Murine regulatory T cells contain hyperproliferative and death-prone subsets with differential ICOS expression

Regulatory T cells (Treg) are crucial for self-tolerance. It has been an enigma that Treg exhibit an anergic phenotype reflected by hypoproliferation in vitro after TCR stimulation but undergo vigorous proliferation in vivo. We report in this study that murine Treg are prone to death but hyperproliferative in vitro and in vivo, which is different from conventional CD4(+)Foxp3(-) T cells (Tcon). During in vitro culture, most Treg die with or without TCR stimulation, correlated with constitutive activation of the intrinsic death pathway. However, a small portion of the Treg population is more sensitive to TCR stimulation, particularly weak stimulation, proliferates more vigorously than CD4(+) Tcon, and is resistant to activation-induced cell death. Treg proliferation is enhanced by IL-2 but is less dependent on CD28-mediated costimulation than that of Tcon. We demonstrate further that the surviving and proliferative Treg are ICOS(+) whereas the death-prone Treg are ICOS(-). Moreover, ICOS(+) Treg contain much stronger suppressive activity than that of ICOS(-) Treg. Our data indicate that massive death contributes to the anergic phenotype of Treg in vitro and suggest modulation of Treg survival as a therapeutic strategy for treatment of autoimmune diseases and cancer.     

Immature CD4+CD8+ thymocytes do not polarize lipid rafts in response to TCR-mediated signals

TCR-mediated stimulation induces activation and proliferation of mature T cells. When accompanied by signals through the costimulatory receptor CD28, TCR signals also result in the recruitment of cholesterol- and glycosphingolipid-rich membrane microdomains (lipid rafts), which are known to contain several molecules important for T cell signaling. Interestingly, immature CD4(+)CD8(+) thymocytes respond to TCR/CD28 costimulation not by proliferating, but by dying. In this study, we report that, although CD4(+)CD8(+) thymocytes polarize their actin cytoskeleton, they fail to recruit lipid rafts to the site of TCR/CD28 costimulation. We show that coupling of lipid raft mobilization to cytoskeletal reorganization can be mediated by phosphoinositide 3-kinase, and discuss the relevance of these findings to the interpretation of TCR signals by immature vs mature T cells.     

4-1BB costimulation promotes human T cell adhesion to fibronectin

CD28 and 4-1BB (CD137) are costimulatory molecules for T cells. In this study we investigated the role of 4-1BB in T cell adhesion to fibronectin (FN). Unlike CD28, 4-1BB is present in only a small subset of T cells prepared from fresh human peripheral blood mononuclear cells, but was induced after prolonged TCR/CD28 activation in vitro. 4-1BB-expressing T cells were characteristically unique in their strong responsiveness to FN. Anti-4-1BB cross-linking synergized CD28 costimulation by lowering the threshold of CD3 signal required for CD28-mediated maximal proliferative response. In addition to increasing proliferative responses, 4-1BB promoted T cell adhesion to FN in the presence of CD28 costimulation. 4-1BB-mediated cell adhesion to FN was blocked by anti-beta1 integrin, suggesting that 4-1BB mediates beta1 integrin activation. The role of 4-1BB in inducing CD4(+) T cell adhesion to FN was confirmed by showing that the human leukemic CD4(+) T cell line, Jurkat, when transfected with cDNA encoding 4-1BB, became adherent to FN with anti-4-1BB stimulation. Taken together, our results suggest that 4-1BB-promoted T cell adhesion to extracellular matrix proteins is an important postactivation process for T cell migration.     

CD99 costimulation up-regulates T cell receptor-mediated activation of JNK and AP-1

Although CD28 is the principal T cell costimulatory molecule for the T cell receptor, a number of other cell surface proteins have costimulatory functions and perform specific roles in different contexts. Here we analyzed the mechanism of CD99 costimulation of the T cell receptor. Cooperation of CD99 engagement with suboptimal TCR/CD3 signals resulted in greatly enhanced CD4+ T cell proliferation. CD99 costimulation also led to elevated expression of CD25 and GM1 on the CD4+ T cell surface within 3 days. In Jurkat TAg cells, CD99 costimulation led to increased apoptosis compared to stimulation with CD3 or CD99 alone. CD99 costimulation also augmented activation of MAP kinases, especially of JNK, and increased AP-1 activation was also observed using a luciferase reporter assay. These results show that CD99 has a costimulatory function for T cells and acts by a mechanism distinct from CD28.     

Itk is not essential for CD28 signaling in naive T cells

Itk, a member of the Tec family of tyrosine kinases, is critical for TCR signaling, leading to the activation of phospholipase C gamma1. Early biochemical studies performed in tumor cell lines also implicated Itk in CD28 signaling. These data were complemented by functional studies on primary Itk-/- T cells that suggested a negative role for Itk in CD28 signaling. In this report, we describe a thorough analysis of CD28-mediated responses in T cells lacking Itk. Using purified naive CD4+ T cells from Itk-/- mice, we examine a range of responses dependent on CD28 costimulation. We also analyze Akt and glycogen synthase kinase-3beta phosphorylation in response to stimulation of CD28 alone. Overall, these experiments demonstrate that CD28 signaling, as well as CD28-mediated costimulation of TCR signaling, function efficiently in the absence of Itk. These findings indicate that Itk is not essential for CD28 signaling in primary naive CD4+ T cells.     

CD28 costimulation accelerates IL-4 receptor sensitivity and IL-4-mediated Th2 differentiation.

The development of Th1 and Th2 cells is determined by the type of antigenic stimulation involved in the initial cell activation step. Evidence indicates that costimulatory signals, such as those delivered by CD28, play an important role in Th2 development, but little is known about how CD28 costimulation contributes to Th2 development. In this study, TCR cross-linking was insufficient for Th2 development, while the addition of CD28 costimulation drastically increased Th2 generation through the IL-4-mediated pathway. Th2 generation following CD28 costimulation was not simply explained by the enhancement of IL-4 production in naive T cells. To generate Th2 cells after TCR cross-linking only, it was necessary to add a 20- to 200-fold excess of IL-4 generated after TCR and CD28 stimulation. TCR cross-linking increased the expression level and binding property of the IL-4R, but enhanced the sensitivity to IL-4 only slightly. In contrast, as evidenced by the enhanced phosphorylation of Jak3, the IL-4Ralpha-chain, and STAT6 following IL-4 stimulation, CD28 costimulation increased IL-4R sensitivity without affecting its expression and binding property. This evidence of the enhancement of IL-4R sensitivity increases our understanding of how CD28 costimulation accelerates Th2 development.     

Increased expression of SLAM receptors SLAMF3 and SLAMF6 in systemic lupus erythematosus T lymphocytes promotes Th17 differentiation

Altered T cell function in systemic lupus erythematosus (SLE) is determined by various molecular and cellular abnormalities, including increased IL-17 production. Recent evidence suggests a crucial role for signaling lymphocyte activation molecules (SLAMs) in the expression of autoimmunity. In this study, we demonstrate that SLAMF3 and SLAMF6 expression is increased on the surface of SLE T cells compared with normal cells. SLAM coengagement with CD3 under Th17 polarizing conditions results in increased IL-17 production. SLAMF3 and SLAMF6 T cell surface expression and IL-17 levels significantly correlate with disease activity in SLE patients. Both naive and memory CD4(+) T cells produce more IL-17 in response to SLAM costimulation as compared with CD28 costimulation. In naive CD4(+) cells, IL-17 production after CD28 costimulation peaks on day 3, whereas costimulation with anti-SLAMF3 and anti-SLAMF6 Abs results in a prolonged and yet increasing production during 6 d. Unlike costimulation with anti-CD28, SLAM costimulation requires the presence of the adaptor molecule SLAM-associated protein. Thus, engagement of SLAMF3 and SLAMF6 along with Ag-mediated CD3/TCR stimulation represents an important source of IL-17 production, and disruption of this interaction with decoy receptors or blocking Abs should mitigate disease expression in SLE and other autoimmune conditions.     

T cell-signaling network analysis reveals distinct differences between CD28 and CD2 costimulation responses in various subsets and in the MAPK pathway between resting and activated regulatory T cells

To uncover signaling system differences between T cell stimuli and T cell subsets, phosphorylation status of 18 signaling proteins at six different time points following TCR triggering and CD28/CD2 costimulation was examined in human T cell subsets by phospho-epitope-specific flow cytometry of fluorescent cell barcoded samples, thereby providing a high-resolution signaling map. Compared with effector/memory T cells, naive T cells displayed stronger activation of proximal signaling molecules after TCR triggering alone. Conversely, distal phosphorylation events, like pErk and pS6-ribosomal protein, were stronger in effector/memory subsets. CD28 costimulation specifically induced signaling necessary for proper NF-κB activation, whereas CD2 signaled more strongly to S6-ribosomal protein. Analysis of resting regulatory T cells (rTregs; CD4(+)CD45RA(+)FOXP3(+)) and activated regulatory T cells (actTregs; CD4(+)CD45RA(-)FOXP3(++)) revealed that, although rTregs had low basal, but inducible, Erk activity, actTregs displayed high basal Erk phosphorylation and little or no Akt activation. Interestingly, the use of Mek inhibitors to block Erk activation inhibited activation-dependent FOXP3 upregulation in rTregs, their transition to actTregs, and the resulting increase in suppressive capacity. In summary, our systems approach unraveled distinct differences in signaling elicited by CD28 and CD2 costimulation and between rTregs and actTregs. Blocking rTreg transition to highly suppressive actTregs by Mek inhibitors might have future therapeutic applications.     

Homeostatic expansion occurs independently of costimulatory signals.

Naive T cells undergo homeostatic proliferation in lymphopenic mice, a process that involves TCR recognition of specific self peptide/MHC complexes. Since costimulation signals regulate the T cell response to foreign Ags, we asked whether they also regulate homeostatic expansion. We report in this study that homeostatic expansion of CD4 and CD8 T cells occurs independently of costimulation signals mediated through CD28/B7, CD40L/CD40, or 4-1BB/4-1BBL interactions. Using DO11.10 TCR transgenic T cells, we confirmed that CD28 expression was dispensable for homeostatic expansion, and showed that the presence of endogenous CD4(+)CD25(+) regulatory cells did not detectably influence homeostatic expansion. The implications of these findings with respect to regulation of T cell homeostasis and autoimmunity are discussed.     

Cutting edge: regulation of T cell activation threshold by CD28 costimulation through targeting Cbl-b for ubiquitination

Optimal T cell activation requires signaling through the TCR and CD28 costimulatory receptor. CD28 costimulation is believed to set the threshold for T cell activation. Recently, Cbl-b, a ubiquitin ligase, has been shown to negatively regulate CD28-dependent T cell activation. In this report, we show that CD28 costimulation selectively induces greater ubiquitination and degradation of Cbl-b in wild-type T cells than CD3 stimulation alone, and TCR-induced Cbl-b ubiquitination and degradation are significantly reduced in CD28-deficient T cells. Stimulation of CD28-deficient T cells with higher doses of anti-CD3 results in increased ubiquitination of Cbl-b, which correlates with enhanced T cell responses. Our results demonstrate that CD28 costimulation regulates the threshold for T cell activation, at least in part, by promoting Cbl-b ubiquitination and degradation.     

On CD28/CD40 ligand costimulation, common gamma-chain signals, and the alloimmune response

Activation and robust expansion of naive T cells often require T cell costimulatory signals and T cell growth factors. However, the precise growth and costimulation requirements for activation and expansion of CD4(+) and CD8(+) T cells in vivo in allograft response are still not clearly defined. In the present study, we critically examined the role of CD28/CD40 ligand (CD40L) costimulation and the common gamma-chain (gamma(c)) signals, a shared signaling component by receptors for all known T cell growth factors (i.e., IL-2, IL-4, IL-7, IL-9, IL-15, IL-21), in activation and expansion of CD4(+) and CD8(+) T cells in the allogeneic hosts. We found that CD28/CD40L costimulation and the gamma(c) signals are differentially involved in proliferation and clonal expansion of CD4(+) and CD8(+) T cells in response to alloantigen stimulation. CD8(+) T cells are highly dependent on the gamma(c) signals for survival, expansion, and functional maturation, whereas in vivo expansion of alloreactive CD4(+) T cells is largely gamma(c) independent. T cell costimulation via CD28 and CD40L, however, is necessary and sufficient for activation and expansion of CD4(+) T cells in vivo. In a skin transplant model, blocking both CD28/CD40L and the gamma(c) pathways induced prolonged skin allograft survival. Our study provides critical insights that the CD4 and CD8 compartments are most likely governed by distinct mechanisms in vivo, and targeting both costimulatory and gamma(c) signals may be highly effective in certain cytopathic conditions involving activation of both CD4(+) and CD8(+) T cells.     

Effective proliferation of human regulatory T cells requires a strong costimulatory CD28 signal that cannot be substituted by IL-2

The strength of immune repression by regulatory T (Treg) cells is thought to depend on the efficiency of Treg cell activation. The stimuli and their individual strength required to activate resting human Treg cells, however, have so far not been elucidated in detail. We reveal here that induction of proliferation of human CD4(+)C25(+) Treg cells requires an extraordinary strong CD28 costimulatory signal in addition to TCR/CD3 engagement. CD28 costimulation, noteworthy, cannot be substituted by IL-2 to induce proliferation of Treg cells, which is in contrast to CD4(+)CD25(-) T cells. IL-2, in contrast, prevents spontaneous apoptosis of Treg cells, but does not initiate their amplification. IL-2 and CD28 costimulation clearly exhibit disparate effects on Treg cells which are in contrast to those on CD4(+)CD25(-) T cells. Moreover, the prerequisites for Treg cell proliferation differ strikingly from those for effector T cells, implying a balanced orchestration in initiating and limiting a T cell immune response. In addition, data are of relevance for the design of therapeutic strategies involving IL-2 administration and CD28 costimulation.     

CD28 is not required for c-Jun N-terminal kinase activation in T cells.

Studies in Jurkat cells have shown that combined stimulation through the TCR and CD28 is required for activation of c-Jun N-terminal kinase (JNK), suggesting that JNK activity may mediate the costimulatory function of CD28. To examine the role of JNK signaling in CD28 costimulation in normal T cells, murine T cell clones and CD28(+/+) or CD28(-/-) TCR transgenic T cells were used. Although ligation with anti-CD28 mAb augmented JNK activation in Th1 and Th2 clones stimulated with low concentrations of anti-CD3 mAb, higher concentrations of anti-CD3 mAb alone were sufficient for JNK activation even in the absence of anti-CD28. JNK activity was comparably induced in both CD28(+/+) and CD28(-/-) 2C/recombinase-activating gene 2(RAG2)(-/-) T cells stimulated with anti-CD3 mAb alone, and with L(d)/peptide dimers, a direct alphabeta TCR ligand. Moreover, JNK activation was also detected in 2C/RAG2(-/-) T cells stimulated with P815 cells that express the relevant alloantigen L(d) whether or not B7-1 was coexpressed. However, IL-2 production by both Th1 clones and CD28(+/+) 2C/RAG2(-/-) T cells was detected only upon TCR and CD28 coengagement. Thus, CD28 coligation is not necessary, and stimulation through the TCR is sufficient, for JNK activation in normal murine T cells. The concept that JNK mediates the costimulatory function of CD28 needs to be reconsidered.     

A novel costimulation pathway via the 4C8 antigen for the induction of CD4+ regulatory T cells

CD4(+)CD25(+) regulatory T (Treg) cells naturally occur in mice and humans, and similar Treg cells can be induced in vivo and in vitro. However, the molecular mechanisms that mediate the generation of these Treg cell populations remain unknown. We previously described anti-4C8 mAbs that inhibit the postadhesive transendothelial migration of T cells through human endothelial cell monolayers. We demonstrate in this work that Treg cells are induced by costimulation of CD4(+) T cells with anti-CD3 plus anti-4C8. The costimulation induced full activation of CD4(+) T cells with high levels of IL-2 production and cellular expansion that were comparable to those obtained on costimulation by CD28. However, upon restimulation, 4C8-costimulated cells produced high levels of IL-10 but no IL-2 or IL-4, and maintained high expression levels of CD25 and intracellular CD152, as compared to CD28-costimulated cells. The former cells showed hyporesponsiveness to anti-CD3 stimulation and suppressed the activation of bystander T cells depending on cell contact but not IL-10 or TGF-beta. The suppressor cells developed from CD4(+)CD25(-)CD45RO(+) cells. The results suggest that 4C8 costimulation induces the generation of Treg cells that share phenotypic and functional features with CD4(+)CD25(+) T cells, and that CD25(-) memory T cells may differentiate into certain Treg cell subsets in the periphery.     

Direct ex vivo analysis of human CD4(+) memory T cell activation requirements at the single clonotype level

CD4(+) memory T cells continuously integrate signals transmitted through the TCR and costimulatory molecules, only responding when the intensity of such signals exceeds an intrinsic activation threshold. Recent data suggest that these activation thresholds can be regulated independently of TCR specificity, and that threshold tuning may constitute a major mechanism for controlling T cell effector activity. In this work we take advantage of the profound clonotypic hierarchies of the large human CD4(+) T cell response to CMV to study activation thresholds of fresh (unexpanded) memory T cells at the clonotypic level. We identified dominant responses to CMV matrix determinants mediated by single TCRB sequences within particular TCR-Vbeta families. The specific response characteristics of these single, Ag-specific, TCRB-defined clonotypes could be unequivocally determined in fresh PBMC preparations by cytokine flow cytometry with gating on the appropriate Vbeta family. These analyses revealed 1) optimal peptides capable of eliciting specific responses by themselves at doses as low as 2 pg/ml, with each log increase in dose eliciting ever-increasing frequencies of responding cells over a 4- to 5-log range; 2) significant augmentation of response frequencies at all submaximal peptide doses by CD28- and CD49d-mediated costimulation; 3) differential dose response and costimulatory characteristics for IFN-gamma and IL-2 responses; and 4) no association of activation requirements with the CD27-defined CD4(+) T cell memory differentiation pathway. Taken together these data confirm that triggering heterogeneity exists within individual CD4(+) memory T cell clonotypes in vivo and demonstrate that such single clonotypes can manifest qualitatively different functional responses depending on epitope dose and relative levels of costimulation.