Stat4 limits DNA methyltransferase recruitment and DNA methylation of the IL-18Ralpha gene during Th1 differentiation

Stat4 is required for Th1 development, although how a transiently activated factor generates heritable patterns of gene expression is still unclear. We examined the regulation of IL-18Ralpha expression to define a mechanism for Stat4-dependent genetic programming of a Th1-associated gene. Although Stat4 binds the Il18r1 promoter following IL-12 stimulation and transiently increases acetylated histones H3 and H4, patterns of histone acetylation alone in Th1 cells may not be sufficient to explain cell-type-specific patterns of gene expression. The level of DNA methylation and recruitment of Dnmt3a to Il18r1 inversely correlate with IL-18Ralpha expression, and blocking DNA methylation increases IL-18Ralpha expression. Moreover, there was decreased Il18r1-Dnmt3a association and DNA methylation following transient trichostatin A-induced histone hyperacetylation in Stat4-/-Th1 cultures. Increased association of Dnmt3a and the Dnmt3a cofactor Dnmt3L with the promoters of several Stat4-dependent genes was found in Stat4-/- Th1 cultures, providing a general mechanism for Stat4-dependent gene programming. These data support a mechanism wherein the transient hyperacetylation induced by Stat4 prevents the recruitment of DNA methyltransferases and the subsequent repression of the Il18r1 locus.     

Down-regulation of IL-8 expression in human airway epithelial cells through helper-dependent adenoviral-mediated RNA interference

Interleukin (IL)-8 is a potent neutrophil chemotactic factor and a crucial mediator in neutrophil-dependent inflammation.Various cell types produce IL-8, either in response to external stimuli such as cytokines or bacterial infection, or after malignant transformation. Anti-IL-8 strategies have been considered for anti-inflammatory therapy. In this paper we demonstrate that the RNA interference technique can be used to efficiently down-regulate IL-8 protein expression in airway epithelial cells. We used a helper-dependent adenoviral vector to express a small hairpin (sh)RNA targeting human IL-8 in cultured airway epithelial cells (IB3-1, Cftr; C38, Cftr-corrected) stimulated with TNF-α, IL-1β or heat-inactivated Burkholderia cenocepacia. Stimulated IL-8 expression in IB3-1 and C38 cells was significantly reduced by shRNA expression. The shRNA targeting IL-8 had no effect on the activation of NF-κB, or on the protein levels of IκB or IL-6, suggesting that this anti-IL-8 strategy was highly specific, and therefore may offer potential for the treatment of inflammatory diseases.     

Chemokine-guided CD4+ T cell help enhances generation of IL-6RalphahighIL-7Ralpha high prememory CD8+ T cells

CD4(+) T cells promote effective CD8(+) T cell-mediated immunity, but the timing and mechanistic details of such help remain controversial. Furthermore, the extent to which innate stimuli act independently of help in enhancing CD8(+) T cell responses is also unresolved. Using a noninfectious vaccine model in immunocompetent mice, we show that even in the presence of innate stimuli, CD4(+) T cell help early after priming is required for generating an optimal pool of functional memory CD8(+) T cells. CD4(+) T cell help increased the size of a previously unreported population of IL-6Ralpha(high)IL-7Ralpha(high) prememory CD8(+) T cells shortly after priming that showed a survival advantage in vivo and contributed to the majority of functional memory CD8(+) T cells after the contraction phase. In accord with our recent demonstration of chemokine-guided recruitment of naive CD8(+) T cells to sites of CD4(+) T cell-dendritic cell interactions, the generation of IL-6Ralpha(high)IL-7Ralpha(high) prememory as well as functional memory CD8(+) T cells depended on the early postvaccination action of the inflammatory chemokines CCL3 and CCL4. Together, these findings support a model of CD8(+) T cell memory cell differentiation involving the delivery of key signals early in the priming process based on chemokine-guided attraction of naive CD8(+) T cells to sites of Ag-driven interactions between TLR-activated dendritic cells and CD4(+) T cells. They also reveal that elevated IL-6Ralpha expression by a subset of CD8(+) T cells represents an early imprint of CD4(+) T cell helper function that actively contributes to the survival of activated CD8(+) T cells.     

Structural model of human IL-13 defines the spatial interactions with the IL-13Ralpha/IL-4Ralpha receptor

Interleukin-13 (IL-13) plays a key role in immune responses and inflammation. A structural model of human IL-13 (HuIL-13) based on the nuclear magnetic resonance and X-ray structure of IL-4 is put forward. Unlike previous models, this model is based on new sequence alignments that take into account the formation of the two disulfide linkages that have been determined experimentally. The proposed structure of human IL-13 is similar to IL-4, consisting of a four helix bundle with hydrophobic residues lining the core of the molecule and surface polar residues showing a high degree of solvent accessibility. Regions of HuIL-13 that are critical for the interaction with its receptors are explored and discussed in relation to existing mutagenic studies. From these studies we predict that helices A and C of HuIL-13 interact with the IL-4 receptor alpha (IL-4Ralpha) region and helix D is responsible for the interaction with the IL-13 receptor alpha 1 (IL-13Ralpha1) receptor.     

Dendritic cells induce MUC1 expression and polarization on human T cells by an IL-7-dependent mechanism

The MUC1 transmembrane mucin is expressed on the surface of activated human T cells; however, the physiologic signals responsible for the regulation of MUC1 in T cells are not known. The present studies demonstrate that IL-7, but not IL-2 or IL-4, markedly induces MUC1 expression on CD3+ T cells. MUC1 was also up-regulated by IL-15, but to a lesser extent than that found with IL-7. The results show that IL-7 up-regulates MUC1 on CD4+, CD8+, CD25+, CD69+, naive CD45RA+, and memory CD45RO+ T cells. In concert with induction of MUC1 expression by IL-7, activated dendritic cells (DC) that produce IL-7 up-regulate MUC1 on allogeneic CD3+ T cells. DC also induce MUC1 expression on autologous CD3+ T cells in the presence of recall Ag. Moreover, DC-induced MUC1 expression on T cells is blocked by a neutralizing anti-IL-7 Ab. The results also demonstrate that DC induce polarization of MUC1 on T cells at sites opposing the DC-T cell synapse. These findings indicate that DC-mediated activation of Ag-specific T cells is associated with induction and polarization of MUC1 expression by an IL-7-dependent mechanism.     

Multiple cytokine secretion by IL-7-stimulated human T cells.

The induction of cytokine secretion by human peripheral blood (PB) T cells was examined. Highly purified T cells stimulated with interleukin 7 (IL-7), in the absence of co-mitogen, secreted IL-2, IL-4, IL-6 and interferon gamma (IFN-gamma) upon restimulation with phorbol ester and ionomycin. In contrast, induction of T-cell cultures initiated with IL-2 or IL-4 yielded only low levels of IL-6 and virtually undetectable levels of IL-4 or IFN-gamma, while IL-2 secretion was reduced. No difference was seen in the ability of CD4+ and CD8+ subpopulations, grown in IL-7, to produce cytokines. In contrast, subdivision of T cells into memory and naive populations using the CD45RO monoclonal antibody (mAb) UCHL1, revealed that almost all of the potential to secrete IL-4 and IL-6 in response to IL-7 resided in the CD45RO+ memory population. Stimulation of cytokine-secreting cells appeared to be a direct effect of IL-7 as neutralizing antibodies directed against IL-2 and IL-4 had no effect on the levels of cytokines produced. The differences observed in the ability of IL-2, IL-4, and IL-7 to potentiate cytokine production was supported by measurement of cytokine mRNA levels by PCR. The elevated levels of cytokine secretion seen in cells cultured with IL-7 was not due simply to increased viability in these cultures compared with those containing IL-2 or IL-4, as these populations showed comparable cloning frequencies in phytohemagglutinin (PHA) + IL-2. These results demonstrate that IL-7, in the absence of co-mitogen, is a potent initial stimulus for multiple cytokine production by human T cells upon restimulation.     

IL-2 regulates expression of C-MAF in human CD4 T cells

Blockade of IL-2R with humanized anti-CD25 Abs, such as daclizumab, inhibits Th2 responses in human T cells. Recent murine studies have shown that IL-2 also plays a significant role in regulating Th2 cell differentiation by activated STAT5. To explore the role of activated STAT5 in the Th2 differentiation of primary human T cells, we studied the mechanisms underlying IL-2 regulation of C-MAF expression. Chromatin immunoprecipitation studies revealed that IL-2 induced STAT5 binding to specific sites in the C-MAF promoter. These sites corresponded to regions enriched for markers of chromatin architectural features in both resting CD4 and differentiated Th2 cells. Unlike IL-6, IL-2 induced C-MAF expression in CD4 T cells with or without prior TCR stimulation. TCR-induced C-MAF expression was significantly inhibited by treatment with daclizumab or a JAK3 inhibitor, R333. Furthermore, IL-2 and IL-6 synergistically induced C-MAF expression in TCR-activated T cells, suggesting functional cooperation between these cytokines. Finally, both TCR-induced early IL4 mRNA expression and IL-4 cytokine expression in differentiated Th2 cells were significantly inhibited by IL-2R blockade. Thus, our findings demonstrate the importance of IL-2 in Th2 differentiation in human T cells and support the notion that IL-2R-directed therapies may have utility in the treatment of allergic disorders.     

IL-4 inhibits IL-2 receptor expression and IL-2-dependent proliferation of human T cells

Recent studies have shown that IL-4 can affect lymphocyte responses to IL-2. To evaluate the effects of IL-4 on T cell responses to physiologically relevant stimuli, we studied normal human T cells cultured with a low concentration of anti-CD3 mAb and IL-2 in the presence and absence of added IL-4. The addition of IL-4 to cultures of T cells stimulated with anti-CD3 mAb and IL-2 reduced the proliferative response by 49 to 59%. The inhibitory effect was observed in 3-, 5-, and 7-day cultures. Inhibition was dose-dependent with maximal inhibition at concentrations greater than or equal to 5 to 10 U/ml IL-4. IL-4-mediated inhibition occurred early during the T cell response, inasmuch as addition of IL-4 after stimulation for 24 h did not result in significant inhibition. Phenotypic analyses of cells cultured in the presence of anti-CD3 mAb, IL-2, and IL-4 suggested that the mechanism of regulation by IL-4 involves the inhibition of IL-2R expression. The proportion of both CD4+ and CD8+ cells that expressed IL-2R in response to IL-2 was diminished in the presence of IL-4, although HLA-DR levels were unaffected. Soluble IL-2R was also reduced in supernatants of cultures stimulated with anti-CD3 mAb, IL-2, and IL-4 as compared to cultures stimulated with anti-CD3 mAb and IL-2. These findings indicate that when normal human T cells are stimulated in vitro in a manner that approximates a physiologic interaction with Ag in vivo, rIL-4 provides a potent inhibitory signal to IL-2 responsive cells that is likely mediated by IL-4-induced inhibition of IL-2R expression.     

Substance P enhances IL-2 expression in activated human T cells.

Jurkat and HUT 78 T cell lines, as well as peripheral blood human T cells activated with PHA plus PMA were used to investigate the capacity of substance P (SP) neuropeptide to regulate IL-2 production. By using Northern blot analysis and dosage of the IL-2 release in cell supernatants, we show that SP can act as cosignal with PHA + PMA to enhance the expression of specific IL-2 mRNA and IL-2 secretion in T cells. By using the N-terminal SP(1-4) or the C-terminal SP(4-11) fragments of the entire molecule, we show that the cosignal activity is carried by the C-terminal portion of SP. The SP and SP(4-11) optimal effects were observed at 10(-12) M and 10(-10) M when a broad range of concentrations from 10(-6) M to 10(-13) M was tested. The increase of IL-2 mRNA obtained with 10(-12) M of SP in the activated Jurkat cells was reduced by adding 10(-10) or 10(-9) M of the SP antagonist (D-Pro2,-D-Phe7,-D-Trp9)SP to the culture, indicating the specificity of SP action. The up-regulation observed when 10(-12) M of SP was applied together with the mitogens on Jurkat cells, persisted after a 16-h culture period, time at which the IL-2 mRNA signal is normally back to a minimum level when the mitogens are used alone. Furthermore, an induction of IL-2 mRNA accumulation, in a 2-h pulse, was obtained with 10(-12) M of SP on Jurkat cells previously activated with mitogens for 16 h.     

Select plant tannins induce IL-2Ralpha up-regulation and augment cell division in gammadelta T cells

Gammadelta T cells are innate immune cells that participate in host responses against many pathogens and cancers. Recently, phosphoantigen-based drugs, capable of expanding gammadelta T cells in vivo, entered clinical trials with the goal of enhancing innate immune system functions. Potential shortcomings of these drugs include the induction of nonresponsiveness upon repeated use and the expansion of only the Vdelta2 subset of human gammadelta T cells. Vdelta1 T cells, the major tissue subset, are unaffected by phosphoantigen agonists. Using FACS-based assays, we screened primary bovine cells for novel gammadelta T cell agonists with activities not encompassed by the current treatments in an effort to realize the full therapeutic potential of gammadelta T cells. We identified gammadelta T cell agonists derived from the condensed tannin fractions of Uncaria tomentosa (Cat's Claw) and Malus domestica (apple). Based on superior potency, the apple extract was selected for detailed analyses on human cells. The apple extract was a potent agonist for both human Vdelta1 and Vdelta2 T cells and NK cells. Additionally, the extract greatly enhanced phosphoantigen-induced gammadelta T cell expansion. Our analyses suggest that a tannin-based drug may complement the phosphoantigen-based drugs, thereby enhancing the therapeutic potential of gammadelta T cells.     

IFN-alpha and IL-12 induce IL-18 receptor gene expression in human NK and T cells

IL-18 is a proinflammatory cytokine that enhances innate and specific Th1 immune responses. During microbial infections, IL-18 is produced by activated macrophages. IL-18 exerts its effects in synergy with IFN-alpha or IL-12 to induce IFN-gamma. Here we show that in human NK and T cells IFN-alpha and IL-12 strongly up-regulate mRNA expression of the IL-18R components, accessory protein-like (AcPL) and IL-1R-related protein (IL-1Rrp). In addition, IFN-alpha enhanced the expression of MyD88, an adaptor molecule involved in IL-18 signaling. Pretreatment of T cells with IFN-alpha or IL-12 enhanced IL-18-induced NF-kappaB activation and sensitized the cells to respond to lower concentrations of IL-18. AcPL and IL-1Rrp genes were strongly expressed in T cells polarized with IL-12, whereas in IL-4-polarized cells these genes were expressed at very low levels, indicating that AcPL and IL-1Rrp genes are preferentially expressed in Th1 cells. In conclusion, the results suggest that IFN-alpha and IL-12 enhance innate as well as Th1 immune response by inducing IL-18R expression.     

Immunoregulatory functions of paf-acether. III. Down-regulation of CD4+ T cells high-affinity IL-2 receptor expression

In the present report, we further explored the mechanisms by which 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (paf-acether), a phospholipid mediator of inflammation inhibited PHA-induced CD4+ cell proliferation. Evidence was obtained that CD4+ cells stimulated with either PHA or immobilized OKT3 in the presence of paf at concentrations that block CD4+ cell proliferation, exhibited a marked decrease in high affinity IL-2R expression. Importantly, paf did not prevent the binding of IL-2 to its receptor. Scatchard analysis of the binding data indicated that paf caused more than 50% decrease in the number of IL-2 high affinity sites per cell, whereas the receptor ligand affinity remained essentially constant. Moreover, the down-regulation of high affinity IL-2R was also accompanied by a loss of IL-2-dependent proliferative capacity. Together these data suggest that decreased expression of high affinity IL-2R may contribute to the diminished proliferative activity observed in CD4+ cells stimulated with PHA or immobilized OKT3 in the presence of paf. They further emphasize the potential role of lipid proinflammatory mediators such as paf in the regulation of T cell activation.     

DNA methylation alters chromatin structure and regulates Thy-1 expression in EL-4 T cells

Thy-1 exhibits marked differences in expression in various tissues in many species; therefore, it is of interest to define possible mechanisms that may regulate Thy-1 expression. We produced Thy-1 negative variants of the murine T cell lymphoma EL-4 by mutagenesis with ethylmethanesulfonate (EMS), negative selection with anti-Thy-1 monoclonal antibodies (mAb) plus complement, and fluorescence-activated cell sorting (FACS). Thy-1 surface negative (Thy-1-) mutants produced in this manner were shown to produce no detectable Thy-1 mRNA, but contained an intact Thy-1 gene as determined by Southern blotting. 5' CG sequences, which had been demethylated in the parent EL-4 clone, were completely methylated in the EMS-induced Thy-1-variant. In addition, a DNase I hypersensitive site that mapped to the 5' end of the Thy-1 gene in EL-4 was absent in the Thy-1- variant. Treatment of this Thy-1- clone with 5-azadeoxycytidine (5-dAZA) resulted in re-expression of surface Thy-1, demethylation of the 5' CG sequences, and regeneration of the DNase I hypersensitive site. These studies indicate that methylation of certain critical DNA sequences in the 5' region of the Thy-1 gene can alter local chromatin structure and regulate expression of this gene.