Uncoupling IL-2 signals that regulate T cell proliferation, survival, and Fas-mediated activation-induced cell death.

IL-2 is an important growth and survival factor for T lymphocytes but also sensitizes these cells to Fas-mediated activation-induced cell death (AICD). The molecular basis of these different effects of IL-2 was studied by introducing wild-type and mutant forms of the IL-2 receptor beta (IL-2Rbeta) chain that lacked specific signaling capacities into receptor-deficient T cells by retroviral gene transfer. Activation of Stat5 by IL-2 was found to be involved in T cell proliferation and promoted Fas ligand (FasL) expression and AICD. T cell survival was dependent on a receptor region that activated Akt and the expression of Bcl-2. Thus, distinct IL-2Rbeta chain signaling modules regulate T cell fate by stimulating growth and survival or by promoting apoptosis.     

Global analysis of IL-2 target genes: identification of chromosomal clusters of expressed genes

T lymphocytes play a central role in controlling adaptive immune responses. IL-2 critically regulates both T cell growth and death and is involved in maintaining peripheral tolerance, but the molecules involved in these and other IL-2 actions are only partially known. We now provide a comprehensive compendium of the genes expressed in T cells and of those regulated by IL-2 based on a combination of DNA microarrays and serial analysis of gene expression (SAGE). The newly identified IL-2 target genes include many genes previously linked to apoptosis in other cellular systems that may contribute to IL-2-dependent survival functions. We also studied the mRNA expression of known regulators of signaling pathways for their induction in response to IL-2 in order to identify potential novel positive and/or negative feedback regulators of IL-2 signaling. We show that IL-2 regulates only a limited number of these genes. These include suppressors of cytokine signaling (SOCS) 1, SOCS2, dual-specificity phosphatase (DUSP) 5, DUSP6 and non-receptor type phosphatase-7 (PTPN7). Additionally, we provide evidence that many genes expressed in T cells locate in chromosomal clusters, and that select IL-2-regulated genes are located in at least two clusters, one at 5q31, a known cytokine gene cluster, and the other at 6p21.3, a region that contains genes encoding the tumor necrosis factor (TNF) superfamily members TNF, LT-alpha and LT-beta.     

P27kip1 regulates the cell cycle arrest and survival of activated T lymphocytes in response to interleukin-2 withdrawal

The majority of activated T lymphocytes undergo cell death at the end of a primary immune response, while a minority survive as memory cells. The mechanisms that control the decision between these two fates are unknown. In the present study we examined the response of activated T cells to interleukin-2 (IL-2) withdrawal. Within hours, the percentage of T lymphocytes in cell cycle showed a steady decrease, while the percentage arrested in G1 increased proportionally. Deprivation of IL-2 resulted in upregulation of the cell cycle inhibitor p27kip1. Comparison with resting T-cell populations revealed that the highest expression of p27kip1 occurs in activated T cells undergoing cell cycle arrest following IL-2 withdrawal. T cells deficient in p27kip1 expression showed an impaired ability to undergo cell cycle arrest in response to IL-2 deprivation. Moreover, T cells deficient in p27kip1 showed significantly more apoptosis after IL-2 withdrawal. Collectively, this study demonstrates that p27kip1 regulates both the cell cycle arrest and the apoptosis of antigen-specific T lymphocytes.     

Ras activation leads to cell proliferation or apoptotic cell death upon interleukin-2 stimulation or lymphokine deprivation,respectively

Lymphokine-dependent cells undergo apoptosis upon lymphokine withdrawal. We describe that lymphokine deprivation of the interleukin (IL)-2- or IL-4-dependent mouse T cell line TS1αβ induces Ras activation which plays a role in programed cell death, since blocking Ras activity reduces the induction of apoptosis. Induction of apoptosis by lymphokine deprivation can be prevented by expression of the Bcl-2 protein. Rescue from cell death by IL-2 also promotes Ras activation, but, in contrast to lymphokine withdrawal, stimulates Bcl-2 expression. IL-4-induced cell survival is Ras- and Bcl-2 independent. These results are compatible with a model in which cell proliferation requires the simultaneous induction of at least two pathways which act in combination to prevent cell death.     

Rescue of human T cells by interleukin-9 (IL-9) from IL-2 deprivation-induced apoptosis: correlation with alpha subunit expression of the IL-9 receptor.

Interleukin-9 (IL-9) is a Th2-derived cytokine that uses the gamma-chain of the IL-2 receptor for signaling. Therefore, the responsiveness of human Th1 and Th2 cell clones to IL-9 was measured by examining the ability of this cytokine to prevent apoptosis induced by IL-2 deprivation. A time course study demonstrated that both subsets of T cell clones underwent apoptosis with similar kinetics when deprived of IL-2 and that viability could be maintained by the addition of either IL-4 or IL-7. Interestingly, IL-9 prevented apoptosis in only 2 (Th2) of 14 clones tested. Analysis of IL-9R alpha subunit expression on 18 T cell clones revealed that IL-9 responsiveness was directly proportional to the expression of the high-affinity receptor. IL-9 responsiveness was also dependent on long-term culturing because neither freshly isolated nor 3-day phytohemagglutinin (PHA)-stimulated peripheral blood lymphocytes (PBL) expressed IL-9R alpha. In summary, the data showed that IL-9 can rescue only a small subset of Th2 cells from apoptosis induced by growth factor withdrawal and that expression of IL-9R alpha is required for the antiapoptotic signals mediated by this cytokine.     

CD3-mediated apoptosis of human medullary thymocytes and activated peripheral T cells: Respective roles of interleukin-1, interleukin-2, interferon-γ and accessory cells

Clonal deletion represents an important mechanism for the establishment of tolerance, by the elimination of autoreactive T cells. Deletion is accomplished by programmed cell death, termed apoptosis, induced by mobilization of the T cell receptor (TCR) on both thymocytes and mature T cells. The mechanism which drives T cells towards cell death or cell proliferation after TCR mobilization remains unclear. We show here that the mobilization of the CD3/TCR complex of both CD4⁺ and CD8⁺ single-positive medullary human thymocytes and human mature activated T cells, in the absence of accessory cells, leads to an activation-induced cell death process by apoptosis. In both cases, apoptosis was associated with interferon (IFN)-γ gene expression and secretion in the absence of interleukin (IL)-2 gene expression; and the addition of anti-IFN-γ antibody prevented cell death. Apoptosis could also be prevented by cyclosporin A (CsA) treatment and could be re-induced by the addition of IFN-γ to CsA-treated cells. Addition of IL-2 had two different effects, it prevented apoptosis and also allowed proliferation in response to CD3 monoclonal antibody. Addition of IL-1, which induces IL-2 gene expression and secretion or addition of accessory cells, had the same preventive effect. These results suggest that the uncoupling of IFN-γ and IL-2 gene expression following CD3/TCR mobilization initiates apoptosis of human T cells at several different stages during development and activation. We propose that co-signals provided by accessory cells allow a coupling of IL-2 gene and IFN-γ gene expression, and that an essential role for IL-2 secretion in T cell activation involves the inhibition of a death program induced by IFN-γ secretion.     

Triggering via the alternative CD2 pathway induces apoptosis in activated human T lymphocytes

Activation of immature thymocytes or transformed (i.e. leukemic) T lymphocytes via CD3/T cell receptor (TcR) signaling can induce programmed cell death (apoptosis). Recent data indicate that anti-CD3/TcR monoclonal antibodies (mAb) also trigger apoptosis in activated (but not resting) mature peripheral LT cells. We now report that interleukin-2 (IL-2) dependent human polyclonal T cell lines as well as T cell clones undergo programmed cell death when triggered via the alternative CD2-dependent activation pathway. In the presence of exogenous IL-2, a pair of mitogenic anti-CD2 mAb suppressed the IL-2-driven proliferative response. Growth inhibition was associated with cell death and DNA fragmentation as revealed by propidium iodide staining and gel electrophoresis, respectively. Induction of apoptosis by anti-CD2 mAb was prevented by cyclosporine A and FK 506. We conclude that programmed cell death can be initiated in activated human T cells by signaling via the CD2 pathway.     

Activation of T cells by superantigen: cytokine production but not apoptosis depends on MEK-1 activity

Engagement of the TCR may result in proliferation and cytokine release or programmed cell death. These two outcomes may be the consequence of distinct T cell receptor-coupled signal transduction pathways or may reflect quantitative differences in signaling strength via a single pathway. Here we show that genetic inhibition of MAP kinase kinase (MEK) by a dominant negative mutant or through chemical inhibition by PD98059 inhibits IL-2 secretion but not programmed cell death after TCR ligation by superantigen. This supports the hypothesis that T cell cytokine release and apoptosis result from signaling through distinct pathways and implies that the molecular signaling mechanisms regulating apoptosis of mature T cells and negative selection of thymocytes may be similar.     

Apoptosis by IL-2 deprivation in human CD8+ T cell blasts predominates over death receptor ligation, requires Bim expression and is associated with Mcl-1 loss

The mechanisms responsible for the down-modulation of the activation of separated CD4(+) or CD8(+) human T cell blasts were studied using cells obtained from healthy donors. In the absence of IL-2, human CD4(+) T cell blasts were sensitive to both FasL and Apo2L/TRAIL, but human CD8(+) T cell blasts died, with no additional effect of death receptor ligation. CD8(+) T cell blasts were more sensitive than CD4(+) T cell blasts to apoptosis induction by IL-2 deprivation, which was associated with a decrease in the expression of anti-apoptotic proteins of the Bcl-2 family, especially of Mcl-1 in CD8(+) T cell blasts. The maintenance of high levels of Bim expression was also necessary, since down-modulation of Bim expression by siRNA in normal human CD8(+) T cell blasts greatly reduced apoptosis by IL-2 deprivation. These data, together with previous works, point to an important role of the presence or absence of immuno-stimulatory cytokines in the type of regulation of human CD8(+) T cell responses (death by cytokine deprivation versus death receptor inhibition of cytokine-dependent growth).     

Taurine attenuates CD3/interleukin-2-induced T cell apoptosis in an in vitro model of activation-induced cell death (AICD)

Interleukin (IL)-2 immunotherapy is used for the treatment of metastatic melanoma and renal cell carcinoma and mediates its effects through the clonal expansion of lymphocytes. Although IL-2 remains the most effective form of therapy for these cancers, response rates are poor and dose escalation is hampered by side effects, which include vascular leak and lymphopenia. The mechanism underlying T cell loss is currently unidentified but could be the induction of activation-induced cell death (AICD) mediated by FasL. Our previous studies have shown that the amino acid taurine can attenuate apoptosis induced by a number of factors in different cell types. Here, we induced T cell AICD via CD3 and IL-2 stimulation and investigated the effect of taurine on lymphocyte apoptosis. Anti-CD3-activated Jurkat T cells treated with IL-2 significantly increased FasL expression, which was associated with increased apoptosis. Treatment with taurine prior to stimulation down-regulated FasL protein expression and partially inhibited apoptosis. Inhibition of FasL-signalling resulted in an identical reduction in apoptosis. As the kinetics of AICD are completely different in circulating T cells, we repeated these experiments in such cells to confirm our finding. Stimulation of CD4(+) circulating T cells induced apoptosis in sensitized, but not freshly isolated T cells, which was abrogated partially by taurine. In Jurkat cells it was determined that taurine-mediated down-regulation of FasL protein expression was associated with decreased FasL mRNA expression and reduced NFkappaB activation. These results reveal one possible mechanism underlying the lymphopenia observed with IL-2 immunotherapy, involving increased FasL expression leading to apoptosis. Taurine may be of use in reversing the lymphopenia associated with IL-2, thereby augmenting its immunotherapeutic potential.     

Enhanced apoptosis of T cells in common variable immunodeficiency (CVID): role of defective CD28 co-stimulation

CVID is a primary immune disorder in which hypogammaglobulinaemia may be associated with a number of T cell defects including lymphopenia, anergy, impaired lymphocyte proliferation and deficient cytokine secretion. In this study we show that T cells of CVID subjects, in comparison with control T cells, undergo spontaneous apoptosis in culture and markedly accelerated apoptosis after gamma-irradiation. Although costimulation of the CD28 receptor following engagement of the TCR/CD3 receptor normally provides a second signal necessary for IL-2 secretion, CD28 costimulation in CVID does not significantly increase IL-2 production, nor does this combination of activators enhance the survival of irradiated CVID T cells, as it does for cultured normal T cells. Addition of IL-2 enhances CVID T cell survival, suggesting that the IL-2 signalling pathways are normal. CVID T cells have similar expression of Bcl-2 to control T cells. CD3 stimulation up-regulates T cell expression of bcl-xL mRNA for normal T cells, but anti-CD28 does not augment bcl-xL expression for CVID subjects with accelerated apoptosis. Defects of the CD28 receptor pathway, leading to cytokine deprivation and dysregulation of bcl-xL, could lead to poor T cell viability and some of the cellular defects observed in CVID.     

IL-10 inhibits apoptotic cell death in human T cells starved of IL-2

IL-10 was originally described as an inhibitory factor producedby murine T_h2 lymphocytes that suppresses IFN- production byactivated murine T_h1 lymphocytes. In this study, we have analyzedthe effect of human IL-10 on human T cell death induced by IL-2deprivation. IL-2-dependent T lymphocytes rapidly die when deprivedof IL-2. This cell death was found to involve loss of cell volume,chromatin condensation, and DNA fragmentation, all characteristicof apoptosis. After 2 days incubation in culture medium withoutIL-2, the viability of TM11 cells (a tetanus toxoid-specificT cell line) and of activated peripheral blood T cells decreasedfrom >98% to 34.3 (±2.9) and 39.7 (±5.5)% respectively.Addition of purified human IL-10 (100 U/ml) to these IL-2-starvedcells significantly improved cell viability (66.0±6.0and 73.1±12.3% respectively, P=0.0051). This protectiveeffect of IL-10 was dose-dependent and was neutralized by theanti-human IL-10 mAb 19F1. It was neither accompanied by T cellgrowth stimulation as judged by [³H] thymidine incorporationnor neutralized by anti-IL-2 or anti-IL-2 receptor (CD25) antibodies.Analysis of DNA after separation on agarose gels revealed thatIL-10 inhibits DNA fragmentation in IL-2-starved T cells. Tcells protected from death by IL-10 were indistinguishable fromIL-10-untreated viable T cells in the ability to proliferatein response to IL-2. Thus, another property of IL-10 is to promotethe survival of IL-2-dependent T cells otherwise destined todie by apoptosis.     

Hypo-active variant of IL-2 and associated decreased T cell activation contribute to impaired apoptosis in autoimmune prone MRL mice

Apoptosis of activated lymphocytes is crucial to the maintenance of immune homeostasis and self-tolerance, as demonstrated by the well-known autoimmune MRL lpr mouse lacking the death receptor Fas. However, even MRL+/+ activated T cells have a resistance to Fas-mediated apoptosis as compared to T cells from the non-autoimmune FVB/N strain. To understand the molecular mechanisms underlying these strain differences, we studied biochemical characteristics of T cells upon activation. Compared to FVB/N T cells, MRL T cells under-expressed procaspase-3 but over-expressed FLIP(L). In addition, up-regulation of Bcl-x(L), IL-2, and CD25 was diminished in MRL cells, suggesting inadequate T cell activation. Upon finding that MRL, like other autoimmune strains NOD and SJL, has a hypo-active variant of the IL-2 gene, we added wild-type murine recombinant (mr)IL-2 during activation. Exogenous mrIL-2 restored MRL apoptosis to the level of FVB/N; in addition, expression of procaspase-3, and FLIP(L), Bcl-x(L) and CD25 was normalized. These results suggest that defective MRL T cell activation, in part due to hypo-active IL-2, underlies the impaired apoptosis of this strain. In addition, the hypo-active variant of IL-2 shared among autoimmune strains may, by causing diminished cell activation and cell death, predispose these strains to develop autoimmune disease.     

CD28 induces cell cycle progression by IL-2-independent down-regulation of p27kip1 expression in human peripheral T lymphocytes

CD28 is the primary T cell costimulatory receptor, and upon ligation with its ligands, it enhances T cell proliferation and IL-2 synthesis. In this study we examined the role of CD28 in the initial proliferative response and cell cycle entry of T lymphocytes. Stimulation through CD3 alone resulted in a poor proliferative response, while in the presence of CD28 costimulation a strong increase in the number of cells in S-phase could be detected after 48 h of stimulation. CD28 costimulation enhanced expression of cyclin D3 and induced down-regulation of p27kip1 expression. Cross-linking CD28 was much more effective in inducing cyclin D3 expression and in down-regulating p27kip1 expression than addition of IL-2. Blocking experiments, using antibodies that neutralize IL-2 or the IL-2 receptor, showed that the effects induced by CD28 are independent of endogenous IL-2. Moreover, using a variety of immunosuppressants that interfere with IL-2 signaling pathways, we were able to show that IL-2 is not required for cell cycle entry induced by CD28 costimulation. From these experiments it can be concluded that CD28 and IL-2 use different signaling pathways for down-regulation of p27kip1 expression. We hypothesize that costimulation through CD28 is responsible for initial cell cycle entry of T lymphocytes, while IL-2, which is produced after costimulation, might be involved in sustaining proliferation.