Memory CD8+ T cells require CD28 costimulation

CD8(+) T cells are a critical component of the adaptive immune response against infections and tumors. A current paradigm in immunology is that naive CD8(+) T cells require CD28 costimulation, whereas memory CD8(+) T cells do not. We show here, however, that during viral infections of mice, costimulation is required in vivo for the reactivation of memory CD8(+) T cells. In the absence of CD28 costimulation, secondary CD8(+) T cell responses are greatly reduced and this impairs viral clearance. The failure of CD8(+) T cells to expand in the absence of CD28 costimulation is CD4(+) T cell help independent and is accompanied by a failure to down-regulate Bcl-2 and by cell cycle arrest. This requirement for CD28 costimulation was shown in both influenza A and HSV infections. Thus, contrary to current dogma, memory CD8(+) T cells require CD28 costimulation to generate maximal secondary responses against pathogens. Importantly, this CD28 requirement was shown in the context of real infections were multiple other cytokines and costimulators may be up-regulated. Our findings have important implications for pathogens, such as HIV and measles virus, and tumors that evade the immune response by failing to provide CD28 costimulation. These findings also raise questions about the efficacy of CD8(+) T cell-based vaccines against such pathogens and tumors.     

CD28 regulates glucocorticoid-induced TNF receptor family-related gene expression on CD4+ T cells via IL-2-dependent mechanisms

The glucocorticoid-induced TNF-related gene receptor (GITR) is the newest member of the costimulatory molecule family and is expressed on both resting CD4+CD25+ regulatory T (T(R)) cells and activated CD4+ T cells. We investigated the endogenous mechanisms that regulate GITR expression on both T(R) and CD4+ T cells, as well as the functional interaction between GITR and other costimulatory molecules. CD28 stimulation increased GITR expression on both T(R) and CD4+ T cells via IL-2-dependent mechanisms. In addition, ligation of GITR and/or CD28 increased the level of CD4+ T cell proliferation and effector function under both APC-dependent and -independent conditions, suggesting that these costimulatory molecules cooperate to regulate CD4+ T cell activation and function by directly signaling to the CD4+ T cell. Thus, GITR may serve opposing functional roles on CD4+ T(R) and effector cells and alterations in GITR expression and/or function may tip the balance between immune tolerance and effector function.     

Enhancement of CD8+ T cell responses by ICOS/B7h costimulation.

Although the recently identified ICOS/B7h costimulatory counterreceptors are critical regulators of CD4(+) T cell responses, their ability to regulate CD8(+) responses is unclear. Here we report using a tumor-rejection model that ectopic B7h expression can costimulate rejection by CD8(+) T cells in the absence of CD4(+) T cells. Although responses of naive T cells were significantly augmented by priming with B7h, B7h was surprisingly effective in mobilizing recall responses of adoptively transferred T cells. To explore why secondary responses of CD8(+) T cells were particularly enhanced by B7h, kinetics of ICOS up-regulation, proliferative responses, and cytokine production were compared from both naive and rechallenged 2C-transgenic T cells costimulated in vitro. Although B7h costimulated proliferative responses from both CD8(+) populations, rechallenged cells were preferentially costimulated for IL-2 and IFN-gamma production. These results indicate that ICOS/B7h counterreceptors likely function in vivo to enhance secondary responses by CD8(+) T cells.     

Glucocorticoid-induced TNFR-related protein lowers the threshold of CD28 costimulation in CD8+ T cells

CD28 is well characterized as a costimulatory molecule in T cell activation. Recent evidences indicate that TNFR superfamily members, including glucocorticoid-induced TNFR-related protein (GITR), act as costimulatory molecules. In this study, the relationship between GITR and CD28 has been investigated in murine CD8(+) T cells. When suboptimal doses of anti-CD3 Ab were used, the absence of GITR lowered CD28-induced activation in these cells whereas the lack of CD28 did not affect the response of CD8(+) T cells to GITR costimulus. In fact, costimulation of CD28 in anti-CD3-activated GITR(-/-) CD8(+) T cells resulted in an impaired increase of proliferation, impaired protection from apoptosis, and an impaired rise of activation molecules such as IL-2R, IL-2, and IFN-gamma. Most notably, CD28-costimulated GITR(-/-) CD8(+) T cells revealed lower NF-kappaB activation. As a consequence, up-regulation of Bcl-x(L), one of the major target proteins of CD28-dependent NF-kappaB activation, was defective in costimulated GITR(-/-) CD8(+) T cells. What contributed to the response to CD28 ligation in CD8(+) T cells was the early up-regulation of GITR ligand on the same cells, the effect of which was blocked by the addition of a recombinant GITR-Fc protein. Our results indicate that GITR influences CD8(+) T cell response to CD28 costimulation, lowering the threshold of CD8(+) T cell activation.     

CD4+ T cell-induced differentiation of EBV-transformed lymphoblastoid cells is associated with diminished recognition by EBV-specific CD8+ cytotoxic T cells

EBV transformation of human B cells in vitro results in establishment of immortalized cell lines (lymphoblastoid cell lines (LCL)) that express viral transformation-associated latent genes and exhibit a fixed, lymphoblastoid phenotype. In this report, we show that CD4(+) T cells can modify the differentiation state of EBV-transformed LCL. Coculture of LCL with EBV-specific CD4(+) T cells resulted in an altered phenotype, characterized by elevated CD38 expression and decreased proliferation rate. Relative to control LCL, the cocultured LCL were markedly less susceptible to lysis by EBV-specific CD8(+) CTL. In contrast, CD4(+) T cell-induced differentiation of LCL did not diminish sensitivity of LCL to lysis by CD8(+) CTL specific for an exogenously loaded peptide Ag or lysis by alloreactive CD8(+) CTL, suggesting that differentiation is not associated with intrinsic resistance to CD8(+) T cell cytotoxicity and that evasion of lysis is confined to EBV-specific CTL responses. CD4(+) T cell-induced differentiation of LCL and concomitant resistance of LCL to lysis by EBV-specific CD8(+) CTL were associated with reduced expression of viral latent genes. Finally, transwell cocultures, in which direct LCL-CD4(+) T cell contact was prevented, indicated a major role for CD4(+) T cell cytokines in the differentiation of LCL.     

CD28 T cell costimulatory receptor function is negatively regulated by N-linked carbohydrates

CD28 is a cell surface glycoprotein expressed on T cells that modulates immune responses through its ability to transduce costimulatory signals. Even though nearly 50% of the molecular mass of CD28 is N-glycan, the physiological significance of CD28 glycosylation is at present unknown. In this report, we have investigated the function of hypoglycosylated wildtype CD28 and its splice variant, CD28i. When N-glycosylation was prevented through point mutations in N-glycosylation sites in CD28, or reduced by glycosidase inhibitors, the binding of CD28 to CD80 significantly increased. Stimulation of hypoglycosylated CD28 induced IL-2 promoter activity greater than that induced through the stimulation of wildtype CD28. Unlike hypoglycosylated wildtype CD28, hypoglycosylation of CD28i did not alter CD28i functions. Our data indicate that N-glycans of CD28 negatively regulate CD28/CD80 interactions, resulting in diminished CD28 signaling. It is also suggested that N-glycans regulate the density of CD28 clustering upon ligation with CD80/CD86. The results support the hypothesis that the N-glycosylation negatively regulates CD28-mediated T cell adhesion and costimulation.     

CD28-independent costimulation of T cells in alloimmune responses.

T cell costimulation by B7 molecules plays an important role in the regulation of alloimmune responses. Although both B7-1 and B7-2 bind CD28 and CTLA-4 on T cells, the role of B7-1 and B7-2 signaling through CTLA-4 in regulating alloimmune responses is incompletely understood. To address this question, we transplanted CD28-deficient mice with fully allogeneic vascularized cardiac allografts and studied the effect of selective blockade of B7-1 or B7-2. These mice reject their grafts by a mechanism that involves both CD4(+) and CD8(+) T cells. Blockade of CTLA-4 or B7-1 significantly accelerated graft rejection. In contrast, B7-2 blockade significantly prolonged allograft survival and, unexpectedly, reversed the acceleration of graft rejection caused by CTLA-4 blockade. Furthermore, B7-2 blockade prolonged graft survival in recipients that were both CD28 and CTLA-4 deficient. Our data indicate that B7-1 is the dominant ligand for CTLA-4-mediated down-regulation of alloimmune responses in vivo and suggest that B7-2 has an additional receptor other than CD28 and CTLA-4 to provide a positive costimulatory signal for T cells.     

CD28 costimulation induces delta opioid receptor expression during anti-CD3 activation of T cells

Previous studies have demonstrated that naive splenic mouse T cells express no or only very low levels of the delta-type opioid receptor (delta OR), but stimulation of mouse splenocytes with Con A results in induction of delta OR mRNA and protein. In this report we have shown that stimulation of highly purified populations of naive mouse T cells with anti-CD3 mAb alone results in T cell activation, as evidenced by sustained IL-2 secretion and cell proliferation, but fails to elicit delta OR expression. However, delta OR expression is induced by costimulation of these very pure T cells with anti-CD3 and anti-CD28 mAbs. The delta OR induction by anti-CD3 and anti-CD28 costimulation was completely blocked by inhibition of phosphatidylinositol 3-kinase with wortmannin. Because phosphatidylinositol 3-kinase activation in T cells is linked to costimulation, these results suggest that induction of delta OR expression during T cell activation is strictly dependent on costimulation. It also appears that costimulatory receptors other than CD28 can provide the signaling required for delta OR expression because delta OR mRNA was induced by Con A stimulation of splenocytes from CD28-deficient mice.     

CD28 costimulation is essential for human T regulatory expansion and function

The costimulatory requirements required for peripheral blood T regulatory cells (Tregs) are unclear. Using cell-based artificial APCs we found that CD28 but not ICOS, OX40, 4-1BB, CD27, or CD40 ligand costimulation maintained high levels of Foxp3 expression and in vitro suppressive function. Only CD28 costimulation in the presence of rapamycin consistently generated Tregs that consistently suppressed xenogeneic graft-vs-host disease in immunodeficient mice. Restimulation of Tregs after 8-12 days of culture with CD28 costimulation in the presence of rapamycin resulted in >1000-fold expansion of Tregs in <3 wk. Next, we determined whether other costimulatory pathways could augment the replicative potential of CD28-costimulated Tregs. We observed that while OX40 costimulation augmented the proliferative capacity of CD28-costimulated Tregs, Foxp3 expression and suppressive function were diminished. These studies indicate that the costimulatory requirements for expanding Tregs differ from those for T effector cells and, furthermore, they extend findings from mouse Tregs to demonstrate that human postthymic Tregs require CD28 costimulation to expand and maintain potent suppressive function in vivo.     

The 4-1BB costimulation augments the proliferation of CD4+CD25+ regulatory T cells

The thymus-derived CD4(+)CD25(+) T cells belong to a subset of regulatory T cells potentially capable of suppressing the proliferation of pathogenic effector T cells. Intriguingly, these suppressor cells are themselves anergic, proliferating poorly to mitogenic stimulation in culture. In this study, we find that the 4-1BB costimulator receptor, best known for promoting the proliferation and survival of CD8(+) T cells, also induces the proliferation of the CD4(+)CD25(+) regulatory T cells both in culture and in vivo. The proliferating CD4(+)CD25(+) T cells produce no detectable IL-2, suggesting that 4-1BB costimulation of these cells does not involve IL-2 production. The 4-1BB-expanded CD4(+)CD25(+) T cells are functional, as they remain suppressive to other T cells in coculture. These results support the notion that the peripheral expansion of the CD4(+)CD25(+) T cells is controlled in part by costimulation.     

CTLA-4 engagement and regulatory CD4+CD25+ T cells independently control CD8+-mediated responses under costimulation blockade

Blockade of costimulatory signals is a promising therapeutic target to prevent allograft rejection. In this study, we sought to characterize to what extent CTLA-4 engagement contributes to the development of transplantation tolerance under the cover of CD40/CD40L and CD28/CD86 blockade. In vitro, we found that inhibition of the primary alloresponse and induction of alloantigen hyporesponsiveness by costimulation blockade was abrogated by anti-CTLA-4 mAb. In addition, regulatory CD4(+)CD25(+) T cells (T(REG)) were confirmed to play a critical role in the induction of hyporesponsiveness by anti-CD40L and anti-CD86 mAb. Our data indicated that CTLA-4 engagement is not required for activation or suppressor function of T(REG). Instead, in the absence of either CTLA-4 signaling or T(REG), CD8(+) T cell division was enhanced, whereas the inhibition of CD4(+) T cell division by costimulation blockade remained largely unaffected. In vivo, the administration of additional anti-CTLA-4 mAb abrogated anti-CD40L- and anti-CD86 mAb-induced cardiac allograft survival. Correspondingly, rejection was accompanied by enhanced allograft infiltration of CD8(+) cells. We conclude that CTLA-4 signaling and T(REG) independently cooperate in the inhibition of CD8(+) T cell expansion under costimulation blockade.     

Polarization of naive CD4+ T cells toward the Th1 subset by CTLA-4 costimulation

In this study, we examined in vitro the role of CTLA-4 costimulation in the polarization of naive CD4+ T cells toward the Th1 subset. When CTLA-4 costimulation was blocked by the inclusion of anti-CTLA-4 Fab in cultures during priming of naive CD4+ T cells with anti-CD3 in the presence of splenic adherent cells, they were polarized toward the Th2 subset. Conversely, the engagement of CTLA-4 with immobilized anti-CTLA-4 or with CD80-P815 cells polarized naive CD4+ T cells costimulated with anti-CD3 and anti-CD28 toward the Th1 subset. The CTLA-4 costimulation during priming augmented TGF-beta1 mRNA accumulation in naive CD4+ T cells, and the inclusion of anti-TGF-beta in cultures for priming suppressed the effect of CTLA-4 costimulation on the Th1 polarization. The addition of low doses of TGF-beta1 in cultures for priming of naive CD4+ T cells enhanced the production of Th1 cytokines upon secondary stimulation, although Th2 cytokine production was not affected by the doses of TGF-beta1. The CTLA-4 costimulation was also shown to suppress IL-4 production of naive CD4+ T cells upon priming. These results indicate that the costimulation against CTLA-4 drives polarization of naive CD4+ T cells toward the Th1 subset independent of IL-12 through, at least in part, the enhancement of TGF-beta1 production, and it also hampers Th2 subset differentiation by affecting IL-4 production of naive CD4+ T cells.     

CD28 is required for T cell activation and IFN-gamma production by CD4+ and CD8+ T cells in response to Trypanosoma cruzi infection

In the present study we evaluated the mechanisms behind the implication of the costimulatory molecule CD28 for the immune response against the intracellular protozoan parasite Trypanosma cruzi. Our results reveal a critical role for CD28 in the activation of both CD4+ and CD8+ T cells and induction of the effector mechanisms that ultimately mediate the control of parasite growth and pathogenesis in infected mice. CD28-deficient (CD28-/-) mice are highly susceptible to T. cruzi infection, presenting higher parasitemia and tissue parasitism, but less inflammatory cell infiltrate in the heart than C57Bl/6 wild-type (WT) mice. All the infected WT mice survived acute infection, whereas 100% of CD28-/- mice succumbed to it. The increased susceptibility of the CD28-/- mice was associated with a dramatic decrease in the production of IFN-gamma by both CD4+ and CD8+ T cells resulting in a diminished capacity to produce nitric oxide (NO) and mediate parasite killing. T cell activation was also profoundly impaired in CD28-/- mice, which presented decreased lymphoproliferative response after the infection compared to WT mice. Together, these data represent the first evidence that CD28 is critical for efficient CD4+ T cell activation in response to T. cruzi infection in mice.     

Identification and characterization of rat AILIM/ICOS, a novel T-cell costimulatory molecule, related to the CD28/CTLA4 family

Activation-inducible lymphocyte immuno-mediatory molecule (AILIM) is an inducible cell surface glycoprotein expressed on thymocytes and activated lymphocytes. Specific monoclonal antibody to rat AILIM induced the cell aggregation of a rat thymoma cell line and ConA-activated splenocytes. In the present study, we identified the primary structure of two species of rat AILIM by expression cloning. We also cloned mouse and human AILIM homologues and the predicted amino acid sequences were identical to those of the inducible costimulator ICOS/CRP-1, which belongs to the CD28/CTLA4 family. Although the human and mouse AILIM/ICOS molecule is localized on T-cells, the major population of AILIM/ICOS-positive cells in rat splenocyte was CD45RA-positive B-cells. The expression level of AILIM/ICOS on T-cells was relatively low; however, its expression was drastically induced by the treatment with PMA plus Ca-ionophore or the engagement of CD3 and these costimulatory molecules. Almost all T-cells exhibited potency as to its expression. Functional analysis of AILIM/ICOS demonstrated that AILIM-mediated costimulation was relatively weak compared to that of human.     

TGF-beta-mediated suppression by CD4+CD25+ T cells is facilitated by CTLA-4 signaling

CD4+CD25+ T cells play a pivotal role in immunological homeostasis by their capacity to exert immunosuppressive activity. However, the mechanism by which these cells function is still a subject for debate. We previously reported that surface (membrane) TGF-beta produced by CD4+CD25+ T cells was an effector molecule mediating suppressor function. We now support this finding by imaging surface TGF-beta on Foxp3+CD4+CD25+ T cells in confocal fluorescence microscopy. Then, using a TGF-beta-sensitive mink lung epithelial cell (luciferase) reporter system, we show that surface TGF-beta can be activated to signal upon cell-cell contact. Moreover, if such TGF-beta signaling is blocked in an in vitro assay of CD4+CD25+ T cell suppression by a specific inhibitor of TGF-betaRI, suppressor function is also blocked. Finally, we address the role of CTLA-4 in CD4+CD25+ T cell suppression, showing first that whereas anti-CTLA-4 does not block in vitro suppressor function, it does complement the blocking activity of anti-TGF-beta. We then show with confocal fluorescence microscopy that incubation of CD4+CD25+ T cells with anti-CTLA-4- and rB7-1/Fc-coated beads results in accumulation of TGF-beta at the cell-bead contact site. This suggests that CTLA-4 signaling facilitates TGF-beta-mediated suppression by intensifying the TGF-beta signal at the point of suppressor cell-target cell interaction.