CD40/CD40L interaction regulates CD4+CD25+ T reg homeostasis through dendritic cell-produced IL-2

CD4+CD25+ regulatory T cells (T reg) development and homeostasis require IL-2 and costimulation through same TNF-receptor family members. CD40KO mice have reduced number of T reg in peripheral blood, thymus and spleen. Herein we show that naive T reg express low basal level of CD40L that is upregulated upon TCR-triggered mediated activation. Treatment of wt mice with Ab blocking CD40/CD40L interaction results in a fast decrease in T reg number that rapidly recovers upon Ab withdrawal. CFSE-labeled T reg from wt mice injected into CD40KO, but not wild-type (wt) mice, showed reduced survival and proliferation in homeostatic setting. In vitro, dendritic cells from CD40KO mice but not wt mice produce diminished amount of IL-2 upon T reg encounter and are impaired in expanding T reg, a defect corrected by the addition of rIL-2. Accordingly, four daily IL-2 administrations to CD40KO mice normalize T reg number by promoting both their survival and homeostatic proliferation. Such IL-2 effect is transient since T reg number returns to the low constitutive level described in CD40KO mice within 5 days upon IL-2 withdrawal thus suggesting that IL-2 is persistently needed to assure T reg homeostasis.     

Protection of CD8+ T cells from activation-induced cell death by IL-18

Role of IL-18 on proliferation and survival of CD8+ T cells, activated by immobilized anti-CD3 antibody (anti-CD3), was examined. Proliferation and survival of activated T cells, especially that of CD8+ T cells, were impaired by IL-18 deficiency [IL-18 knockout (KO)]. After 3 days of culture with anti-CD3, the number of living CD8+ T cells from IL-18KO mice was approximately 25% of that from wild-type (WT) mice but was increased to the same level as WT cells by the addition of IL-18. The expression of IL-18 receptors (IL-18Rs), particularly IL-18Rbeta chain, in na?ve CD8+ T cells was very low but elevated after stimulation with anti-CD3. Blockade of IL-18R by anti-IL-18R antibody on activated WT CD8+ T cells resulted in reduction of living cells, suggesting that IL-18 promotes survival of proliferating CD8+ T cells. Levels of Bcl-2 in activated IL-18KO CD8+ T cells were lower than those in WT cells but were raised by exogenous IL-18. Blockade of IL-18R on WT CD8+ T cells decreased the expression of surface markers CD122 and CD94, which are related to cell viability, and the expression of these markers was increased by exogenous IL-18 in IL-18KO cells. These results suggest that IL-18 acts directly on activated CD8+ T cells through IL-18Rs and promotes their survival to expand the population.     

Expression of IL-2R, IL-4R, IL-6R on peripheral blood lymphocytes in systemic lupus erythematosus and correlation with disease activity: a prospective study.

AIMS: To study the expression of interleukin-2 receptor (IL-2R), interleukin-4 receptor (IL-4R) and interleukin-6 receptor (IL-6R) on peripheral blood lymphocytes (PBL) in patients with systemic lupus erythematosus (SLE); to correlate the level of expression of these receptors with SLE disease activity. METHODS: Peripheral blood lymphocytes were studied by a high sensitivity flow cytometry technique using monoclonal antibodies directed against CD25 (IL-2R alpha chain), CD122 (IL-2R beta chain), CD124 (IL-4R), and CD126 (IL-6R). SLE disease activity was scored using the SLE Disease Activity Index, C3 and C4 concentrations, anti-dsDNA level, and absolute lymphocyte count. RESULTS: Compared with normal controls, PBL from patients with SLE had a higher percentage of CD25+ cells (median 20.8% v 16.5%) and a lower percentage of CD122+ cells (median 13.1% v 22.4%). The difference in CD122+ cells was greater in the CD122weak population than the CD122strong (natural killer cell) population. The percentages of CD124+ and CD126+ PBLs in patients with SLE and controls were similar. On CD25+ cells, the relative antigenic level of the IL-2R alpha chain was significantly higher in patients with SLE (median 2.01 v 1.81). The relative antigenic levels of CD122+, CD124+ and CD126+ cells were similar in patients and controls. Neither the percentages nor the relative antigenic levels of all of these cytokine receptors were correlated with any of the parameters of disease activity. CONCLUSION: Lymphocyte activation in patients with SLE was evident from the increase in CD25 expression on PBL, with a reciprocal decrease in CD122 expression. As the expression of IL-2R, IL-4R, IL-6R did not correlate with disease activity, it seems that these cytokine/receptor systems do not play a direct role in disease activation in SLE.     

Does the IL-2 receptor alpha chain induced on dendritic cells have a biological function?

The IL-2 receptor (IL-2R) alpha chain (CD25), but not the IL-2R beta chain, is induced on dendritic cells (DC) by brief periods of culture. To test if this IL-2R alpha is important for DC function, DC were isolated from the spleens of mutant mice with the IL-2R alpha gene disrupted and compared with normal DC for ability to stimulate proliferation of allogeneic CD4 and CD8 T cells in culture. The IL-2R alpha null DC and the normal DC produced nearly identical proliferative responses from CD4 and from CD8 T cells. When the CD8 alpha+ and CD8 alpha- subsets of the IL-2R alpha null DC were separated, they also produced proliferative responses similar to that of their normal DC counterparts. Overall there was no evidence that the inducible IL-2R alpha on DC was required for DC development, for stimulation of T cells or for regulation of T cell responses.      

CD25+ CD4+ T cells compete with naive CD4+ T cells for IL-2 and exploit it for the induction of IL-10 production

Maintenance of homeostasis in the immune system involves competition for resources between T lymphocytes, which avoids the development of immune pathology seen in lymphopenic mice. CD25+ CD4+ T cells are important for homeostasis, but there is as yet no consensus on their mechanisms of action. Although CD25+ CD4+ T cells cause substantial down-regulation of IL-2 mRNA in responder T cells in an in vitro co-culture system, the presence of IL-protein can be demonstrated by intracellular staining. As a consequence of competition for IL-2, CD25+ CD4+ T cells further up-regulate the IL-2R alpha chain (CD25), a process that is strictly dependent on IL-2, whereas responder T cells fail to up-regulate CD25. Similarly, adoptive transfer into lymphopenic mice showed that CD25+ CD4+ T cells interfere with CD25 up-regulation on co-transferred naive T cells, while increasing their own CD25 levels. IL-2 sequestration by CD25+ CD4+ T cells is not a passive phenomenon but instead initiates--in conjunction with signals through the TCR--their differentiation to IL-10 production. Although IL-10 is not required for in vitro suppression, it is vital for the in vivo function of regulatory T cells. Our data provide a link explaining the apparent difference in regulatory mechanisms in vitro and in vivo.     

Expression and role of interleukin-2 receptor beta chain on CD4-CD8- T cell receptor alpha beta+ cells [corrected]

Using anti-murine interleukin-2 receptor beta chain (IL-2R beta) monoclonal antibody (mAb), we have examined the expression of IL-2R beta on murine thymocyte subpopulations. We found that it was constitutively expressed on 1%-4% of thymocytes in an almost mutually exclusive fashion with IL-2R alpha. The expression of IL-2R beta is developmentally regulated. While it is expressed mainly on T cell receptor gamma delta+ (TcR gamma delta+) cells during fetal age, the major subpopulation expressing IL-2R beta in adult mouse shifts to CD4-CD8-TcR alpha beta+ thymocytes. A considerable portion of CD4-CD8- TcR alpha beta+ cells in other organs, including spleen, bone marrow and liver, was also found to express IL-2R beta. In fetal thymus organ culture, the above thymocyte subset was induced to expand in response to exogeneous IL-2, and the expansion was inhibited by addition of anti-IL-2R beta mAb, suggesting that IL-2R beta is functional in this subpopulation. However, in vivo blockade of the IL-2/IL-2R pathway with the mAb did not exert any effects on the appearance of CD4-CD8- TcR alpha beta+ cells both in the thymus and the periphery. This indicates that the development of CD4-CD8- TcR alpha beta+ cells is not solely controlled by IL-2 but also by other complex elements.     

Critical role of IL-2 and TGF-beta in generation, function and stabilization of Foxp3+CD4+ Treg

CD4+Foxp3+ Treg consist of two indistinguishable subsets induced in either the thymus or the periphery. In addition to their suppressive activities, IL-6 can convert natural Treg to pro-inflammatory IL-17-producing cells, but those induced with IL-2 and TGF-beta remain Treg. Unlike mouse CD4+CD25(-) cells, which rapidly become polyclonal Foxp3+CD25+ Treg when activated appropriately with IL-2 and TGF-beta, human T cells require multiple stimulations to become similar suppressor cells.     

Role of IL-2 in rat fetal thymocyte development

Early during rat thymus ontogeny, an important proportion of thymocytes expresses IL-2R and contains IL-2 mRNA. To investigate the role of the IL-2-IL-2R complex in rat T cell maturation, we supplied either recombinant rat IL-2 or blocking anti-CD25 mAb to rat fetal thymus organ cultures (FTOC) under several experimental conditions. The IL-2 treatment initially stimulated the growth of thymocytes and, as a result, induced T cell differentiation, but the continuous addition of IL-2 to rat FTOC, as well as the anti-CD25 administration, resulted in cell number decrease and inhibition of thymocyte maturation. These results indicate that immature rat thymocytes bear functional high- affinity IL-2R and that IL-2 promotes T cell differentiation as a consequence of its capacity to stimulate cell proliferation. Modifications in TCR alpha beta repertoire and increased numbers of NKR- P1+ cells, largely NK cells, were also observed in IL-2-treated FTOC. Furthermore, IL-2-responsiveness of different thymocyte subsets changed throughout thymic ontogeny. Immature CD4-CD8-cells responded to IL-2 in two stages, early in thymus development and around birth, in correlation with the maturation of two distinct waves of thymic cell progenitors. Mature CD8+ thymocytes maximally responded to IL-2 around birth, supporting a role for IL-2 in the increased proliferation of mature thymocytes observed in vivo in the perinatal period. Taken together, these findings support a role for IL-2 in rat T cell development.      

IL-2 Family of Cytokines in T Regulatory Cell Development and Homeostasis

Introduction  Interleukin 2 (IL-2) induces an essential signal for T regulatory (Treg) cells. Without a functional IL-2R, only immature CD4⁺ Foxp3^low CD25^neg T cells develop, and these cells fail to suppress autoreactive T cells in the periphery. Discussion  IL-2 functions during Treg cell development by upregulating Foxp3 and CD25 and by increasing the number of thymic Treg cells. Upon exiting the thymus during neonatal life, IL-2 is responsible for rapid amplification of the number of Treg cells in peripheral lymph nodes to insure suppression of autoreactive T cells that escape negative selection, thereby maintaining tolerance. The homeostasis of Treg cells in mature immunocompetent mice also depends on IL-2. However, there is an alternative mechanism for Treg cells homeostasis that may represent a minor IL-2-independent pathway or the consequence of weak and very transient IL-2R signaling. Conclusion  Thus, IL-2 provides importance signals for Treg cell development and for their homeostasis in peripheral immune tissues.     

Enhanced IL-10 production by CD4+ T cells primed in IL-15Rα-deficient mice

In this study, we investigated the functional outcomes of CD4(+) T cells primed in the absence of IL-15 transpresentation. Compared with their WT counterparts primed in WT mice, IL-15Rα KO CD4(+) T cells primed in KO mice were found to exclusively overproduce IL-10 upon in vitro restimulation(.) The comparable expression of IL-4 and Foxp3 in CD4(+) T cells primed in the WT and IL-15Rα KO mice indicated that this was neither due to T(H) 2- nor Treg cell-differentiation. IL-10 overproduction was also observed when OVA-specific TCR transgenic CD4(+) T (OT-II) cells were primed in KO mice, excluding an intrinsic deficiency of KO CD4(+) T cells. To investigate the WT and KO microenvironment, DCs from both WT and IL-15Rα KO mice were compared. DCs from both backgrounds were indistinguishable in their steady-state survival and in their expression of MHC class II and costimulatory molecules CD80, CD86, and CD40. However, IL-15Rα KO DCs primed OT-II cells in vitro to produce higher levels of IL-10 upon their restimulation. Additionally, IL-15Rα KO DCs produced significantly more IL-10 upon activation, and IL-10 neutralization during DC-mediated in vitro priming abolished IL-10 overproduction by CD4(+) T cells. Thus, IL-15Rα KO DCs provide an IL-10-enriched environment that preferentially primes CD4(+) T cells for more IL-10 production, highlighting a regulatory role for IL-15 transpresentation in CD4(+) T-cell priming.     

IL-10 enhances expression of the IL-2 receptor alpha chain on T cells.

Interleukin-10 (IL-10) has various immunomodulatory actions depending on the target cell type. Some of these effects have been shown to be owing to its ability to down-regulate surface expression of markers, for example HLA-DR on macrophages and CD25 (IL-2 receptor alpha chain) on B cells. In this report we show that preincubation of IL-10 for 24 hr up-regulates expression of the activation marker CD25, but not HLA-DR on cloned T cells of various phenotypes such as CD4+, CD8+, CD4- CD8- alpha beta and gamma delta T-cell receptor (TCR)-expressing cells. This up-regulation of CD25 was accompanied by an increase in the T cells IL-2-dependent proliferative response in 63% of the CD4+ clones and 100% of the CD8+, CD4-, CD8- alpha beta and gamma delta TCR+ clones analysed. IL-10 was also shown to be at least partly responsible for the up-regulation of CD25 on mitogen-activated peripheral blood mononuclear cells, suggesting that IL-10 has this CD25 modulatory effect within a more physiological environment. Our data suggest that IL-10 can have a multitude of effects on human T cells, and should not be considered exclusively as an immunoinhibitory cytokine.     

Reactivity of naive CD4+CD25- T cells against gut microflora in healthy mice

We have previously shown that conventional as well as germ-free CD4+ T cells depleted of CD25+ cells from the gut-associated lymphoid tissue and the periphery proliferate specifically in response to enterobacterial antigen exposure whereas unfractionated CD4+ T cells are not reactive under these conditions. Here we show that the majority of the enteroantigen-specific CD4+ CD25- T cells are naive cells expressing a CD45RB high, CD62L high and CD44 low phenotype. These cells are also present in the thymus and data from adult thymectomized mice show that they represent late (>6 weeks) thymic emigrants. Upon enteroantigen activation, the CD4+ CD25- T cells secrete IL-4, IL-5, IL-10, granulocyte macrophage colony-stimulating factor, tumor necrosis factor-alpha and IFN-gamma. Clonotype mapping of the TCRBV regions 1-18 of enteroantigen-reactive CD4+ CD25- T cells by TCR clonotype mapping revealed the polyclonal nature of this subset. In conclusion, we have for the first time demonstrated the presence of an evolutionary, functionally conserved subset of CD4+ T cells, which are reactive against enterobacterial antigens. This subset resides both in the thymus and the periphery; it is not dependent on previous antigen experience and represents late thymic emigrants, which by enteroantigen-induced activation express a mixed Th 1-Th 2 phenotype. At homeostatic conditions, CD25+ T cells maintain peripheral tolerance in this CD4+ T cell subset.     

Differential effects of IL-2 and IL-6 on the development of three distinct precursor T-cell populations in the thymus

Three distinct T-cell precursors: bone marrow cells that express low levels of the Thy-1 antigen but no lineage markers (Thy-1-lo/BM); CD4-, CD8-, and CD3- thymocytes that express low levels of the Thy-1 antigen (Thy-1-lo/Thym); and CD4-, CD8-, and CD3- thymocytes that express high levels of the Thy-1 antigen and the IL-2 R alpha chain (Thy-1+/IL2R+) were isolated by fluorescence-activated cell sorter (FACS). These three populations expanded with different kinetics in the thymus of irradiated recipient mice after intrathymic transfer. When a high dose of human recombinant IL-2 (r-IL-2) or human recombinant IL-6 (r-IL-6) was administered, r-IL-6 accelerated donor Thy-1+/IL2R+ to differentiate, whereas r-IL-2 blocked normal differentiation and expansion of donor Thy-1-lo/Thym, but did not show any significant effect on donor Thy-1+/IL2R+. Neither r-IL-2 nor r-IL-6 worked directly on donor Thy-1-lo/BM in this transfer system.     

Preferential expression of IL-2 receptor subunits on memory populations within CD4+ and CD8+ T cells.

Using anti-Tac and anti-Mik-beta 1 monoclonal antibodies to alpha and beta subunits of the interleukin-2 receptor (IL-2R), respectively, a marked difference in expression of IL-2R subunits on blood CD4+ and CD8+ T cells was demonstrated between adults and newborns. In the adult blood, reciprocal expression of IL-2R alpha and IL-2R beta was observed in CD4+ and CD8+ T cells. Some CD4+ T cells expressing IL-2R alpha were often detected, but IL-2R beta + CD4+ cells were very few. On the other hand, CD8+ T cells expressed significant IL-2R beta but little IL-2R alpha. In marked contrast to adult individuals, both CD4+ and CD8+ T cells from the newborns, which seemed to consist mainly of naive populations, showed only negligible expression of IL-2R subunits. It was found that IL-2R subunits appeared to be preferentially expressed on CD4+ and CD8+ T cells with memory phenotypes in the adult blood. Isolated memory (CD45RO+) CD4+ and CD8+ T cells, unlike naive (CD45RO-) ones, were able to proliferate in response to exogenous IL-2 as well as the recall antigen. The present results suggest that IL-2R subunits expressed on circulating T-cell subsets may play an important role in memory T-cell function.     

Blockade of IL-6-signaling inhibits the pathogenesis of CD4+ T cell-mediated lethal graft-versus-host reaction against minor histocompatibility antigen

Graft-versus-host reaction (GVHR) is considered as a problem in hematopoietic cell transplantation. We found that CD45RB(high) CD62L(+) na?ve CD4(+) T cells from wild-type B10D2 (H-2d MMTV6(-)) mice immediately differentiated into effector T cells producing high-levels of various cytokines after the transfer into BALB/c RAG2(-/-) (H-2d MMTV6(+)) mice. The expanded CD4(+) T cells, which have almost TCR Vβ3 chain, recognized the minor antigen of recipient mice and brought typical severe GVHR symptoms such as eyelid irritation, diarrhea, and liver failure. Eventually, all of the recipient mice transferred CD4(+) T cells was dead within 10 days. We demonstrated here that blockade of IL-6 signaling by administration of anti-IL-6 receptor (IL-6R) monoclonal antibody (mAb) remarkably inhibited the CD4(+) T cell-mediated lethal GVHR. In addition, we confirmed that the in vivo injection of anti-IL-6R mAb prevented the generation of effector CD4(+) T cells which produce the inflammatory cytokines such as IFN-γ, TNF-α, and IL-17. These findings indicated that IL-6 was a critical factor in the CD4(+) T cell-dependent acute GVHR induced by a minor-antigen, suggesting that IL-6-mediated signaling pathway would be a strong therapeutic target in T cell-mediated GVHR as well as other diseases including autoimmune and inflammation.     

IL-2Rbeta links IL-2R signaling with Foxp3 expression

Immunological tolerance to self antigens is a tightly regulated process. Recent work has demonstrated that the forkhead family member Foxp3 is a critical element in the differentiation and function of mouse CD4(+)CD25(+) regulatory T cells (Treg). Recent work has suggested an important role for IL-2 in the development and maintenance of Treg. To directly assess the effect of IL-2 signaling on Treg development and function, we analyzed mice that were genetically deficient in components of the IL-2 receptor (IL-2R). Mice lacking CD25 (IL-2Ralpha) displayed a slight decrease in Treg within the thymus, while peripheral numbers are unchanged. In contrast, we found that mice deficient in CD122 (IL-2Rbeta) had a profound reduction in both thymic and peripheral Treg, coinciding with more rapid development of a fatal lymphoproliferative disease. Expression of a Foxp3 transgene restored Treg and protected against the onset of autoimmunity. Thus, a signal mediated by IL-2Rbeta is essential for the development and homeostasis of Foxp3(+) Treg in vivo.     

CD4 regulatory T cells prevent lethal autoimmunity in IL-2Rbeta-deficient mice. Implications for the nonredundant function of IL-2

Lethal autoimmunity associated with IL-2Rbeta-deficient mice is prevented after thymic transgenic expression of wild-type IL-2Rbeta in IL-2Rbeta(-/-) mice (Tg -/- mice). Here, we show that CD4(+)CD25(+) regulatory T cells were not readily detected in IL-2Rbeta(-/-) mice, but the production of functional CD4(+)CD25(+) T cells was reconstituted in Tg -/- mice. Adoptive transfer of normal CD4(+)CD25(+) T cells into neonatal IL-2Rbeta-deficient mice prevented this lethal autoimmune syndrome. The CD4(+)CD25(+) T cells in disease-free adult IL-2Rbeta-deficient recipient mice were present at a near normal frequency, were solely donor-derived, and depended on IL-2 for expansion. These observations indicate that the essential function of the IL-2/IL-2R system primarily lies at the level of the production of CD4(+)CD25(+) regulatory T cells.     

Prolongation of allograft survival by administration of mAb specific for the three subunits of IL-2 receptor

The IL-2 receptor (IL-2R) gamma chain, the so-called common gamma (gamma(c)) chain, which is shared with multiple cytokine receptors, plays important roles in the immune system. Here we assessed the immunosuppressive ability of mAb specific for the gamma(c) chain in induction of cytotoxic T lymphocytes (CTL) and allograft rejection in combination with mAb specific for the alpha and beta chains of IL-2R. CBA/N (H-2k) mice were injected i.p. with allogeneic splenocytes from BALB/c (H-2d) mice, and then administered with combinations of anti-IL- 2R alpha, anti-IL-2R beta and anti-gamma(c) mAb or a control mAb. Addition of anti-gamma(c) mAb together with anti-IL-2R alpha and anti- IL-2R beta mAb induced a complete inhibition of CTL response. The numbers and populations of CD4+ CD8- and CD4- CD8+ T cells were not significantly affected by administration of the three anti-IL-2R mAb, whereas NK cells were completely depleted in spleens of mice treated with the anti-IL-2R mAb. Furthermore, skin allograft survival was also significantly prolonged by administration of the three anti-IL-2R mAb. These results suggest that the anti-gamma(c) mAb in combination with anti-IL-2R alpha and anti-IL-2R beta mAb is capable of suppressing induction of CTL and NK cells, resulting in prolongation of skin allograft survival.