CD4+CD25+ regulatory cells in acquired MHC tolerance

Summary: Tolerance to self-antigens is an ongoing process that begins centrally during T-cell maturation in the thymus and continues throughout the cell's life in the periphery by a network of regulated restraints. Remaining self-reactive T-cells that escape intrathymic deletion may be silenced within the peripheral immune system by specialized regulatory CD4⁺ cells. By analogy, regulatory CD4⁺ cells that control immunity to "acquired self" should arise in circumstances where the immune system acquires tolerance to foreign MHC, such as the tolerance that develops following the exposure to foreign MHC antigens during the neonatal period. We have used this classic model of neonatal tolerance to examine the role of regulatory CD4⁺ cells in acquired tolerance to disparate class I and class II MHC. Adoptive transfer of unfractionated but not CD4⁺-depleted spleen cells from neonatal tolerant mice into SCID recipients inhibited skin graft rejection by immunocompetent CD8⁺ T cells. Using 5-bromo-2'-deoxyuridine incorporation, standard cytotoxic T-lymphocyte assays, short-term interferon-γ ELISPOT, and intracellular FACS analysis to study CD8⁺ T-cell effector function, we demonstrated that neonatal tolerant mice contain CD4⁺CD25⁺ cells that suppress the development of anti-donor CD8⁺ T-cell responses in vitro . We conclude that regulatory CD4⁺CD25⁺ cells initiate and/or maintain tolerance by preventing the development of CD8⁺ T-cell alloreactivity.     

The Allogeneic but not Syngeneic Dendritic Cells Effectively Generated Regulatory T Cells from Total Cd4+ Population without Exogenous Cytokines

Dendritic cells (DC) play a critical role in both the expansion of natural regulatory T cells (nTreg) and conversion of induced Treg (iTreg) from their precursors. In the present study, we evaluated the potential of DC to generate Treg from total CD4⁺ population which contains both nTreg and the precursors, and found that allogeneic (allo-DC) but not syngeneic DC (syn-DC) could effectively generated Foxp3⁺ Treg from total CD4⁺ population in the absence of exogenous cytokines. Compared with freshly purified CD4⁺ T cells, allo-DC-stimulated CD4⁺ T cells showed increased percentage of CD4⁺CD25⁺Foxp3⁺ Treg by 5–7-folds while syn-DC-stimulated CD4⁺ T cells did not. Furthermore, we demonstrated that the significant amounts of endogenous IL-2 and TGF-β, at least partially, contributed to the expansion of nTreg and conversion of iTreg in this cocultural system, respectively. Importantly, similar to nTreg, these allo-DC-generated Treg were capable of suppressing T cell response in vitro . Thus, our research provides a novel and efficient strategy for generation of Treg from total CD4⁺ population.     

Expression of CD28 on CD8+ and CD4+ Lymphocytes During HIV Infection

CD28 interaction with B7 molecules, expressed on the membranes of antigen-presenting cells, costimulates cytokine production, T-cell proliferation and generation of cytotoxic lymphocytes. The expression of CD28 markers on CD4⁺ and CD8⁺ lymphocytes was studied in a group of subjects at various stages of HIV infection. A reduction in the percentage of CD28-bearing CD4⁺ and CD8⁺ cell subsets was observed during the asymptomatic stage of the disease. This reduction was more pronounced in AIDS than in non-AIDS patients. At the same time, an increase in the absolute CD8⁺CD28⁻ cell number (greater in stage A than in stage B and C subjects) was observed in HIV-infected patients. The finding of an altered pattern of CD28 expression on T cells might per se explain certain early defects in the cytokine pattern and in the immune response peculiar to HIV-infected patients.     

CD3−4−8− Thymocyte Precursors with Interleukin-2 Receptors Differentiate Phenotypically in Coculture with Thymic Stromal Cells

CD3⁻4⁻8⁻ interleukin-2 receptor positive (IL-2R⁺) thymocyte precursors from adult mice were cocultured with thymic stromal cells from syngeneic adult mice. The IL-2R⁺CD3⁻4⁻8⁻ thymocytes were obtained by positive panning of IL-2R⁺ cells followed by either sorting or negative panning of triple negative cells, and they were cocultured with primary or secondary cultures of heterogeneous thymic stromal cells. Phenotypic maturation of these precursor cells was extremely rapid. Within 2½ days significant numbers of CD4⁺8⁺ and CD3⁺4⁺8⁻ cell populations developed, the latter expressing the αβ T-cell receptor (αβ-TCR). Thus heterogeneous stromal cell cultures support the development of IL-2R⁺ precursors and with these methods it will now be possible to isolate the particular stromal cells involved at each stromal-dependent step.     

Control of T-cell activation by CD4+ CD25+ suppressor T cells

Summary: Depletion of the minor (∼10%) subpopulation of CD4⁺ T cells that co-expresses CD25 (interleukin (IL)-2 receptor α-chain) by thymectomy of neonates on the third day of life or by treatment of adult CD4⁺ T cells with anti-CD25 and complement results in the development of organ-specific autoimmunity. Autoimmune disease can be prevented by reconstitution of the animals with CD4⁺ CD25⁺ cells. CD4⁺ CD25⁺-mediated protection of autoimmune gastritis does not require the suppressor cytokines IL-4, IL-10, or transforming growth factor (TGF)-β. Mice that express a transgenic T-cell receptor (TCR) derived from a thymectomized newborn that recognizes the gastric parietal cell antigen H/K ATPase all develop severe autoimmune gastritis very early in life. CD4⁺ CD25⁺ T cells are also powerful suppressors of the activation of both CD4⁺ and CD8⁺ T cells in vitro . Suppression is mediated by a cell contact-dependent, cytokine-independent T–T interaction. Activation of CD4⁺ CD25⁺ via their TCR generates suppressor effector cells that are capable of non-specifically suppressing the activation of any CD4⁺ or CD8⁺ T cell. Activation of suppressor effector function is independent of co-stimulation mediated by CD28/CTLA-4 interactions with CD80/CD86. We propose that CD4⁺ CD25⁺ T cells recognize organ-specific antigens, are recruited to sites of autoimmune damage where they are activated by their target antigen, and then physically interact with autoreactive CD4⁺ or CD8⁺ effector cells to suppress the development of autoimmune disease.     

CD25 Shedding by Human Natural Occurring CD4+CD25+ Regulatory T Cells does not Inhibit the Action of IL-2

Regulatory T (Treg) cells are important for the maintenance of peripheral tolerance and inhibition of pathogenic T-cell responses. Therefore, they are important for the limitation of chronic inflammation but can also be deleterious by e.g. limiting antitumour immune responses. Natural occurring Tregs are known to inhibit CD4⁺ T cell in a contact-dependent manner, but at the same time, various suppressive factors are secreted. We, here, demonstrate that human naturally occurring CD4⁺CD25⁺ Tregs are able to shed large amounts of soluble CD25 upon activation. Secretion of sCD25 could add to the inhibitory effect of Tregs as such secretion in other settings has been proposed to act as a sink for local IL-2. However, we here demonstrate that supernatant from human Tregs containing high concentration of sCD25 does not inhibit proliferation of CD4⁺CD25⁻ T cells or inhibit the action of IL-2 in an in vitro bioassay.     

CD4+CD25+ regulatory T cells: I. Phenotype and physiology

The immune system protects us against foreign pathogens. However, if fine discrimination between self and non-self is not carried out properly, immunological attacks against self may be launched leading to autoimmune diseases, estimated to afflict up to 5% of the population. During the last decade it has become increasingly clear that regulatory CD4⁺CD25⁺ T cells (T_reg cells) play an important role in the maintenance of immunological self-tolerance, and that this cell subset exerts its function by suppressing the proliferation or function of autoreactive T cells. Based on human and murine observations, this review presents a characterization of the phenotype and functions of the Treg cells in vitro and in vivo . An overview of the surface molecules associated with and the cytokines produced by the Treg cells is given and the origin, activation requirements and mode of action of the Treg cells are discussed. Finally, we address the possibility that Treg cells may play a central role in immune homeostasis, regulating not only autoimmune responses, but also immune responses toward foreign antigens.     

Natural CD4+ CD25+ regulatory T cells. Their role in the control of superantigen responses

Summary: CD4 regulatory T cells have a major role in controlling the immune response to self and foreign antigens. Natural CD4⁺ CD25⁺ T cells are a major component of the regulatory subset. Their absence is associated with the development of autoimmune and inflammatory diseases and with abnormal peripheral T-cell homeostasis. Two main characteristics discriminate natural CD4⁺ CD25⁺ T cells from their CD4⁺ CD25⁻ counterparts, namely their cytokine production profile and their behavior during tolerance induction. Natural CD4⁺ CD25⁺ T cells produce interleukin (IL)-10, a cytokine that contributes to their regulatory role. They do not produce IL-2 and are dependent on exogenous IL-2 for proliferation in vitro and in vivo . Studies of their response to superantigen administration in vivo show that they are resistant to clonal deletion but can be tolerized by anergy. Their resistance to apoptosis may contribute to their continuous regulatory function, as it allows them to maintain permanent control over effector T cells.     

Characterization of T-Cell Receptor Vβ Repertoire in Ovarian Tumour-Reacting CD3+ CD8+ CD4− CTL Lines

T cells from tumour infiltrating lymphocytes (TIL) cultured in media containing IL-2 were shown to mediate in vitro and in vivo antitumour responses. To characterize the T-cell antigen receptor (TCR) Vβ expression in autologous cytotoxic effectors we isolated CD3⁺ CD8⁺ CD4⁻ cells from cultures of TIL and tumour-associated lymphocytes (TAL) and analysed the TCR Vβ repertoire of CD3⁺ CD8⁺ CD4⁻ lines of known HLA-A, -B and -C phenotype, using polymerase chain reaction (PCR). These lines showed preferential lysis of autologous tumours and lysed, to a much lesser extent, NK and LAK cellsensitive targets. Tumour lysis was inhibited by antibodies to CD3 and MHC class I antigens indicating that they are cytotoxic T lymphocytes (CTL). These CD8⁺ CTL lines expressed a broad distribution of TCR Vβ repertoire which was dominated by particular groups of Vβ families in each CTL line. However, no predominant expression of one or the same Vβ segment in all CTL lines was observed although statistical correlations between Vβ family usage and magnitude of the antitumour cytolytic response were found. These results suggest that certain TCR Vβ families may be selected by antigen in ovarian tumour-reactive T cells and this selection may be affected by Ag expression, and/or host factors. To our knowledge, this is the first documentation of TCR Vβ repertoire of human ovarian tumour-reactive CD3⁺ CD8⁺ CD4⁻ CTL from different individuals of known HLA types.     

Unresponsiveness of CD4+ T Cells from a Non-Responder Strain to HgCl2 is Not Due to CD8+-Mediated Immunosuppression: an Analysis of the Very Early Activation Antigen CD69

Injections of HgCl₂ lead to autoimmune manifestations in genetically predisposed rats and mice. In this study, the authors examined the responsiveness of T subsets from different mouse strains to HgCl₂ by tracing their expression of the very early activation antigen CD69. The authors found increased expression of the CD69 antigen on CD4⁺ T cells from the responder A.SW and BALB/c mice, but not on CD4⁺ T cells from the non-responder DBA/2 mice, indicating an activation of T helper cells in the responder strains. However, the CD69 antigen was induced on CD8⁺ T cells from all strains irrespective whether they were susceptible or resistant to mercury-induced autoimmunity. Since CD8⁺ T cells have been described as mediating immunosuppression and as being responsible for the resistance to autoimmune induction by mercury, the authors tested whether CD8⁺ T cells inhibited the activation of CD4⁺ T cells by HgCl₂ in the non-responder strains. However, there was no evidence for a suppressive role of CD8⁺ T cells from the DBA/2 mice in the response to HgCl₂. The findings indicate that T helper cells play a central role in the immunological effects of HgCl₂ and unresponsiveness of T helper cells in the nonresponder strains is not due to CD8⁺-mediated immunosuppression.     

Restricted and Individual Usage of T-cell Receptor β-Gene Variables in Nickel-Induced CD4+ and CD8+ Cells

Nickel allergy is manifested as contact allergic eczema elicited by delayed-type hypersensitivity, the reaction being mediated by T lymphocytes. We examined the T-cell receptor (TCR) β-chain variable gene segment (Vβ) use of nickel-induced CD4⁺ and CD8⁺ T cells in the peripheral blood of nickel-sensitive and non-sensitized subjects. The results show that each patient had an individual Vβ repertoire overexpressed, these being in CD4⁺ cells Vβ10 and Vβ13 (in subject A); Vβ1, Vβ2, Vβ13 and Vβ21 (subject B); Vβ1 and Vβ10 (subject C); Vβ9 and Vβ19 (subject D). Thus, no single Vβ gene dominated in a majority of the CD4⁺ samples. The Vβ genes overexpressed in patient CD8⁺ nickel-induced T cells were Vβ1 (in subject A), Vβ1 (subject B), Vβ1 and Vβ2 (subject C) and Vβ7 (subject D), domination of Vβ1 being seen in most of the CD8⁺ samples (75%). No specific overexpression of any Vβ genes in the nickel-allergic subjects was found in comparison with the non-sensitized subjects. In conclusion, an individual pattern of restricted Vβ genes was induced with nickel in CD4⁺ and CD8⁺ T cells in each nickel allergy patient.     

T-Cell Receptor BJ Gene Segment Expression in Human Umbilical Cord Blood CD4+ and CD8+ T-Cell Subsets

By employing RT-PCR-based technology, followed by Southern-blot analysis, patterns of relative TCR BJ gene segment usage in human CD4⁺ and CD8⁺ umbilical cord blood T cells (UCT) from ten children were determined in relation to seven recombined TCR BV gene (sub) families (BV 3, 5S1, 6S1-3, 8, 9, 12 and 18). Normal frequency of usage of individual BJ members was observed to be extremely nonrandom. BJ usage in association with each BV was ranked and mean ranking values were calculated for individual BJs. Moreover, BJ family usage and family ranges as well as individual BJ over-representations were determined. In all these aspects of BJ exon expression, CD4⁺ and CD8⁺ UCT displayed similar distribution patterns. Comparisons of BJ usage in UCT subpopulations and in the adult peripheral blood lymphocyte (PBL) counterparts were performed and many similarities were observed. However, discrepancies in two parameters were recorded; contrary to observations in PBL, individual BJ over-representations were virtually absent in UCT, and significantly less wide BJ family ranges were demonstrated in CD8⁺ UCT relative to CD8⁺ PBL T cells. These differences support the notion that UCT are in a less dynamic state than are PBL T cells. Hence, despite the fact that PBL T cells are subjected to continuous antigenic challenge, the striking resemblance of PBL and UCT with regard to the overall individual relative usage, ranking, mean ranking and family utilisation of BJ gene segments, irrespective of the choice of recombined BV exons, may suggest a relatively nondiscriminatory role for the BJ gene product in antigen recognition as compared to those encoded by the BV, (N) and BD gene segments.     

Thymic differentiation of TCRαβ+ CD8αα+ IELs

Summary:  Intraepithelial lymphocytes (IELs) contain several subsets, but the origin of the T-cell receptor (TCR)αβ⁺ CD8αα⁺ IELs has been particularly controversial. Here we provide a synthesis, based on recent work, that attempts to unify the divergent views. The intestine has a primordial function in lymphopoiesis, and precursors with the potential to differentiate into T cells are found both in the epithelium and underlying lamina propria. Moreover, the thymus has been reported to export cells to the intestine that are not fully differentiated. TCRαβ⁺ CD8αα⁺ IELs can differentiate in the intestine from each of these sources, but in normal euthymic mice, the thymus appears to be the major source for TCRαβ⁺ CD8αα⁺ IELs. This unique IEL subset is a self-reactive population that requires exposure to self-agonists for selection in the thymus, similar to other regulatory T-cell populations. IELs transition through a double-positive (DP) intermediate in the thymus, but they originate from a subset of the DP cells that can be identified by its expression of CD8αα homodimers. The agonist-selected cells in the thymus are TCRβ⁺ but CD4 and CD8 double negative. The evidence suggests that reacquired expression of CD8αα and downregulation of CD5 occur after thymus export, perhaps in the intestine under the influence of interleukin-15. As a result of agonist exposure, a new gene expression program is activated. Therefore, the increased understanding of the developmental origin of TCRαβ⁺ CD8αα⁺ IELs may help us to understand how they participate in immune regulation and protection in the intestine.     

The Therapeutic Effect of Vasoactive Intestinal Peptide on Experimental Arthritis is Associated with CD4+CD25+ T Regulatory Cells

Vasoactive intestinal peptide (VIP) has been found to act as a potent anti-inflammatory factor through regulating the production of both anti- and pro-inflammatory mediators and promoting Th2-type responses. In this study, we used Chicken collagen II-induced experimental arthritis (CIA) model in Wistar rats to investigate the potential effects of VIP on rheumatoid arthritis. Our results showed that in vivo treatment of CIA-induced rats with VIP had great protective benefit at both clinical and histological levels. Disease suppression was associated with the inhibition of T cells proliferation, shifting of the immune response toward a Th2-type response and expanded CD4⁺CD25⁺ Treg in the periphery, which inhibited autoreactive T cell activation/expansion. In conclusion, the study provides evidence that VIP had great protective effect on CIA through its inhibition actions on pathogenic T cells.     

CD8+CD28− T suppressor cells and the induction of antigen-specific, antigen-presenting cell-mediated suppression of Th reactivity

Summary: Human CD8⁺CD28⁻ suppressor T cells (Ts) are a subset of T cells generated in the course of in vitro and in vivo immunizations. Ts recognize MHC class I:peptide complexes and inhibit the reactivity of T helper cells (Th) with cognate antigen specificity. We have demonstrated for the first time that CD8⁺CD28⁻ Ts represent a unique subset of regulatory cells that induces the differentiation of tolerogenic antigen-presenting cells, initiating a suppressive loop which results in the induction and spreading of Th unresponsiveness.     

T Helper-Independent Activation of Human CD8+ Cells: the Role of CD28 Costimulation

The concept that activation of MHC class I-restricted CD8⁺ cells entirely depends on help from MHC class II-restricted CD4⁺ T cells has recently been supplemented with an alternative model in which CD8⁺ cells can directly be activated by MHC class I-expressing professional antigen-presenting cells (APC), which are able to deliver an accessory signal. The authors analysed the role of CD28-mediated costimulation for T helper cell-independent activation of purified human CD8⁺ T cells in two different in vitro models. Freshly isolated CD8⁺ cells could be activated (proliferation, IL-2 production and cytotoxic activity) by anti-CD3-presenting FcγR⁺ mouse cells transfected with the human CD28 ligand, CD80, as the only accessory signal. On the other hand, activation of CD8⁺ cells by allogeneic MHC class I on EBV-transformed B cells, which express two different CD28 ligands, CD80 and CD86, also proceeded very efficiently (proliferation, cytotoxic activity and CD25 expression), but was either not, or only partially, blocked by anti-CD80 and anti-CD86 MoAb or CTLA-4Ig. This indicates that other costimulatory signals are also effective, and that CD28 triggering is not absolutely required for initial T-cell activation. CsA and CD80/CD86-blocking agents were synergistic in completely inhibiting activation of CD8⁺ cells in the MLR with allogeneic B-cell lines. This combination also induced non-responsiveness of CD8⁺ cells upon restimulation in the absence of blocking agents. Therefore, although professional APC can apparently provide multiple costimulatory signals for direct activation of CD8⁺ T cells, the signal derived from CD80/CD86 is unique in providing CsA-resistance.     

CD 127- and FoxP3+ expression on CD25+CD4+ T regulatory cells upon specific diabetogeneic stimulation in high-risk relatives of type 1 diabetes mellitus patients

Abnormalities in CD4⁺CD25⁺ regulatory T cells (Treg) may contribute to type 1 diabetes (T1D) development. First-degree relatives of T1D patients are at increased risk especially when they carry certain HLA II haplotypes. Using two novel markers of CD4⁺CD25⁺ Treg (CD127⁻ and FoxP3⁺ respectively), we evaluated number and function of Treg after specific stimulation with diabetogeneic autoantigens in 11 high-risk (according to HLA-linked risk) relatives of T1D patients and 14 age-matched healthy controls using a cytokine secretion assay based on interferon- γ (IFN- γ ) production. High-risk relatives of T1D patients had significantly lower pre- and post-stimulatory number of CD127⁻ Treg than that of healthy controls ( P  < 0.05). Labelling Treg with FoxP3⁺ demonstrated similar trend but did not reach statistical significance. Although the stimulation with diabetogenic autoantigens did not lead to a significant change in number of Treg in both groups, the defective function of Treg was performed by significantly higher activation of diabetogeneic T cells in high-risk relatives of T1D patients compared to healthy controls ( P  ≤ 0.02). Individuals at increased HLA-associated genetic risk for T1D showed defects in Treg.     

CD4+CD25+ regulatory T cells: II. Origin, disease models and clinical aspects

Autoimmune diseases afflict approximately 5% of the population and reflect a failure in the immune system to discriminate between self and non-self resulting in the breakdown of self-tolerance. Regulatory CD4⁺CD25⁺ T cells (T_reg cells) have been shown to play an important role in the maintenance of immune homeostasis and self-tolerance by counteracting the development and effector functions of potentially autoreactive T cells. We have in the previous APMIS review described the phenotype and physiology of T_reg cells. The present overview deals with the thymic origin of T_reg cells and their role in disease models such as autoimmune gastritis and inflammatory bowel disease. Finally, we will consider some aspects of the therapeutic potential of T_reg cells.     

CD8+ Cells are the Main Producers of IL10 and IFNγ after Superantigen Stimulation

Purified CD8⁺ T cells were recently shown to produce TH1 as well as TH2 types of cytokines upon restimulation, indicating an important role for these cells in regulation of immune responses. However, it is not known if the CD8⁺ cells would contribute to cytokine production in the presence of cytokine secreting CD4⁺ cells. In the present study the authors have investigated the proportion of cytokine-producing CD4⁺ and CD8⁺ cells in the spleen after in vitro or in vivo stimulation. They found that stimulation of spleen cells with the superantigen Staphylococcal Enterotoxin B (SEB) in the presence of IL4 promoted production of IL10 and IFNγ predominately by CD8⁺ cells. In contrast, the production of IL4 was almost exclusively confined to the CD4⁺ subset. When priming with SEB in vivo before subsequent restimulation in vitro , a protocol previously shown to induce anergy, up to 80% of the IL10 and IFNγ positive cell expressed the CD8 marker. Taken together, these results emphasize the important role of cytokine-producing CD8⁺ cells and indicate that CD4⁺ and CD8⁺ T cells may, in a given situation, produce distinct cytokines.