell clone with constitutive expression of IL-2 receptors was stimulated with recombinant IL-2 (rIL-2) in the presence or absence of immobilized anti-CD3 monoclonal antibodies (αCD3_imm MoAb). Incubation of T cells with αCD3_imm MoAb decreased IL-2-induced proliferation which could not be ascribed to the modulation of IL-2 receptor expression nor to cell death. Phorbol-myristate-acetate (PMA), an activator of protein kinase C (PKC), also induced down-regulation of IL-2 responsiveness. The αCD3_sol MoAb, inducing Ca²⁺-mobilization without activating PKC, did not inhibit IL-2 responsiveness whereas cyclosporine A (CsA), a drug that inhibits the Ca²⁺-dependent activation pathway, did not prevent the induction of IL-2 hyporesponsiveness induced by αCD3_imm MoAb. It is concluded that modulation of IL-2 responsiveness of T cells via the T-cell receptor/CD3 complex (TCR/CD3) may be mediated by a PKC-activating signal.     

Generation and expansion of regulatory human CD4(+) T-cell clones specific for pancreatic islet autoantigens

Autoantigen-specific regulatory T cells (Treg) are a potential cell therapy for human autoimmune disease, provided they could be generated in adequate numbers and with stable function. To this end, we determined the feasibility of cloning and expanding human CD4⁺ Treg specific for the type 1 diabetes autoantigens, GAD65 and proinsulin. Blood CD4⁺ cells stimulated to divide in response to GAD65 (in three healthy individuals) or proinsulin (in one type 1 diabetic) were flow sorted into single cells and cultured on feeder cells in the presence of anti-CD3 monoclonal antibody, IL-2 and IL-4. Clones were expanded over 4–6 weeks and screened for autoantigen-dependent suppression of tetanus toxoid-specific T-cell proliferation. Suppression by Treg clones was then confirmed against autoantigen-specific non-Treg clones. Of a total of 447 clones generated, 98 (21.9%) had autoantigen-dependent suppressor function. Treg clones were anergic but proliferated to autoantigen after addition of IL-2 or in co-culture with stimulated bulk T cells, without loss of suppressor function. Treg clones were stored over liquid N₂, thawed and further expanded over 12 days, whereupon they exhibited decreased suppressor function. Expansion of Treg clones overall was in the order 10⁷–10⁸-fold. Treg clones were not distinguished by markers of conventional CD4⁺CD25⁺ Treg and suppressed independently of cell–cell contact but not via known soluble suppressor factors. This study demonstrates that autoantigen-specific CD4⁺ Treg clones with potential application as a cell therapy for autoimmune disease can be generated and expanded from human blood.     

CD52 is a novel costimulatory molecule for induction of CD4+ regulatory T cells

We previously reported that 4C8 monoclonal antibody (mAb) provides a costimulatory signal to human CD4+ T cells and consequently induces regulatory T (Treg) cells, which are hypo-responsive and suppress the polyclonal response of bystander CD4+ cells in a contact-dependent manner. In this study, we identified the antigen of 4C8 mAb as CD52. Costimulation with Campath-1H, a humanized anti-CD52 mAb, also induced Treg cells. Anti-CD52-induced Treg cells suppressed the proliferation of both CD4+ and CD8+ T cells provided with polyclonal or allogeneic stimulation. When Treg cells were induced from Staphylococcal enterotoxin B (SEB) treated cells, they suppressed the response to SEB more efficiently than that to another superantigen, SEA. Furthermore, anti-CD52-induced Treg cells could be expanded by culture with IL-2 followed by CD52-costimulation, and co-injection of expanded Treg cells suppressed lethal xenogeneic graft versus host disease (GvHD) reactions in SCID mice caused by human peripheral blood mononuclear cells (PBMCs).     

Establishment of stable CD8+ suppressor T cell clones and the analysis of their suppressive function.

Stable CD8+ suppressor T cell (Ts) clones were established by a relatively simple method. Keyhole limpet hemocyanin (KLH)-primed spleen cells from C3H mice were depleted of B cells and CD4+ T cells by panning and cytotoxic treatment, and the resulting CD8+ T cells were periodically stimulated with antigen and irradiated syngeneic spleen cells followed by manifestation in interleukin-2 (IL-2) containing medium. T cell clones with a definite suppressor function were established by limiting dilution. They were defined as classical effector type Ts of CD8+ phenotype as they had constant and definite suppressor functions in antigen-induced T cell proliferation and specific antibody response against T cell-dependent antigens without detectable cytotoxic activity against both antigen presenting cells (APC) and helper T cells (Th). They showed no helper activity for B cells and produced no detectable helper type lymphokines such as IL-2 and IL-4. CD8+ Ts clones were able to inhibit the antigen-induced IL-2 production of normal and cloned T cells. Their suppressive activity was antigen-nonspecific and major histocompatibility complex-unrestricted. CD8+ Ts clones were also able to suppress the proliferative response of Th clones induced by immobilized anti-T cell receptor (TcR) and anti-CD3 mAbs but not the response induced by concanavalin A (ConA) and IL-2. All the CD8+ T cell clones established independently utilized the TcR V beta 8 gene. Syngeneic antigen presenting cells could induce proliferation of these CD8+ clones, which was blocked by anti-CD8 and anti-I-Ak monoclonal antibody (mAb) but not by anti-class I mAbs. The stimulation of CD8+ Ts clones with immobilized anti-CD3 resulted in the release of a suppressor factor(s) that potently inhibited the antigen-induced proliferation of CD4+ Th clones and the in vitro secondary antibody formation.     

Anti CD5 Sustains the Proliferative Response of IgM-Activated Human CD5+B Cells

The CD5 molecule is expressed by most T cells but it is present on a minor B cell subset. Whilst several studies have provided information on the physiological role of T cell CD5, the functional role of CD5 on B lymphocytes remains unclear. To address this question, tonsillar CD5⁺ B cells were sorted by dual-colour fluorescence and FACS. Sorted cells were stimulated with polyclonal anti-IgM antibodies (Ab), and monoclonal (MoAb) F(ab')₂ fragments of anti-CD5. Proliferative responses were evaluated by enumeration of Ki-67 positive cells using quantitative flow cytometry. Co-stimulation with anti-CD5 MoAb for 3 days did not affect the anti-IgM and IL2-induced proliferation of CD5⁺ B cells. This was seen under conditions where the anti-CD5 was soluble, adsorbed to the microwells or cross-linked by anti-mouse antibodies. Fewer CD25⁺ cells were detected, however, in the presence of anti-CD5. In contrast, the proliferative response of CD5⁺ B cells prestimulated for 3 days with IL-2 and anti-IgM, was sustained in a further 3-day culture period when anti-CD5 was added. It is concluded that CD5 occupancy might provide an additional signal to activated CD5⁺ B cells favouring their proliferation and differentiation into autoantibody secreting cells.     

Partial depletion of CD69low-expressing natural regulatory T cells with the anti-CD25 monoclonal antibody PC61

The role CD4(+) CD25(+) regulatory T cells (Treg) play in modulating the immune response has been investigated extensively over recent years. Much of the work to date has used the activation marker CD25 to define, enrich and deplete Treg. However, the identification of FoxP3 as a definitive marker of Treg has allowed us to study the effect of monoclonal antibodies against CD25 on regulatory T-cell populations. Recently, published data have indicated that Treg are inactivated, not depleted, through treatment with anti-CD25 monoclonal antibody. Using FoxP3-Green fluorescent protein reporter mice, we show that treatment with the CD25 MoAb PC61 depleted a subpopulation of Treg. The depleted Treg population expressed low levels of the CD69 marker, indicating an inactive phenotype. In addition, PC61 treatment altered the function of the remaining regulatory T-cell population, preventing their ability to modulate autoimmune diseases. Thus, our results have important implications with regard to interpreting experimental outcomes from in vivo anti-CD25 treatments.     

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。     

Signal requirements for activation of leukaemic T cells from a chronic lymphocytic leukaemia (T-CLL).

In order to define the signal requirements for leukaemic T cell activation, the proliferation and interleukin-2 (IL-2) production of peripheral lymphocytes from a patient with a HTLV-I-, CD4+, CD45RA+ CD45RO+ CD25- T-CLL were evaluated after the delivery of different stimuli. Unlike resting CD4+ normal T lymphocytes that can be activated only by a two-signal stimulation, T-CLL cells proliferated and released IL-2 in response to a pair of anti-CD2 monoclonal antibodies (MoAbs) or concanavalin A (Con A) in the absence of both accessory cells (AC) and phorbol myristate acetate (PMA). The two stimuli were also able to induce CD25 expression within 12-20 h on the majority of T-CLL cells. A response to anti-CD3 and anti-CD28 MoAbs was detected only in the presence of PMA, similar to that observed in normal resting T lymphocytes matched for phenotype. Both Con A- and CD2-induced proliferation were strongly inhibited by the addition of anti-CD25 MoAb. Furthermore, T-CLL lymphocytes acquired anti-tumour lytic activity after culture in the presence of PMA and ionomycin. We conclude that HTLV1- CD25- T-CLL can be characterized not only by morphological and phenotypical studies but also on the basis of signal requirements for cell activation.     

Costimulatory effects of IL-1 on the expansion/differentiation of CD4+CD25+Foxp3+ and CD4+CD25+Foxp3- T cells

CD4+CD25+forkhead box p3 (Foxp3)+ regulatory T cells (Treg) control peripheral tolerance. Although Treg are anergic when stimulated through the TCR, mature bone marrow-derived, but not splenic, dendritic cells (DC) can induce their proliferation after TCR stimulation in the absence of IL-2. One possibility is that the DC produce proinflammatory cytokines such as IL-1 or IL-6 that function as growth factors for Treg. We have analyzed the costimulatory effects of IL-1 on the expansion of Foxp3+ Treg in vitro. When CD4+CD25+ T cells were cultured in the presence of splenic DC and IL-1, marked expansion of the Foxp3+ T cells was observed. The effects of IL-1 were mediated on CD4+CD25+Foxp3(-) T cells present in the starting population rather than on the DC or on the CD4+CD25+Foxp3+ T cells. In contrast, stimulation of CD4+CD25+ T cells with plate-bound anti-CD3 and IL-1 in the absence of DC resulted in the outgrowth of a CD4+CD25+Foxp3(-) T cell population composed of NKT cells and non-NKT, IL-17-producing cells. Foxp3+ Treg purified from mice expressing the reporter gene enhanced GFP in the Foxp3 locus failed to proliferate when costimulated with IL-1. These findings have important implications for the design of protocols for the expansion of CD4+CD25+ T cells for cellular biotherapy.     

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.     

Accessory Signalling by B7-1 for T Cell Activation Induced by Anti-CD2: Evidence for IL-2-Independent CTL Generation and CsA-Rcsistant Cytokine Production

Resting T cells can be activated by selected pairs of anti-CD2 MoAb. Activation is dependent on the presence of accessory cells, which can be replaced by either anti-CD28, or by the combination of IL-1β and IL-6. The present study was undertaken to investigate accessory signalling by B7-1, the natural ligandof CD28, in this pathway of T cell activation. 3T6 mouse fibrobiasts were transfected with human B7-1 and used as accessory cells in cultures of purified resting human T cells. In the presence of a stimulating pair of anti-CD2 MoAb, T cell proliferation, production of cytokines (IL-2, IL-4, IL-10, GM-CSF, IFN-α and TNF-α), and generation of cytotoxic T lymphocytes were all supported by B7-l(+) 3T6 cells but not by control 3T6 cells. Blocking studies with anti-IL-2 + anti-IL-2R MoAb revealed both IL-2-dependent and IL-2-independent CTL generation after B7-1 -mediated costimulation. Moreover, a partial or complete resistance to inhibition with CsA was observed for IL-2 production and CTL generation respectively in the presence of the costimulatory signal derived from B7-1 - CD28 interaction. Anti-CD2 MoAb with B7-1 costimulation could directly induce proliferation, IL-2 production and generation of CTL activity in highly purified CD8⁺ T cells without the heip of CD4⁺ T cells. We conclude that CD28 ligation with the natural ligand B7-1 provides a strong accessory signal for CD4 and CD8 cell activation through CD2.     

Rapid assessment of in vitro expanded human regulatory T cell function

Human regulatory T cells (Treg) are able to actively suppress autoreactive immune responses. Phenotypically, they are broadly characterized as CD4+, CD25+, CD127(lo/?) and FoxP3+. CD45RA can be used to further differentiate the population into na?ve (CD45RA(+)) and induced (CD45RA?) Treg. The functional potential of Treg is routinely determined by assessing their ability to suppress T cell function in 3-5day proliferation assays. Since Treg are being explored for therapeutic use, a short-term functional assay could serve as a valuable tool for evaluating the potency of Treg. Therefore, an assay designed to measure Treg suppression of activation marker expression by responder T cells in 7 to 20h has been examined in this report. Using flow cytometry, expression of CD69 and CD154 on T cells, in response to stimulation with CD3/CD28 beads, was used as a measure of activation in the assay. Treg from healthy volunteers were sorted as CD4+CD25+CD127(lo/?)CD45RA+ cells with a BD FACSAria? II. The highly purified Treg were then expanded in vitro and their function was assessed in short term activation marker suppression assays using autologous PBMC as responder cells. The data suggest that this short term suppression assay could be a reliable surrogate for assessing Treg functional potential.     

Human retinal pigment epithelium-induced CD4CD25 regulatory T cells suppress activation of intraocular effector T cells

Murine retinal pigment epithelial (RPE) cells suppress T-cell activation by releasing soluble inhibitory factors and promote the generation of regulatory T cells in vitro. These T cells exposed to RPE supernatants (RPE-induced Treg cells) can suppress the activation of bystander effector T cells via the production of transforming growth factor-beta (TGFβ). In the present study, we showed that human RPE-induced Treg cells are also able to acquire regulatory function when human RPE cell lines were pretreated with recombinant TGFβ2. These RPE-induced Treg cells produced TGFβ1 and IL-10 but not IFNγ, and they significantly suppressed the activation of target cell lines and intraocular T-cell clones established from patients with active uveitis. Moreover, CD4⁺CD25⁺ RPE-induced Treg cells expressed CTLA-4 and Foxp3 molecules, and the CD25⁺ Treg cells profoundly suppressed the T-cell activation. Thus, in vitro manipulated Treg cells acquire functions that participate in the establishment of immune tolerance in the eye.     

Requirements for activation of human peripheral blood T cells by mouse monoclonal antibodies to CD3

The present study was undertaken in an attempt to reconcile the conflicting results concerning the signals required for the activation of human resting T cells by antibodies to the T-cell receptor/CD3 complex (Ti/CD3). For this purpose we have used highly purified peripheral blood T cells, depleted of monocytes and of preactivated Ia + T cells, to the extent that they were unable to proliferate to interleukin 2 (IL-2) alone or to optimal doses of phytohemagglutinin (PHA). To further minimize the contribution of contaminating monocytes, we used the anti-CD3 mAb, Leu-4, and cells from Leu-4 nonresponder subjects, whose monocytes we show completely fail to bind the Leu-4 mAb. The parameters of T-cell activation which we measured were rises in intracellular free calcium ion [Ca2+]i, IL-2 receptor expression IL-2 production, and cell proliferation. Our results indicate that induction of proliferation of resting T cells requires at least two signals. Signal one is best delivered by multivalent anti-CD3 mAb, such as Leu-4 mAb covalently linked to Sepharose 4B (Seph-Leu-4), or with Leu-4 mAb and anti-mouse IgG. These reagents crosslink the CD3 receptor complex on the T cell, and result in a rise in intracellular [Ca2+]i, in expression of receptors for IL-2, and in proliferation upon addition of IL-2. In contrast, purified T cells exposed to soluble Leu-4 mAb do not exhibit a rise in intracellular [Ca2+]i, do not express receptors for IL-2, and do not proliferate upon addition of IL-2, indicating that the valency of anti-CD3 mAb is critical for the delivery of the first activation signal to the T cell. The essential step of crosslinking of CD3 antigens on T cells by anti-CD3 mAb is normally mediated by monocytes which have bound anti-CD3 mAbs via their Fc receptors. Monocytes from Leu-4 nonresponder subjects, which we show fail to bind Leu-4 mAb, fail to crosslink CD3 antigens on T cells, resulting in failure of T-cell activation. The second signal needed for the proliferation of T cells whose Ti/CD3 complexes are crosslinked is IL-2. IL-2 production by such T cells required a monocyte delivered signal, which must be delivered to these T cells simultaneously with the crosslinking of their Ti/CD3 antigens. This IL-2-inductive signal can be delivered by both Leu-4 nonresponder and Leu-4 responder monocytes, indicating that delivery of this IL-2 inductive signal is independent of anti-CD3 mAb binding by monocytes.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of mouse CD4 T cell subsets defined by expression of KLRG1

The mouse killer cell lectin-like receptor G1 (KLRG1) is an inhibitory receptor known to be expressed on a subset of NK cells and antigen-experienced CD8 T cells. Here, we have characterized expression of KLRG1 on CD4+ T cells from normal mice. While a polyclonal TCR repertoire suggests thymic origin of KLRG1+ CD4+ cells, KLRG1 expression was found to be restricted to peripheral CD4+ T cells. Based on phenotypic analyses, a minority of KLRG1+ CD4+ cells are effector/memory cells with a proliferative history. The majority of KLRG1+ CD4+ cells are, however, bona fide Treg cells that depend on IL-2 and/or CD28 and express both FoxP3 and high levels of intracellular CD152. KLRG1-expressing Treg are contained within the CD38+ subset but are only partially overlapping with the CD25+ CD4+ Treg subset. In functional assays, KLRG1+ CD4+ cells were anergic to TCR stimulation with respect to proliferation, and sorted KLRG1+ CD25+ CD4+ cells were equal or superior to KLRG1+ CD25- CD4+ cells, which were more potent than KLRG1- CD25+ CD4+ cells in suppressing responder cell proliferation. Together, our results demonstrate that KLRG1 expression defines novel and distinctive subsets of senescent effector/memory and potent regulatory CD4+ T cells.     

Increased interleukin-10 production by ASC-deficient CD4+ T cells impairs bystander T-cell proliferation

Apoptosis-associated speck-like protein containing a caspase recruitment domain (ASC) is an important component of the inflammasome, functioning as an adaptor protein that facilitates the recruitment and activation of procaspases that in turn promote the maturation of interleukin-1β (IL-1β) and IL-18. Despite initial focus on the inflammatory properties of ASC there is emerging evidence that highlights the importance of ASC in facilitating adaptive immune responses. However, the cellular and molecular basis for the involvement of ASC in adaptive immunity remains largely unexplored. We have previously demonstrated that activated ASC-deficient T cells have dampened proliferative responses. We have therefore explored the underlying cellular mechanism(s) by which ASC regulates T-cell proliferation. We show that under activating conditions (anti-CD3/CD28 stimulation) in bulk T-cell cultures the presence of ASC(-/-) CD4(+) T cells is sufficient to suppress the proliferative responses of neighbouring T cells. Furthermore, ASC(-/-) CD4(+) T cells upon activation exhibit a suppressive cytokine profile, with elevated production of IL-10 and reduced secretion of T helper type 1 cytokines, interferon-γ and IL-2. This increase in IL-10 secretion within the activated ASC(-/-) CD4(+) T-cell compartment was not associated with a proportional increase in conventional Foxp3(+) regulatory T (Treg) cells. Interestingly, when equal numbers of fluorescence-activated cell sorted ASC(+/+) and ASC(-/-) Treg cells (CD4(+) CD44(intermediate/high) CD25(+)) were activated in vitro, the ASC(-/-) fraction produced significantly more IL-10 than their wild-type counterparts, suggesting that ASC(-/-) Treg cells have greater suppressive capacity. Collectively, these results imply that the ASC may influence the development and functioning of Treg cells.     

Regulatory activity of activated murine peripheral CD4+CD25- T cells: a possible mechanism of feedback regulation on adaptive immunity

This study was undertaken to investigate the possibility that peripheral CD4+CD25- T cells, once fully activated, transiently obtain suppressive function against other T cells. CD4+CD25- T cells, isolated from splenocytes of BALB/c mice, were stimulated with anti-CD3 MoAb in the presence of feeder cells for 72 h. The activated CD4+ T cells (T(act)) thus obtained were able to inhibit the activation and proliferation of bystander CD4+ T cells in a non-MHC-restricted manner. T(act)-mediated suppression was cell contact dependent, reversible by exogenous IL-2 as well as anti-GITR antibody. Furthermore, adoptive transfer of T(act) cells significantly downregulated humoral response of BALB/c mice to s.c. immunization with ovalbumin. We argue that suppression mediated by activated CD4+CD25- T cells may play an important role in maintaining homeostasis of the immune system and preventing excessive T-cell responses in vivo.