Alloantigen presentation by B cells. Requirement for IL-1 and IL-6

We have evaluated the requirements for non-activated allogeneic B cells to present alloantigen in primary MLC. We found that the generation of an MLR was dependent on the addition of exogenous IL-1 and IL-6 to the cultures; neither lymphokine by itself was capable of significantly stimulating the response. Our results suggest that the concentration of these lymphokines present in a standard MLR culture may serve to regulate the magnitude of the proliferative response. The B cells that co-stimulated with IL-1 and IL-6 were found to be contained almost exclusively within the large, low density population. Presumably, large low density B cells have attained a state in which they are particularly effective at presentation of alloantigen. Together our findings indicate that three components are required for Ag presentation in primary MLC: class II MHC-positive stimulator cells that have attained the appropriate state of differentiation and the presence of both IL-1 and IL-6.     

Characterization of thymic cell subpopulations involved in IL-1- or GM-CSF-induced IL-6 production.

IL-6 has been demonstrated by in vitro studies to be a cytokine involved in thymocyte activation We show herein that thymocytes cultured at high concentrations in the absence of comitogen respond to IL-1 and, to a lesser degree, to GM-CSF, by producing IL-6. This phenomenon disappears rapidly with decreasing cell densities, suggesting the involvement of a minor cellular component of the thymus which may be solely responsible for or cooperate in IL-6 production. We have analysed several thymic subpopulations for IL-6 production and show that accessory cells, and eventually their precursors, are the major if not exclusive, producers of this cytokine. Mature steroid-resistant thymocytes do not secrete IL-6. Production of IL-6 by total CD4-CD8- thymic cells is largely reduced by the depletion of mature accessory cells which express I-A and Mac-1 antigens. As shown previously, accessory cell precursors within the CD4-CD8- compartment are induced to differentiate into M phi and DC in response to IL-1 and GM-CSF. We provide evidence that this maturation is associated with IL-6 production. Thymic DC and phagocytic cells of the thymic reticulum (P-TR) in vitro produce high levels of IL-6 which are enhanced by GM-CSF or IL-1. These factors have a synergistic effect on IL-6 production by total thymocytes, and on CD4-CD8- cells that are not depleted for mature I-A+ Mac-1+ accessory cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Distinct roles of IL-1 and IL-6 in human T cell activation

We have examined the mechanisms underlying the activation of human T cells by IL-1 and IL-6. We report that PHA-stimulated accessory cell-depleted tonsillar T cells fractionated on the basis of their density show a high degree of heterogeneity in their proliferative response to these cytokines, inasmuch as small dense lymphocytes essentially fail to respond whereas large cells proliferate extensively. This differential response could be ascribed to the fact that only the large cells produced IL-2 under these circumstances, thus providing unequivocal evidence for the existence of an IL-2-mediated step in the activation of human T cells by IL-1 and IL-6. The synergy between IL-1 and IL-6 was found to result from their complementary effects on the production of and response to IL-2, with IL-1 playing a preponderant role in the induction of IL-2, and IL-6 being required, in addition to IL-1, for optimal IL-2-responsiveness. Using small tonsillar T cells, it was possible to show that, concomitant with the enhanced response to IL-2, IL-6 induced a marked increase in cell size and in protein synthesis. In the absence of other factors, this activation was not followed by entry into S phase, suggesting that the essential role of IL-6 in T cell activation is to induce the cells to move from G0 to G1, where they become more responsive to the small amounts of IL-2 induced by IL-1.     

IL-6 is an accessory signal in the alternative CD2-mediated pathway of T cell activation

Recent studies have demonstrated that IL-1 and IL-6 are synergistic accessory signals for activation of T cells. In this study, highly purified human T cells were cultured with either a stimulating pair of anti-CD2 mAb or with immobilized anti-CD3 mAb. Monocytes, a cellfree monocyte culture supernatant or IL-1 were required for anti-CD2-stimulated T cell proliferation, and they each strongly enhanced anti-CD3-induced T cell growth. IL-6 was synergistic with IL-1 as a helper factor for T cell growth after activation via CD2, but we could not demonstrate any effect of IL-6 in the CD3 pathway. The mechanism of the synergistic helper activity of IL-1 and IL-6 on T cell activation in the CD2 pathway was further examined. IL-1 (but not IL-6) was required for induction of IL-2 production. Both IL-1 and IL-6 enhanced IL-2R (p55) expression and the proliferative response to IL-2. T cell proliferation after stimulation with anti-CD2 and IL-1 or IL-1/IL-6 proceeded through an autocrine IL-2-dependent pathway. Moreover we found that, in the absence of IL-1, IL-6 still supported a transient and limited proliferation of anti-CD2- (but not of anti-CD3-) stimulated T cells, which apparently was independent of the autocrine growth factors IL-2 or IL-4. Our data suggest that IL-6 is important as an accessory signal for T cell growth in the CD2 pathway of T cell activation.     

IL-6 and IL-1 enhance the accessory activity of human blood monocytes during differentiation to macrophages

The role of IL-6 and IL-1 in the regulation of accessory activity and differentiation in the human monocyte/macrophage (Mo/Mph) system was investigated. IL-6 combined with IL-1 had a strong effect on the accessory activity of Mo-derived cells dependent on their state of differentiation in vitro. Fresh Mo prepared from peripheral blood differentiated into potent accessory cells in vitro within 24 h in the absence of exogenous triggers in serum-containing and serum-free medium. Mo cultured for 2 days in the presence of the cytokines IL-6 and IL-1 did not significantly increase their spontaneous accessory activity. However, the simultaneous addition of antibodies against IL-6 and IL-1 to accessory Mo cultures significantly diminished their T cell stimulatory capacity. These findings suggest an important positive feedback role of IL-6 and IL-1, secreted by Mo at this early state of differentiation. In marked contrast, untreated mature Mph generated in vitro from Mo exhibited a low spontaneous accessory potency. However, when these cells were subjected to IL-6 and/or IL-1, we observed a strong dose dependent increase in their potency to stimulate a T cell response. Parameters indicating the differentiation of Mo to Mph, such as acid phosphatase and 5' nucleotidase, were not influenced by the addition of IL-1, IL-6, or a mixture of both and confirmed the presence of mature Mph after 6 days of culture. Based on these observations, we conclude that the monocyte-derived cytokines IL-6 and IL-1 not only directly act on T cells but may also function as a signal for accessory activity during Mo/Mph differentiation.     

Regulation of T-cell functions by L-lactate

Lactate is a product of glycolytically active macrophages. After stimulation with concanavalin A accessory cell-depleted splenic T-cell populations were found to produce only minute amounts of T-cell growth factor (TCGF); but substantial amounts of TCGF were produced if the cultures were supplemented either with splenic adherent cells or with lactate but not with interleukin-1 (IL-1). IL-1 was capable, however, of supporting TCGF production by the thymoma subline EL4-6.1. TCGF production in cultures of accessory cell-depleted splenic T-cell populations was demonstrable with 10(-3) M L-lactate, and optimal responses (plateau level) were obtained with 4-6 X 10(-2) M L-lactate. Cultures of macrophages were found to accumulate up to 5 X 10(-2) M lactate. Our experiments indicate, therefore, that lactate serves as a regulatory signal by which macrophage-like accessory cells enhance helper-T-cell functions. Lactate is apparently not the only mediator of accessory cell function since plateau levels of TCGF production were markedly lower with lactate than with splenic accessory cells; but L-lactate was found also to determine the magnitude of T-cell-mediated immune responses in vivo and in cultures of unfractionated lymphocyte populations. The production of interferon in accessory cell-depleted and concanavalin A-treated T-cell cultures, however, was not significantly affected by lactate. Concanavalin A-stimulated splenic T-cell populations were found to consume glucose rapidly and to release lactate into the supernatant. This indicates that the cells contain more lactate and pyruvate than they can utilize by their respiratory metabolism. The administration of external lactate or pyruvate was found to inhibit the utilization of glucose by the mitogenically stimulated T cells.     

IL-1-induced prostacyclin production by cerebral vascular endothelial cells inhibits myelin basic protein-specific lymphocyte proliferation.

Addition of cerebral vascular endothelial cells (EC) to myelin basic protein (MBP) immune lymph node cells (LNC) cultured in the presence of MBP resulted in the inhibition of MBP-specific proliferative responses. Proliferation was not inhibited in cultures containing indomethacin (IM), suggesting a possible role for prostaglandins. Significant levels of 6-KPGF1 alpha, the stable hydrolysate product of PGI2, but not PGE2 were observed in culture (LNC + EC) supernatants but not in supernatants from cultures containing only LNC or EC. The levels of PGI2 release were proportional to the concentration of exogenous EC present in culture and synthesis of PGI2 could be blocked by IM. These results indicate the requirement for coculture in the generation PGI2. Additional experiments indicated that EC were required for the generation of PGI2 and that either macrophages (M phi), or recombinant murine IL-1 were able to replace LNC in cocultures with EC in order to generate PGI2. The ability of IL-1 to stimulate EC-derived PGI2 synthesis was dose dependent with maximal stimulation observed at 50 U/ml IL-1. The IL-1-induced production of PGI2 by EC as well as PGI2 production in cultures containing EC and either LNC or M phi was inhibited by treatment with anti-IL-1 antibody. These results indicate that EC are capable of inhibiting antigen-specific lymphocyte proliferation by producing PGI2, which can be induced by the lymphokine, IL-1.     

IL-1 serves as a secondary signal for IL-9 expression.

IL-9 is produced in vitro by activated CD4+ T cell lines of the Th2 subtype and by naive CD4+ T cells. Here we show that T cell lines stimulated with Con A in the presence of accessory cells (AC) such as irradiated spleen cells or bone marrow-derived macrophages produced substantially more IL-9 than T cells stimulated with Con A alone. These data suggest that AC influence the production of IL-9 through accessory signals that result in an at least 10-fold increase of IL-9 secretion by the respective T cells. Addition of IL-1 to T cells activated by Con A, PHA, or anti-CD3 antibodies revealed that this monokine was responsible for the potentiation of IL-9 production. This finding was confirmed by applying anti-IL-1 antibodies. The production of other lymphokines, namely, IL-3, IL-4, and IL-6, by activated T cells was not or only marginally enhanced in the presence of AC or IL-1, thus indicating that the synthesis of IL-9 is regulated differently from that of other Th2-derived lymphokines. Furthermore, it was demonstrated by Northern blot analysis that IL-1 increases IL-9 expression at the pretranslational level. Because IL-1 alone failed to induce the production of IL-9 by T cells, this monokine acts as a costimulator in combination with a T cell receptor-mediated signal.     

Hepatocyte growth factor and keratinocyte growth factor enhance IL-1-induced IL-8 secretion through different mechanisms in Caco-2 epithelial cells

A variety of cytokines have been detected in inflamed intestinal mucosal tissues, including the pro-inflammatory cytokine, interleukin-1 (IL-1), along with growth factors involved in wound healing processes such as proliferation and cell migration. However, little is known about how IL-1 and growth factors interact with intestinal epithelial cells to regulate the production of inflammatory cytokines such as interleukin-8 (IL-8). Previously, we have shown that hepatocyte growth factor (HGF) could significantly enhance IL-1-stimulated IL-8 secretion by the Caco-2 colonic epithelial cell line, yet HGF, by itself, did not stimulate IL-8 secretion. In this report, a second growth factor, keratinocyte growth factor (KGF), was also found to significantly enhance IL-1-induced IL-8 secretion by Caco-2 cells, yet KGF, by itself, also had no effect. Simultaneous addition of both IL-1 and KGF was also required for the enhancing effect. Treatment of the Caco-2 cells with wortmannin or triciribine suppressed the enhancing effect of HGF, suggesting that the effect was mediated by signaling through phosphatidylinositol-3-kinase (PI3K) and the kinase AKT. The enhancing effect of KGF was not affected by wortmannin, but was suppressed by triciribine, suggesting that the effect of KGF was through a PI3K-independent activation of AKT. These results suggest that the growth factors HGF and KGF may play a role in enhancing IL-1-stimulated production of IL-8 by epithelial cells during mucosal inflammations. However, the mechanism by which the growth factors enhance the IL-1 response may be through different initial signaling pathways.     

Regulation of murine lymphokine production in vivo. Ultraviolet radiation exposure depresses IL-2 and enhances IL-4 production by T cells through an IL-1-dependent mechanism

The exposure of experimental animals to the inflammatory effects of ultraviolet radiation (UVR) is known to cause depressions in their ability to initiate and effectuate various types of cellular immune responses. Contact-type and delayed-type hypersensitivity, plus the ability to generate protective forms of anti-viral and anti-tumor immunity, are all affected by the prior exposure of normal animals to the effects of this physical agent. Presently, the cellular and molecular mechanism(s) responsible for mediating the changes in immune function observed in UVR-exposed animals is not fully understood. Herein we report that one reproducible consequence of exposing normal mice to low doses of UVR is a dramatic change in the pattern of lymphokines secreted by their activated T cells. Lymphocytes isolated from UVR-exposed donors produce/secrete greatly reduced levels of the T cell lymphokines IL-2 and IFN-gamma activation in vitro with protein Ag of the polyclonal T cell stimulant anti-CD3. The secretion of IL-4 by these lymphocyte cultures, however, is consistently elevated in comparison to normal controls. Further studies determined that a similar change in lymphokine production was induced when mice were treated with either bacterial LPS or rIL-1 beta, a cytokine known to be elevated in vivo after UVR or LPS exposure. The ability of IL-1 to facilitate a change in the capacity of T lymphocytes to produce/secrete lymphokines after in vitro activation does not appear to represent a direct effect of this cytokine on lymphocyte or accessory cell targets because addition of IL-1 beta to cultures of Ag-primed lymphocytes obtained from normal donors was incapable of altering the pattern of lymphokine production. Collectively, our present results add further support to the hypothesis that UVR-induced elevations in endogenous IL-1 are, in part, responsible for the immunomodulatory effects of UVR. These findings provide compelling evidence that UVR, plus other agents capable of endogenously stimulating the production of IL-1, may function to alter the expression of different effector mechanisms in vivo. This could be facilitated through selective reductions in lymphokines produced by Th-1-type cells (IL-2 and IFN-gamma) and a simultaneous augmentation in a lymphokine produced by Th-2-type cells (IL-4).     

IL-10 inhibits human T cell proliferation and IL-2 production.

Human IL-10 has been reported previously to inhibit the secretion of IFN-gamma in PBMC. In this study, we have found that human IL-10 inhibits T cell proliferation to either mitogen or anti-CD3 mAb in the presence of accessory cells. Inhibited T cell growth by IL-10 was associated with reduced production of IFN-gamma and IL-2. Studies of T cell subset inhibition by human IL-10 showed that CD4+, CD8+, CD45RA high, and CD45RA low cells are all growth inhibited to a similar degree. Dose response experiments demonstrated that IL-10 inhibits secretion of IFN-gamma more readily than T cell proliferation to mitogen. In addition, IL-2 and IL-4 added exogenously to IL-10 suppressed T cell cultures reversed completely the inhibition of T cell proliferation, but had little or no effect on inhibition of IFN-gamma production. Thus, in addition to its previously reported biologic properties, IL-10 inhibits human T cell proliferation and IL-2 production in response to mitogen. Inhibition of IFN-gamma production by IL-10 appears to be independent of the cytokine effect of IL-2 production.     

Stat6-dependent and -independent pathways for IL-4 production

Stat6 has been shown to have a crucial role in the IL-4-dependent differentiation of Th2 cells. In this report, we explore whether in vitro Th2 differentiation driven by altered costimulatory signals or Ag dose is Stat6 dependent. We find that blocking B7-1 signaling in vitro promotes the differentiation of IL-4-secreting Th2 cells in wild-type but not Stat6-deficient T cell cultures. Additionally, stimulation with peptide Ag doses that normally result in the production of Th2 cells in vitro fails to do so in cultures of Stat6-deficient cells. We also demonstrate that Stat6 is required for the in vitro differentiation of CD8+ T cells into IL-4-secreting cytotoxic T cell type 2 cells. However, IL-4 expression is not absolutely dependent on Stat6. We demonstrate that populations of T cells that do not require IL-4 for their development, such as NK T cells, are still competent to secrete IL-4 in the absence of Stat6. These results demonstrate that Stat6 is required for the differentiation program leading to the generation of Th2 and cytotoxic T cell type 2 cells but not for IL-4 expression in cells that do not undergo differentiation in response to IL-4.     

Differential effects of anti-IL-1R accessory protein antibodies on IL-1alpha or IL-1beta-induced production of PGE(2) and IL-6 from 3T3-L1 cells

Soluble or cell-bound IL-1 receptor accessory protein (IL-1RAcP) does not bind IL-1 but rather forms a complex with IL-1 and IL-1 receptor type I (IL-1RI) resulting in signal transduction. Synthetic peptides to various regions in the Ig-like domains of IL-1RAcP were used to produce antibodies and these antibodies were affinity-purified using the respective antigens. An anti-peptide-4 antibody which targets domain III inhibited 70% of IL-1beta-induced productions of IL-6 and PGE(2) from 3T3-L1 cells. Anti-peptide-2 or 3 also inhibited IL-1-induced IL-6 production by 30%. However, anti-peptide-1 which is directed against domain I had no effect. The antibody was more effective against IL-1beta compared to IL-1alpha. IL-1-induced IL-6 production was augmented by coincubation with PGE(2). The COX inhibitor ibuprofen blocked IL-1-induced IL-6 and PGE(2) production. These results confirm that IL-1RAcP is essential for IL-1 signaling and that increased production of IL-6 by IL-1 needs the co-induction of PGE(2). However, the effect of PGE(2) is independent of expressions of IL-1RI and IL-1RAcP. Our data suggest that domain III of IL-1RAcP may be involved in the formation or stabilization of the IL-1RI/IL-1 complex by binding to epitopes on domain III of the IL-1RI created following IL-1 binding to the IL-1RI.     

Helper-independent CD8+ cytotoxic T lymphocytes express IL-1 receptors and require IL-1 for secretion of IL-2

The purpose of this study was to examine the role of IL-1 on the activation of CD8+/CD4- class I-restricted helper cell-independent cytolytic T cell (HITc) clones known to produce IL-2 and proliferate in vitro after Ag stimulation with a Friend retrovirus-induced leukemia (FBL). The functional role of IL-1 in Ag-specific proliferation and IL-2 secretion was assessed by stimulating the T cell clones with FBL either in the presence or absence of macrophages (M phi), rIL-1, or rIL-2. Resting cloned HITc cells, purified from residual accessory cells, failed to proliferate in response to FBL alone, but proliferated in response to FBL plus M phi, rIL-1 or rIL-2. Stimulation with FBL alone in the absence of M phi or IL-1 was sufficient for induction of IL-2R expression, and rendered cells responsive to IL-2, but M phi or IL-1 were also required to induce production of IL-2. The activity of IL-1 was further examined by measuring the binding of [125I]rIL-1 alpha, which demonstrated that resting cloned HITc cells expressed IL-1R that increased in number after activation with Ag. This expression of IL-1R and requirement for IL-1 by CD8+ HITc was surprising because previous studies examining T cell populations after mitogen stimulation have not detected IL-1R on the CD8+ population. Therefore, the role of IL-1 in the activation of CD8+ CTL that do not secrete IL-2 after activation was assessed. By contrast to HITc, CD8+ CTL required exogenous IL-2 to proliferate in vitro and did not express IL-1R. These data demonstrate that the subset of CD8+ T cells responsible for IL-2 production express IL-1R and that triggering this receptor with IL-1 after Ag stimulation results in the production of IL-2 and subsequent proliferation.     

ERK5 modulates IL-6 secretion and contributes to tumor-induced immune suppression

Tumors exhibit a variety of strategies to dampen antitumor immune responses. With an aim to identify factors that are secreted from tumor cells, we performed an unbiased mass spectrometry-based secretome analysis in lung cancer cells. Interleukin-6 (IL-6) has been identified as a prominent factor secreted by tumor cells and cancer-associated fibroblasts isolated from cancer patients. Incubation of dendritic cell (DC) cultures with tumor cell supernatants inhibited the production of IL-12p70 in DCs but not the surface expression of other activation markers which is reversed by treatment with IL-6 antibody. Defects in IL-12p70 production in the DCs inhibited the differentiation of Th1 but not Th2 and Th17 cells from naïve CD4⁺ T cells. We also demonstrate that the classical mitogen-activated protein kinase, ERK5/MAPK7, is required for IL-6 production in tumor cells. Inhibition of ERK5 activity or depletion of ERK5 prevented IL-6 production in tumor cells, which could be exploited for enhancing antitumor immune responses.Subject terms: Cancer microenvironment, Extracellular signalling molecules     

Cross-linking Fc receptors on monocytes triggers IL-6 production. Role in anti-CD3-induced T cell activation

IL-6 is a multifunctional cytokine which is produced by a variety of cells. Therefore it was examined whether anti-CD3-induced T cell activation was associated with the induction of functionally relevant IL-6 in human monocyte accessory cells. Significantly increased amounts of IL-6 were detected in supernatants of anti-CD3-treated PBMC. Stimulation of FACS-sorted greater than 98% pure monocyte accessory cells, but not of highly purified T cells with anti-CD3, resulted in an increased IL-6 production. Furthermore, anti-CD3 significantly enhanced IL-6 mRNA expression in monocyte accessory cells. IL-6 production was not limited to anti-CD3, inasmuch as equivalent IL-6 stimulation could be achieved with a mouse IgG2a isotype control antibody. In contrast to solid phase-bound mouse IgG2a, the soluble form of this antibody failed to induce IL-6 secretion indicating a requirement for Fc gamma RI receptor cross-linking. Moreover, this property may be specific for the Fc gamma RI receptor inasmuch as mouse IgG1 antibodies binding to the Fc gamma RII receptor did not significantly enhance IL-6 production. The role of IL-6 being an additional signal in T cell activation was confirmed by the finding that an anti-IL-6 antiserum was able to suppress anti-CD3-induced T cell activation. These data indicate that binding of anti-CD3 to Fc gamma RI may generate an activation signal towards the monocyte accessory cell leading to the production and secretion of monocyte IL-6, which in turn augments T cell activation, and also may be relevant to a variety of antibody-mediated immune responses against viral and bacterial infections.     

Bruton's tyrosine kinase is required for TLR-induced IL-10 production

Bruton's tyrosine kinase (Btk) is a critical signaling mediator downstream of the B cell Ag receptor. X-linked agammaglobulinemia is caused by mutations in Btk resulting in multiple defects in B cell development and function, and recurrent bacterial infections. Recent evidence has also supported a role for Btk in TLR signaling. We demonstrate that Btk is activated by TLR4 in primary macrophages and is required for normal TLR-induced IL-10 production in multiple macrophage populations. Btk-deficient bone marrow-derived macrophages secrete decreased levels of IL-10 in response to multiple TLR ligands, compared with wild-type (WT) cells. Similarly, Btk-deficient peritoneal and splenic macrophages secrete decreased IL-10 levels compared with WT cultures. This phenotype correlates with Btk-dependent induction of NF-kappaB and AP-1 DNA binding activity, and altered commensal bacteria populations. Decreased IL-10 production may be responsible for increased IL-6 because blocking IL-10 in WT cultures increased IL-6 production, and supplementation of IL-10 to Btk-deficient cultures decreased IL-6 production. Similarly, injection of IL-10 in vivo with LPS decreases the elevated IL-6 serum levels during endotoxemia in Btk-deficient mice. These data further support a role for Btk in regulating TLR-induced cytokine production from APCs and provide downstream targets for analysis of Btk function.