Modulation of IL-2- and IL-4-dependent human B cell proliferation by cyclic AMP.

The second messenger cAMP is a modulator of cellular growth possessing both inhibitory and stimulatory properties. In this report, we show that IL-2- and IL-4-dependent DNA synthesis of anti-mu-activated human B cells is modulated in opposite ways by agents increasing intracellular levels of cAMP. Forskolin and 2'-O-dibutyriladenosine-3',5'-cyclic monophosphate had no proliferative effect by themselves. Nevertheless they decreased IL-2-driven proliferation and increased IL-4-mediated DNA synthesis. IL-4 and cAMP each inhibited the IL-2-dependent proliferation with similar patterns of reactivity. Both IL-4 and forskolin needed to be present during the first 48 h of culture to display inhibitory activity, and preactivation of B cells for 16 h with forskolin and IL-4 did not prevent further B cell response to IL-2. This suggests that cAMP and IL-4 directly interact with IL-2 signaling. In addition, we show that the cAMP-dependent protein kinase inhibitor N-(2-methylamino-ethyl)-5-iso-quinoline-sulfamide reversed the IL-4-inhibitory effect on IL-2-driven proliferation. Our data suggest that the IL-4-inhibitory signal to IL-2-driven human B cell proliferation involves cAMP-dependent protein kinase activation.     

The role of IL-4 in proliferation and differentiation of human natural killer cells. Study of an IL-4-dependent versus an IL-2-dependent natural killer cell clone

The role of IL-4 in proliferation and differentiation of human NK cells was studied using newly established sublines of an IL-4-dependent NK cell clone (IL4d-NK cells) and an IL-2-dependent NK cell clone (IL2d-NK cells) derived from a parental conditioned medium-dependent NK cell clone (CM-NK cells). IL-4 induced the higher proliferation of CM-NK cells, but abolished their NK activity and decreased CD16 and CD56 Ag expression. In contrast, IL-2 induced the higher NK activity and increased CD16 and CD56 Ag expression. Addition of anti-IL-4 antibody to the culture of CM-NK cells with CM inhibited the proliferation, but slightly increased NK activity, and largely increased CD56 Ag expression. Addition of anti-IL-2 antibody to the culture of CM-NK cells with CM inhibited both proliferation and cytotoxicity. Proliferation of IL4d-NK cells, which is totally dependent on rIL-4, is greater than that of IL2d-NK cells, which was greater than parental CM-NK cells. Morphologically, IL4d-NK cells are small and round, whereas IL2d-NK cells are large and elongated. Anti-IL-4 antibody inhibited proliferation of IL4d-NK but not IL2d-NK cells, whereas anti-IL-2 antibody inhibited that of IL2d-NK but not IL4d-NK cells. IL-2 was not detected in the supernatant from IL4d-NK cells, nor was IL-2-mRNA expressed in IL4d-NK cells. In contrast, IFN-gamma production and protein expression in IL4d- and IL2d-NK cells were detected. NK cell activation markers (CD16 and CD56) were expressed on IL2d-NK cells but not IL4d-NK cells. IL4d-NK cells were not cytotoxic to any tumor cells tested, whereas IL2d-NK cells displayed potent NK activity and lymphokine-activated killer activity. IL4d-NK cells failed to bind K562 tumor cells, whereas one-third of the IL2d-NK cells did. IL4d-NK cells responded to rIL-2, proliferated, and differentiated into cytotoxic NK cells, whereas IL2d-NK cells failed to respond to rIL-4 and died. These results raise a possibility that IL4d-NK cells or IL2d-NK cells primarily represent the immunologic properties of immature or activated types of human NK cells, respectively. Our results provide the first evidence of the capability of IL-4 to support continuous proliferation of a lymphocyte clone with immature NK cell characteristics and to stimulate IFN-gamma production in the clone. IL-4 is suggested as a potential growth factor for certain types of human NK cell progenitors.     

Evidence for a role of glycosphingolipids in CXCR4-dependent cell migration

Chemotaxis induction is a major effect evoked by stimulation of the chemokine receptor CXCR4 with its sole ligand CXCL12. We now report that treatment of CHP-100 human neuroepithelioma cells with the glucosylceramide synthase (GCS) inhibitor DL-threo-1-phenyl-2-hexadecanoylamino-3-pyrrolidino-1-propanol inhibits CXCR4-dependent chemotaxis. We provide evidence that the phenomenon is not due to unspecific effects of the inhibitor employed and that inhibition of GCS neither affects total or plasmamembrane CXCR4 expression, nor CXCL12-induced Ca(2+) mobilization. The effects of the GCS inhibitor on impairment of CXCL12-induced cell migration temporally correlated with a pronounced downregulation of neutral glycosphingolipids, particularly glucosylceramide, and with a delayed and more moderate downregulation of gangliosides; moreover, exogenously administered glycosphingolipids allowed resumption of CXCR4-dependent chemotaxis. Altogether our results provide evidence, for the first time, for a role glycosphingolipids in sustaining CXCL12-induced cell migration.     

IL-4 potentiates the IL-2-dependent proliferation of mouse cytotoxic T cells

In addition to the regulation of B lymphocyte growth and differentiation, the cytokine IL-4 (BSF-1) exerts effects on T lymphocytes and other bone marrow-derived lineages. We show here that recombinant mouse IL-4 synergizes with low levels of IL-2 to increase the yield of cytotoxic activity in a primary MLR, and the proliferation of both cloned IL-2-dependent CTL lines and cells obtained from a primary MLR. IL-4 did not induce the proliferation of any of several cloned CTL cell lines on its own. It also did not replace IL-2 in stimulating the growth or reactivation of quiescent, antigen-dependent CTL clones. However, IL-4 was synergistic with IL-2 after reactivation of the quiescent cells with antigen plus IL-2. Enhancement by IL-4 of the IL-2-driven proliferation of an antigen-independent line was blocked by the addition of anti-IL-4 monoclonal antibody. Although incubation of the CTL clones with IL-4 or with IL-2 plus IL-4 induced a transient increase in the expression of the mRNA encoding the 55 kDa IL-2 receptor, no change in the number or affinity of IL-2 receptors because of IL-4 was detected. This suggests that IL-4 does not potentiate the IL-2 response by altering IL-2 receptor levels. Instead, we propose that the synergistic effect of IL-4 is mediated by a different signalling mechanism from that used by IL-2.     

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.     

Stat3-dependent induction of p19INK4D by IL-10 contributes to inhibition of macrophage proliferation

We have previously reported that IL-10 inhibits proliferation of normal bone marrow-derived macrophages and of the monocyte/macrophage cell line J774. Activation of Stat3 was shown to be necessary and sufficient to mediate inhibition of proliferation. To investigate further the mechanism of growth arrest, we examined the effect of IL-10 on expression of cell cycle inhibitors. We found that IL-10 treatment increases expression of the cyclin-dependent kinase inhibitors p19INK4D and p21CIP1 in macrophages. IL-10 cannot induce p19INK4D expression or block proliferation when Stat3 signaling is blocked by a dominant negative Stat3 or a mutant IL-10Ralpha which does not recruit Stat3 in J774 cells, whereas p21CIP1 induction is not affected. An inducibly active Stat3 (coumermycin-dimerizable Stat3-Gyrase B), which suppresses J774 cell proliferation, also induced p19INK4D expression. Sequencing of the murine p19INK4D promoter revealed two candidate Stat3 binding sites, and IL-10 treatment activated a reporter gene controlled by this promoter. These data suggest that Stat3-dependent induction of p19INK4D mediates inhibition of proliferation. Enforced expression of murine p19INK4D cDNA J774 cells significantly reduced their proliferation. Use of antisense p19INK4D and analysis of p19INK4D-deficient macrophages confirmed that p19INK4D is required for optimal inhibition of proliferation by IL-10, and indicated that additional IL-10 signaling events contribute to this response. These data indicate that Stat3-dependent induction of p19INK4D and Stat3-independent induction of p21CIP1 are important components of the mechanism by which IL-10 blocks proliferation in macrophages.     

Mycophenolic acid inhibits IL-2-dependent T cell proliferation,but not IL-2-dependent survival and sensitization to apoptosis

Mycophenolic acid (MPA), the active metabolite of the immunosuppressive drug mycophenolate mofetil, is a selective inhibitor of inosine 5'-monophosphate dehydrogenase type II, a de novo purine nucleotide synthesis enzyme expressed in T and B lymphocytes and up-regulated upon cell activation. In this study, we report that the blockade of guanosine nucleotide synthesis by MPA inhibits mitogen-induced proliferation of PBL, an effect fully reversed by addition of guanosine and shared with mizoribine, another inhibitor of inosine 5'-monophosphate dehydrogenase. Because MPA does not inhibit early TCR-mediated activation events, such as CD25 expression and IL-2 synthesis, we investigated how it interferes with cytokine-dependent proliferation and survival. In activated lymphoblasts that are dependent on IL-2 or IL-15 for their proliferation, MPA does not impair signaling events such as of the extracellular signal-regulated kinase 2 and Stat5 phosphorylation, but inhibits down-regulation of the cyclin-dependent kinase inhibitor p27(Kip1). Therefore, in activated lymphoblasts, MPA specifically interferes with cytokine-dependent signals that control cell cycle and blocks activated T cells in the mid-G(1) phase of the cell cycle. Although it blocks IL-2-mediated proliferation, MPA does not inhibit cell survival and Bcl-x(L) up-regulation by IL-2 or other cytokines whose receptors share the common gamma-chain (CD132). Finally, MPA does not interfere with IL-2-dependent acquisition of susceptibility to CD95-mediated apoptosis and degradation of cellular FLIP. Therefore, MPA has unique functional properties not shared by other immunosuppressive drugs interfering with IL-2R signaling events such as rapamycin and CD25 mAbs.     

Isolation and characterization of an IL-1-dependent IL-4-producing bovine CD4+ T cell clone.

An Ag-specific interleukin 1 (IL-1)-dependent bovine CD4+ Th cell clone, termed 300B1, was isolated and found to resemble the previously described IL-1-dependent murine CD4+ Th2 cell clone, D10.G4.1. Both the 300B1 and the D10.G4.1 T cell clones proliferated to bovine (Bo) IL-1 beta, human (Hu) IL-1 alpha and IL-1 beta, and murine IL-1 alpha when cells were costimulated with concanavalin A (Con A). Proliferation of the 300B1 clone, when costimulated with Con A, appeared to be IL-1-specific in that proliferation could not be promoted by BoIL-2, HuIL-3, HuIL-4, HuIL-5, or HuIL-6. The 300B1 clone produced interferon-gamma (IFN-gamma), but not IL-2 following stimulation with either Con A, Con A plus phorbol 12-myristate 13-acetate or Ag plus antigen-presenting cells. Upon stimulation with Con A, the 300B1 clone expressed IL-4 mRNA and produced an autocrine growth factor (AGF) that could be inhibited by anti-HuIL-4 but not by anti-HuIL-2 Ab. The clonal derivation of the 300B1 clone was confirmed by isolating five 300B1 subclones, all of which produced IFN-gamma and an AGF but not IL-2. Collectively, these results suggest the IL-1-dependent bovine 300B1 Th cell clone produces IL-4, but not IL-2, as an AGF. Furthermore, the bovine Th cell clone appeared to share many characteristics of previously described murine Th2 cell clones except that the bovine clone produced IFN-gamma.     

Influence of glycosphingolipids on cancer cell energy metabolism

A growing number of studies describe a connection between glycosphingolipids (GSLs) and glutamine metabolism, glucose metabolism and mitochondrial dysfunction in cancer cells. Since deregulated cell energy metabolism is one of cancer cells hallmarks, investigating this connection is an important step in the development of anti-cancer therapies. GSL species are often aberrantly regulated in human cancers. They cluster in signaling platforms in the plasma membrane and organelle membranes in so called glycosphingolipid enriched microdomains (GEMs), thereby regulating cell signaling pathways. The most important glutamine transporter for epithelial cells, alanine-serine-cysteine transporter 2 (ASCT2) locates in GEMs and is regulated by GEM composition. The accumulation of glucosylceramide and lactosylceramide in mitochondria associated ER membranes (MAMs) leads to increased oxidative phosphorylation. This increases mitochondrial reactive oxygen species (ROS) levels and influences mitochondrial dynamics. Here, we review current knowledge about deregulated GSL species in cancer, GSL influence on glutamine and glucose metabolism. In addition, the role of GSLs in MAMs, oxidative phosphorylation (OXPHOS) and mitochondrial dynamics with a special focus on mechanistic target of rapamycin (mTOR) signaling is discussed. mTOR seems to play a pivotal role in the connection between GSLs and glutamine metabolism as well as in mitochondrial signaling.     

Reversible inhibition by human serum lipoproteins of cell proliferation

Normal human serum or plasma was studied for the presence of inhibitors of cell proliferation by assaying inhibition of incorporation of labeled thymidine into acid-insoluble fraction using human FL cells. Lipoprotein fraction obtained by gel filtration through Sepharose 4B and by KBr density gradient centrifugation was found to play a major part of the inhibitory activity of the serum. It was also shown that the inhibitory activity resides in low-density lipoprotein (LDL). The addition of the lipoprotein fraction to growing FL cells caused an early decrease in the transport of uridine and thymidine across the membrane. This change in the permeability of membrane was followed by the preferential inhibition of DNA synthesis and a reduction in the percentage of mitotic cells in the cell population. The inhibition of the growth was reversible and was observed in various types of cells irrespective of species.     

Immunosuppressive activity of bovine seminal RNase on T-cell proliferation

The interest in the immunosuppressive activity of mammalian seminal plasma depends largely on its putative role in the immunoregulation of both the male and female genital systems. We report here that the immunosuppressive action of bovine seminal plasma is based on the presence in this fluid of copious amounts of an immunosuppressive RNase, bovine seminal RNase. Studies of structure-function relationships have revealed that the immunosuppressive activity of seminal RNase depends on the integrity of the dimeric structure of the enzyme, as well as on the integrity of its catalytic function. While bovine seminal RNase has no effect on the secretion of interleukin-2 by T-cell cultures, the enzyme has been found to decrease drastically the expression of the alpha-chain of the interleukin-2 receptor on the T-cell membrane.     

IL-4 potentiates activated T cell apoptosis via an IL-2-dependent mechanism

Activation-induced cell death (AICD) of T cells is one of the major mechanisms of peripheral tolerance. The regulation of AICD by IL-4 is poorly understood. In this study, we report that AICD in IL-4-deficient T cells is significantly reduced compared with that in wild-type T cells. This impaired AICD correlates with the failure to induce degradation of cellular FLIP. IL-4-mediated enhancement of AICD and cellular FLIP degradation requires a Janus kinase/STAT-6 signaling pathway. Unexpectedly, these effects of IL-4 could be blocked by a neutralizing anti-IL-2 Ab, and addition of rIL-2 could completely restore the defective AICD in IL-4-deficient T cells. Furthermore, IL-4 regulates the T cell thresholds for IL-2 signaling during AICD. These data suggest that IL-4 promotes AICD via an IL-2-dependent mechanism.     

Stimulation and inhibition of human T-lymphocyte colony cell proliferation by hemopoietic cell factors.

Human lymphocytes, isolated from peripheral blood and stimulated with phytohemagglutinin M (PHA) prior to being seeded on a two-layer medium of soft agar which contained the mitogen, developed into colonies 3–4 days after seeding in the culture system. The cloning potential of PHA-treated lymphocytes is significantly enhanced by adding, to the soft agar culture, culture fluid (CF) obtained from mitogen-treated lymphocytes or a feeder layer (FL) prepared either from lymphocytes isolated from peripheral blood or from T-cell enriched populations. PHA seems to stimulate the release of lymphocyte colony enhancing factor (LCEF) from the T-sensitized lymphocytes. The addition of CF or FL to the culture medium appears to increase the amount of LCEF, resulting in enhancement of the number and size of lymphocyte colonies. When CF derived from spleen cells or from the peripheral blood adherent-cell population was added to the lower layer of the soft agar culture, the growth and development of lymphocyte colonies was inhibited. This suggests that monocyte-macrophages release a lymphocyte colony inhibiting factor (LCIF) into the CF. The extent of inhibition or stimulation of colony formation is a function of the number and type of cells used to prepare the CF or FL and the concentration of CF in the culture medium. The presence of FL or CF derived from spleen non-adherent cells, white blood cells, bone marrow cells, or a B-cell enriched population had no effect on colonies growing in the culture. This may possibly be due to the paucity of T lymphocytes and monocyte-macrophages present in these materials. A control system in which LCIF, produced by monocyte-macrophages, and LCEF, produced by T lymphocytes, participate in the regulation of lymphocyte production is postulated.     

IL-2-dependent proliferation of thymic accessory cells

Phagocytic cells of the thymic reticulum are Ia-positive accessory cells continuously produced in long term thymic stroma cultures. We show in the present paper that phagocytic cells of the thymic reticulum have R for IL-2. They share this property with splenic accessory cells produced in vitro by the same technique but have the unique property of proliferating in the presence of rIL-2. This proliferation is not enhanced by Con-A, is not linked to a lymphoid contaminant, and is specifically inhibited by an anti-IL-2R mAb.     

Highly concentrated urine-purified Tac peptide fails to inhibit IL-2-dependent cell proliferation in vitro.

Tac peptide, i.e., the p55 chain of the human interleukin-2 receptor (IL-2R) complex, is detectable as a soluble from (sIL-2R) in normal sera and, at increased levels, in patients with different diseases. Since several immunological abnormalities are observed in most conditions associated with an increase in sIL-2R levels, a down-regulatory effect on IL-2-dependent functions has been postulated as a consequence of binding and functional block of IL-2 by the excess of sIL-2R. To test this hypothesis, we purified sIL-2R from the urine of a patient with hairy cell leukemia and investigated the possible inhibitory effect of this peptide on the in vitro IL-2-induced cell proliferation. The urine-purified molecule was detectable by the specific immunoassay utilized to measure the serum Tac peptide and was constructed by a single polypeptide of about 50 kDa which was able to bind IL-2. Experiments performed with the IL-2-dependent murine CTLL-2 cell line and with PHA-stimulated human peripheral blood mononuclear cells showed that the purified sIL-2R at concentrations up to about 300 nM was unable to block IL-2-dependent cell proliferation. According to these data, which can be explained by the low affinity for IL-2 of the p55 IL-2R chain, it seems unlikely that in vivo the soluble Tac peptide can exert a down regulatory effect on IL-2-induced phenomena through a functional block of IL-2.     

Gangliosides suppress the proliferation of autoreactive cells in experimental allergic encephalomyelitis: ganglioside effects on IL-2 activity

Gangliosides have been shown to suppress human and murine lymphocyte proliferative responses in vitro. We tested the suppressive effects of gangliosides on the proliferation of autoreactive lymphoid cells obtained from Lewis rats with experimental allergic encephalomyelitis (EAE). Exogenous rat brain gangliosides inhibited both antigen- and mitogen-induced proliferation by as much as 79 and 93%, respectively. Gangliosides similarly inhibited the antigen-induced proliferation of a myelin basic protein (MBP)-reactive T-cell line which is able to passively induce EAE. Suppression was greatest when gangliosides were added at the initiation of culture, and was not abrogated by supraoptimal antigen concentration. Interleukin 2 (IL-2) activity in culture supernatants was not diminished by the addition of gangliosides. Gangliosides did not inhibit the IL-2-induced proliferation of a murine IL-2-dependent cell line, CTLL-20, unless the IL-2 was first preincubated with gangliosides before the addition of CTLL-20. Preincubation of CTLL-20 with gangliosides resulted in no inhibition of the subsequent responses to IL-2. Exogenous gangliosides did not decrease the binding of a monoclonal antibody directed against the rat cell surface IL-2 receptor. Addition of exogenous IL-2 to ganglioside-suppressed cultures had no effect or only partially restored the proliferative responses. Therefore, gangliosides were shown to inhibit the proliferation of autoreactive lymphoid cells without affecting IL-2 production or IL-2 receptor expression.     

Differential inhibition of T and B cell function in IL-4-dependent IgE production by cyclosporin A and methylprednisolone

The present study examines the role of the immunosuppressive agents methylprednisolone (MPN) and cyclosporin (Cs)A on IL-4-dependent IgE and IgG production. Addition of optimal amounts of IL-4 (100 U/ml) to cultures of tonsil mononuclear cells resulted in a mean increase in IgG production of 175% and in IgE production of 2460%. Frequency analysis of IgE- and IgG-producing B cells, using an ELISA spot assay, showed parallel increases in both Ig production and numbers of Ig-secreting B cells. IgE production was also enhanced by addition of IL-2 (10 U/ml) and maximal IgE production was obtained with a combination of IL-4 and IL-2. MPN (10(-7) M) and CsA (1 microgram/ml) markedly reduced IL4-induced IgE and IgG production as well as numbers of Ig-secreting cells in a dose-dependent fashion. The suppression of Ig production by the cyclosporins was restricted to the immunosuppressive compounds CsA, CsG, and dihydro-CsD, but not the nonimmunosuppressive drug CsH. Delayed addition of CsA revealed that inhibition was maximal when the drug was added during the first 48 h after addition of IL-4 to the culture. Addition of IL-2 (10 U/ml) partially overcame the inhibition induced by CsA. In coculture experiments, in which separated T or B cells were precultured with the drugs and the cells were then combined and further incubated in the presence of IL-4, the suppressive effects of CsA on IgE production were related to pretreatment of the T but not B cells. The maximum inhibiting effects of MPN were similarly observed when the drug was present in the cultures from the beginning, and addition of IL-2 also partially reversed this inhibition. In contrast to the results with CsA, pretreatment of the B but not T cells with MPN-reduced IgE production. These studies demonstrate that IL-4 increases both numbers of IgE-secreting cells as well as IgE production and CsA and MPN differentially affect the responding T and B cells, resulting in inhibition of Ig production.     

Immunosuppressive factors from human breast carcinoma cell lines that affect initiation of lymphocyte proliferation

Summary Supernatants from two human breast carcinoma cell lines, 734B and 231, have been shown to inhibit lymphocyte activation by mitogens and antigens. This inhibition appears to be specific for lymphocytes or recently stimulated cells, while having no effect on the growth of established cell lines. Studies of the mechanism of inhibition revealed that the factors inhibit lymphocyte activation and that the factors must be present at the initiation of lymphocyte stimulation for inhibition to occur. The supernatants do not inhibit lymphocyte activation by blocking binding of PHA to lymphocytes. Preliminary purification steps have shown that the inhibitory factors present in the tissue culture supernatants are precipitated at 50% ammonium sulfate saturation and their molecular weights are greater than 100 000. The inhibitory capacity of the 734B supernatants was destroyed by heating at 70° C, while the factors present in the 231 supernatants were only partially destroyed by heating to 90° C. The possible mechanism of action of the inhibitory substances released by tumors and their relevance to tumor growth are important to understanding of immune responses to neoplasia.