IL-4 and granulocyte-macrophage colony-stimulating factor selectively increase HLA-DR and HLA-DP antigens but not HLA-DQ antigens on human monocytes

A number of cytokines were tested for their ability to modulate HLA-DR Ag expression on normal human monocytes. IL-4, granulocyte-macrophage (GM)-CSF as well as IFN-gamma were able to increase HLA-DR Ag expression on monocytes. IFN-alpha was also able to augment HLA-DR Ag expression, but to a lesser degree. Macrophage-CSF, granulocyte-CSF, TNF-alpha, TNF-beta, and IL-6 were not able to augment HLA-DR Ag expression. There were distinct patterns in the ability of different cytokines to augment class II histocompatibility Ag expression. IL-4 and GM-CSF selectively increased only HLA-DR and HLA-DP, but did not increase HLA-DQ antigens on monocytes. IFN-gamma, however, was able to augment the expression of HLA-DR, HLA-DP, and HLA-DQ Ag. Combinations of IFN-gamma with either IL-4 or GM-CSF did not show any synergy for the augmentation of any of the class II antigens on monocytes.     

Differential requirements for cellular cytoskeleton in human macrophage complement receptor- and Fc receptor-mediated phagocytosis.

We investigated the requirement for cellular cytoskeleton in CR- and FcR-mediated phagocytosis by human monocyte-derived macrophages (M phi). Inhibition of actin microfilament (MF) assembly and stability by cytochalasins B and D completely inhibited M phi phagocytosis of sheep E coated with C3b (EC3b), iC3b (EC3bi), and IgG (EIgG) via CR1, CR3, and FcR, respectively. Ligand-binding to either CR or FcR was not effected by cytochalasins. Nocodazole (NOC), which prevents microtubule (MT) polymerization, and taxol, which causes random polymerization of MT inhibited M phi phagocytosis of EC3b(i) but not EIgG. However, the combination of taxol (5 x 10(-4) M) and NOC (2 x 10(-6) M) augmented M phi CR-mediated phagocytosis. In addition, agents known to increase intracellular cGMP augmented phagocytosis of EC3b(i). Conversely, agents that increase intracellular cAMP inhibited CR-mediated phagocytosis. These agents had no effect on FcR-mediated phagocytosis, and did not effect ligand-binding to CR or FcR. PMA markedly enhanced CR- but not FcR-mediated phagocytosis, and augmentation of CR-mediated phagocytosis by PMA was inhibited by both CD and NOC. In contrast, the synthetic diacylglycerol, 1-oleoyl-2-acetoyl-sn-3-glycerol augmented, and inhibitors of protein kinase C inhibited M phi phagocytosis via CR and FcR. These data indicate that for adherently cultured human M phi: 1) binding of ligand-coated E to CR or FcR does not require an intact cytoskeleton; 2) intact actin microfilament are required for phagocytosis via CR and FcR; 3) phagocytosis via CR1 and CR3 but not FcR is dependent on MT assembly; 4) PMA most likely augments CR-mediated phagocytosis through promotion of MT assembly; and 5) PKC activity is involved in the phagocytic signal generated by both CR and FcR.     

Combined effects of tumor necrosis factor-alpha, prostaglandin E2, and corticosterone on induced Ia expression on murine macrophages

Ia expression is an important marker of macrophage functional capacity. IFN-gamma induces Ia expression on perhaps all murine macrophages, whereas IL-4, granulocyte-macrophage CSF, and CSF-1 induce Ia on restricted sets of macrophages. Inhibitors of expression include PGE2, glucocorticoids, and IFN-beta. TNF has been found to augment Ia expression on several macrophage lineage cell lines but to inhibit expression on murine peritoneal macrophages. Our study shows that TNF can have opposite effects on Ia expression (induced by IFN-gamma) on thioglycollate-elicited peritoneal macrophages, depending on the length of time cells are treated and on the presence of other modulators. In particular, TNF augmented early expression induced by IFN-gamma but inhibited later expression. And although TNF synergized with PGE2 to markedly inhibit Ia induction on these cells, it partially antagonized the inhibition by corticosterone and IFN-beta. TNF and PGE2 also synergized to inhibit Ia expression induced on bone marrow-derived and splenic macrophages by either IFN-gamma or IL-4. In contrast to their effect on Ia expression, TNF and PGE2 had opposite effects on expression of gamma 2a FcR in macrophages. TNF blocked the increase in FcR expression due to any combination of PGE2, IFN-gamma, and IFN-beta. However, TNF and PGE2 both increased expression of gamma 2a FcR on WEHI-3 cells. If the different effects of TNF reflect the differentiation states of macrophages, its effects on Ia and FcR expression may vary with the progression of an immune response.     

Colony-stimulating factor-induced monocyte survival and differentiation into macrophages in serum-free cultures

The role of mononuclear phagocyte-specific colony-stimulating factor (CSF-1) in human monocyte to macrophage differentiation was investigated. The addition of 1000 U/ml of CSF-1 to serum-free monocyte cultures resulted in monocyte survival comparable to that in cultures containing 5% AB serum, whereas cells in serum- and CSF-1-free medium lost their viability in 3 to 5 days. The requirement for CSF-1 coincided with the time (40 to 64 hr of culture) when the major changes in morphology and biochemical function took place in monocytes undergoing differentiation into macrophages. If CSF-1 was removed from the cultures before this time, death of the monocytes resulted. In cultures containing CSF-1, as in serum containing cultures, the lysosomal enzyme acid phosphatase was enhanced 10- to 20-fold by day 4 to 5. Superoxide production in response to phorbol myristic acetate was maintained in CSF-1 cultured monocytes, but declined with time in monocytes cultured in serum. The expression of monocyte-macrophage antigens p150.95 (LeuM5), OKM1, LeuM3, Fc receptors (32.2), and HLA-DR had increased in CSF-1 containing cultures at day 4. When antigen expression was analyzed at day 2 to 3, when cell size and 90 degrees scatter characteristics were still identical to control serum-free cultures, only p150.95, HLA-DR and FcR expression were enhanced by CSF-1. Low amounts of lipopolysaccharide (0.1 ng/ml) were found to enhance monocyte survival in the absence of added CSF-1. Lipopolysaccharide-containing cultures were found to produce CSF-1 (up to 450 U/ml, as detected by radioimmunoassay). Lipopolysaccharide (1 microgram/ml), however, did not induce enhanced expression of the maturation-related antigens. Based on these observations we conclude that CSF-1 is enhancing human monocyte survival and is involved in the events leading to the differentiation of monocytes into macrophages.     

B cell stimulatory factor-1 (interleukin 4) activates macrophages for increased tumoricidal activity and expression of Ia antigens

Macrophages are activated by lymphokines (LK) to kill tumor cell and microbial targets. Interferon-gamma (IFN) is the major LK activity in conventional, antigen or mitogen-stimulated spleen cell culture fluids for induction of these macrophage effector functions. In view of the recent demonstration that murine macrophage-like cell lines have receptors for B cell stimulatory factor-1/interleukin 4 (BSF-1), a possible role for BSF-1 in regulation of macrophage function was considered. In this communication, thioglycollate-elicited murine peritoneal macrophages were shown to express about 2300 high affinity (Ka approximately 2 X 10(10) M-1) BSF-1 receptors/cell. Peritoneal macrophages treated with purified, T cell-derived BSF-1 developed potent tumoricidal activity against fibrosarcoma target cells. The concentration of BSF-1 that induced 50% of maximal tumor cytotoxicity was 38 +/- 4 U/ml for seven experiments; similar dose-responses were observed with recombinant BSF-1. That BSF-1 dose-responses for induction of macrophage-mediated tumor cytotoxicity were not affected by 5 micrograms/ml polymyxin B suggested that contaminant endotoxins played little or no role in cytotoxic activity. BSF-1 alone (less than or equal to 500 U/ml) was not directly toxic to tumor cells or macrophages. Macrophage tumoricidal activity induced by BSF-1 but not by IFN was inhibited greater than or equal to 90% with monoclonal anti-BSF-1 antibody. BSF-1 induced Ia antigen expression on peritoneal macrophages and increased (twofold to threefold) FcR(II)-dependent binding of murine IgG immune complexes to bone marrow-derived macrophages (greater than 98% macrophages). Based on these findings, it was concluded that BSF-1 is a potent macrophage activation factor.     

HLA-DR expression on human peritoneal macrophages in vivo and in vitro

Qualitative, semi-quantitative (immuno-electronmicroscopy), and quantitative (radioimmunoassay) measurements were made of the in vivo and in vitro expression of HLA-DR on continuous ambulatory peritoneal dialysis (CAPD) patients' peritoneal macrophages (M phi) and on healthy persons' blood monocytes (MO). In vivo, great variation is seen in both the qualitative and (semi-) quantitative expression of HLA-DR in peritoneal M phi. After culturing for 5 to 20 h, CAPD patients' M phi with low to intermediate numbers of HLA-DR molecules per cell (25-80 x 10(3] showed a two- to threefold enhancement of HLA-DR expression. This enhancement was determined for the total peritoneal cell (PC) population and for the adherent subpopulation of peritoneal M phi and blood MO. CAPD patients whose cells initially had high numbers of HLA-DR molecules (80-110 x 10(3] showed no or only slight enhancement of HLA-DR expression when cultured.     

Synergism of glucocorticoids with granulocyte macrophage colony stimulating factor (GM-CSF) but not interferon gamma (IFN-gamma) or interleukin-4 (IL-4) on induction of HLA class II expression on human monocytes.

Peripheral blood monocytes from up to 13 normal donors were stimulated with the cytokines interferon gamma (IFN-gamma), interleukin 4 (IL-4) and granulocyte macrophage-colony stimulating factor (GM-CSF) in the presence or absence of dexamethasone (Dex), and the effects on HLA class II (HLA-DR, DP and DQ) expression studied. Dex markedly augmented HLA-DR, DP and DQ levels induced by GM-CSF, in all samples tested. Particularly striking were the effects on HLA-DQ expression, since stimulation with a combination of Dex and GM-CSF induced markedly higher levels of HLA-DQ antigen than stimulation with IFN-gamma. Northern blot analysis of samples treated for 40 hours with Dex and GM-CSF indicated that levels of DR alpha, DP alpha and DQ alpha mRNA were also increased. In contrast, despite variation between individual donors, in general Dex weakly inhibited both constitutive and IFN-gamma- or IL-4-induced HLA-DR expression. Variability in the responsiveness of monocytes purified from individual donors to each cytokine was also observed. GM-CSF was less potent than IFN-gamma and IL-4, enhancing HLA class II expression in only seven of 13 donors tested, whereas in the presence of Dex all donors responded to GM-CSF. The differential effects of glucocorticoids in vitro suggest that these cytokines induce HLA class II expression by different mechanisms.     

TNF-alpha drives human CD14+ monocytes to differentiate into CD70+ dendritic cells evoking Th1 and Th17 responses

Many mechanisms involving TNF-alpha, Th1 responses, and Th17 responses are implicated in chronic inflammatory autoimmune disease. Recently, the clinical impact of anti-TNF therapy on disease progression has resulted in re-evaluation of the central role of this cytokine and engendered novel concept of TNF-dependent immunity. However, the overall relationship of TNF-alpha to pathogenesis is unclear. Here, we demonstrate a TNF-dependent differentiation pathway of dendritic cells (DC) evoking Th1 and Th17 responses. CD14(+) monocytes cultured in the presence of TNF-alpha and GM-CSF converted to CD14(+) CD1a(low) adherent cells with little capacity to stimulate T cells. On stimulation by LPS, however, they produced high levels of TNF-alpha, matrix metalloproteinase (MMP)-9, and IL-23 and differentiated either into mature DC or activated macrophages (M phi). The mature DC (CD83(+) CD70(+) HLA-DR (high) CD14(low)) expressed high levels of mRNA for IL-6, IL-15, and IL-23, induced naive CD4 T cells to produce IFN-gamma and TNF-alpha, and stimulated resting CD4 T cells to secret IL-17. Intriguingly, TNF-alpha added to the monocyte culture medium determined the magnitude of LPS-induced maturation and the functions of the derived DC. In contrast, the M phi (CD14(high)CD70(+)CD83(-)HLA-DR(-)) produced large amounts of MMP-9 and TNF-alpha without exogenous TNF stimulation. These results suggest that the TNF priming of monocytes controls Th1 and Th17 responses induced by mature DC, but not inflammation induced by activated M phi. Therefore, additional stimulation of monocytes with TNF-alpha may facilitate TNF-dependent adaptive immunity together with GM-CSF-stimulated M phi-mediated innate immunity.     

Regulation of monocyte/macrophage C2 production and HLA-DR expression by IL-4 (BSF-1) and IFN-gamma

IL-4 was originally described on the basis of its ability to co-stimulate the proliferation of resting B cells treated with anti-IgM. Recently, this cytokine has been shown to have other effects on mast cells, T cells, B cells, and macrophages. We studied the ability of IL-4 to regulate the production of C2 by human monocytes and monocytic cell lines and compared this with stimulation of HLA-DR expression, another recently described activity of IL-4. Responses to IL-4 were compared to IFN-gamma, a cytokine with both activities. IL-4 up-regulated C2 production by human monocytes and this effect was not inhibited by neutralizing anti-IFN-gamma antibody. IL-4 also stimulated C2 production by HL-60 cells that had been pre-treated with vitamin D3 to induce monocytic differentiation. IL-4 did not stimulate C2 production by U937 cells. IFN-gamma, in contrast to IL-4, stimulates C2 production by all three cell types. Although IL-4 increased C2 production by HL-60 cells we could not detect C2 mRNA by Northern blotting. However, co-stimulation of these cells with IL-4 and low concentrations of IFN-gamma resulted in an additive effect on C2 production and a greater increase in C2 mRNA than was seen with IFN-gamma alone. As reported by others, IL-4-stimulated HLA-DR expression by monocytes. In contrast to our findings regarding C2 production, stimulation of HLA-DR expression was inhibited by neutralizing anti-IFN-gamma mAb and IL-4 did not stimulate HLA-DR expression by U937 or HL-60 cells. IFN-gamma stimulated HLA-DR expression by all three cell types. These results identify IL-4 as an additional cytokine able to directly stimulate C2 production by human monocytes and by a monocytic cell line whereas IL-4 stimulation of HLA-DR expression by monocytes appears to be IFN-gamma dependent.     

Dissection of defective antigen presentation by interferon-gamma-treated fibroblasts

The capacity of interferon-gamma (IFN-gamma)-treated HLA-DR expressing human dermal fibroblasts (FB) to function as antigen-presenting cells (APC) was examined. FB were cultured with 250 U/ml IFN-gamma for 4 days to induce HLA-DR expression. Peripheral blood monocytes (M phi), FB, or IFN-gamma-treated FB from the same donor were then cultured overnight with or without the recall antigen streptokinase streptodornase (SKSD), and their capacity to stimulate autologous T4 cell DNA synthesis was examined. SKSD-bearing M phi stimulated T4 cell proliferation, whereas antigen-bearing HLA-DR (+) FB did not. Even after fixation with paraformaldehyde to eliminate metabolic activity, SKSD-bearing M phi, but not FB, were able to function as APC. However, when HLA-DR (-) endothelial cell (EC) or autologous or HLA-D-mismatched M phi were added to the cultures, antigen-pulsed IFN-gamma-treated FB and M phi were comparably effective stimulators of autologous T4 cell DNA synthesis. Antigen recognition by the T4 cell was restricted by the class II major histocompatibility complex (MHC)-encoded gene products expressed by the IFN-gamma-treated FB and was unrelated to the class I or II MHC-encoded gene products expressed by the additional cell type. EC-promoted T4 cell DNA synthesis induced by antigen-bearing IFN-gamma-treated FB was inhibited by 60.3, a monoclonal antibody directed at an epitope common to LFA-1, CR3, and the p150,95 molecule. Inhibition caused by 60.3 was completely reversed by the addition of IL 2 to the cultures. Antigen presentation by IFN-gamma-treated FB was also enhanced somewhat by IL 1, IL 2, or monoclonal antibody directed at Tp44 (9.3). However, each of these additions alone promoted T cell proliferation less effectively than EC and resulted in responses that were smaller than those triggered by antigen-bearing M phi. The data suggest that IFN-gamma-treated FB take up and process antigen effectively, but lack an accessory cell property necessary for antigen-induced T4 cell IL 2 production and proliferation.     

Regulation of aminopeptidase-N (CD13) and Fc epsilon RIIb (CD23) expression by IL-4 depends on the stage of maturation of monocytes/macrophages.

IL-4 has multiple biologic activities and it has been shown to have effects on B and T lymphocytes, mast cells, NK cells, and monocytes. We studied the influence of IL-4 on the expression of cell membrane determinants, in particular aminopeptidase-N (CD13) and Fc epsilon RIIb (CD23), on human peripheral blood monocytes. We compared the response of monocytes with the response of human alveolar macrophages and monocytic cell lines (U937 and THP1), as mature and more immature representatives of the mononuclear phagocyte system, respectively. A dose-dependent increase of the expression of CD13 Ag was observed when monocytes were cultured with IL-4. Kinetic analyses revealed that this induction was maximal after 2 to 3 days of culture and resembled the kinetics of IL-4-induced expression of Fc epsilon RIIb on monocytes. This IL-4-induced increase was absent when monocytes were cultured with IL-4 and an anti-IL-4 antiserum. Concomitantly, an IL-4-induced increase in leucine-aminopeptidase activity could be observed. Northern blot analysis showed that incubation of monocytes with IL-4 induced a marked increase in CD13 mRNA. Alveolar macrophages also exhibited an increase in CD13 Ag expression when exposed to IL-4. Surprisingly, IL-4 was unable to induce expression of Fc epsilon RIIb on alveolar macrophages. U937 and THP1 cells did not show an induction of CD13 Ag when cultured in the presence of IL-4. However, IL-4 did induce the expression of Fc epsilon RIIb on both cell lines, suggesting the presence of functional IL-4R. Our data demonstrate that IL-4 increases the expression of CD13 Ag on monocytes. This IL-4-induced increase can also be observed in more mature monocytic cells such as alveolar macrophages, but is absent in immature cells such as U937 or THP1 cells. This is functionally accompanied by an increase in leucine-aminopeptidase activity and may be part of the general activation of monocytes/macrophages by IL-4. In conclusion, the data suggest that IL-4 responsiveness, in particular the induction of CD13 Ag and Fc epsilon RIIb expression, may be dependent on the stage of maturation of monocytes/macrophages.     

IFN-alpha and IFN-gamma have different regulatory effects on IL-4-induced membrane expression of Fc epsilon RIIb and release of soluble Fc epsilon RIIb by human monocytes

We used highly purified human monocytes to study the regulation of cell surface and secretion of the low affinity FcR for IgE (Fc epsilon RIIb). IL-4 induces Fc epsilon RIIb expression and soluble Fc epsilon RIIb release in a dose-dependent manner. Significant levels of Fc epsilon RIIb expression were obtained after 12 h of incubation with IL-4 and maximal expression was observed between 24 to 48 h after which the expression declined. Surface expression was followed by secretion of soluble Fc epsilon RIIb which reached maximal levels after 3 to 4 days of incubation and which remained constant throughout 7 days of culture. Induction of Fc epsilon RIIb expression by IL-4 was completely blocked by anti-IL-4 antibodies. Furthermore, IL-1 alpha, IL-2, IL-5, granulocyte-macrophage-CSF, IFN-alpha, IFN-gamma, low m.w. BCGF and also LPS all failed to induce Fc epsilon RIIb expression, demonstrating the specificity of the induction. Fc epsilon RIIb membrane expression induced by IL-4 was reduced in the presence of IFN-gamma and IFN-alpha. Strong inhibition of IL-4-induced Fc epsilon RIIb expression was observed at IFN-alpha concentrations of 450 U/ml (80%), and 100 U/ml of IFN-gamma reduced IL-4-induced Fc epsilon RIIb expression by 70%. Interestingly, soluble Fc epsilon RIIb release was strongly inhibited by IFN-alpha. In contrast, IFN-gamma did not affect soluble Fc epsilon RIIb release, suggesting that reduced membrane expression of Fc epsilon RIIb observed in the presence of IFN-gamma does not reflect inhibition of Fc epsilon RIIb expression but may represent enhanced cleavage or reduced anchoring in the membrane of Fc epsilon RIIb. Finally, IL-5 that has been shown to enhance IL-4-induced Fc epsilon RII on B cells does not enhance significantly IL-4-induced Fc epsilon RIIb membrane expression or subsequent soluble Fc epsilon RIIb release by monocytes. Taken together these results show that IFN-alpha and IFN-gamma have different regulatory effects on IL-4-induced Fc epsilon RIIb membrane expression and soluble Fc epsilon RIIb release by human monocytes.     

Human macrophages produce dimeric forms of IL-18 which can be detected with monoclonal antibodies specific for inactive IL-18

We established two monoclonal antibodies (mAbs) which specifically recognize human 'functionally inactive' recombinant IL-18, and IL-18 protein polymorphism was examined using human monocytes and macrophages (M phi). In 6 day GM-CSF-treated M phi, an 'inactive' IL-18-recognizing mAb 21 detected the IL-18 proform (24 kDa) and a 48-kDa protein, which were gradually increased concomitant with maturation stage. Majority of the 24- and 48-kDa forms were barely detectable with other mAbs recognizing 'active' IL-18. No reagents including Toll stimulators up-regulated these IL-18 populations in M phi. The 21-recognizable IL-18 species were separated using an anion-exchanger column and their IFN gamma-inducing activity was assessed with human lymphocytes plus IL-12. Virtually no as yet known activity was detected with these IL-18 species. After processed with M phi proteases, an 18-kDa form was generated to express the IFN gamma-inducing activity, although the activity was far weaker than that of control 'active' IL-18. These observations suggested that large amounts of various IL-18 species are produced with monocyte-M phi differentiation and most of these IL-18 species are functionally 'inactive' in terms of the reported IL-18 function even after proteolytic 18-kDa conversion.     

The recognition specificity of a murine helper T cell for hemagglutinin of influenza virus A/PR/8/34

Human large granular lymphocytes (LGL), which are known to be responsible for natural killer (NK) cell activity, also produced a variety of lymphokines including interleukin 2 (IL 2), colony stimulating factor (CSF), and interferon (IFN) in response to phytohemagglutinin (PHA) or concanavalin A (Con A). Human peripheral blood LGL, which were purified by removal of monocytes adhering to plastic flasks and nylon columns, followed by separation on a discontinuous Percoll gradient, and additional treatment with anti-OKT3 and Leu-M1 plus complement, were more potent producers of these lymphokines than unseparated mononuclear cells (MNC), nylon column-eluted cells, or purified T lymphocytes. Moreover, IL 2 production by LGL could be further distinguished in that it was not enhanced by the addition of macrophages or macrophage-derived factor, i.e., IL 1, whereas addition of macrophages did potentiate IL 2 production by T lymphocytes. Further analysis of cells in the LGL population using various monoclonal antibodies revealed that removal of cells with OKT11 or AF-10, a monoclonal antibody against human HLA-DR antigen, decreased IL 2 production, whereas removal of OKT8+, OKM1+, Leu-M1+, or Leu-7+ cells led to enhanced IL 2 production. The LGL population is therefore heterogeneous and includes at least three functionally and phenotypically distinct subsets. An atypical T cell subset (OKT3-, Leu-1-, OKT11+) rather than the myeloid subset of LGL (Leu-M1+ or OKMI+) was the source of LGL-derived IL 2, whereas the latter subset and/or another subset of OKT8+ cells appear to regulate this IL 2 production. In addition to performing NK activity, LGL on a per cell basis seem to be more effective than T lymphocytes in producing lymphokines, namely, IL2, CSF, and IFN.     

Recombinant granulocyte-macrophage colony-stimulating factor down-regulates expression of IL-2 receptor on human mononuclear phagocytes by induction of prostaglandin E

Recent studies have shown that normal human alveolar macrophages and blood monocytes, as well as HL-60 and U937 monocyte cell lines, newly express IL-2R after stimulation with rIFN-gamma or LPS. In addition, macrophages transiently express IL-2R in vivo during immunologically mediated diseases such as pulmonary sarcoidosis and allograft rejection. We therefore investigated in vitro factors that modulate macrophage expression of IL-2R. IL-2R were induced on normal alveolar macrophages, blood monocytes, and HL-60 cells using rIFN-gamma (24 to 48 h at 240 U/ml), and cells were cultured for an additional 12 to 24 h with rIL-2 (100 U/ml), recombinant granulocyte-macrophage CSF (rGM-CSF, 1000 U/ml), rGM-CSF plus indomethacin (2 X 10(-6) M), PGE2 (0.1 to 10 ng/ml), 1 X 10(-6) M levels of caffeine, theophylline, and dibutyryl cyclic AMP, or medium alone. IL-2R expression was quantitated by cell ELISA (HL-60 cells) or determined by immunoperoxidase staining (alveolar macrophages, blood monocytes, and HL-60 cells), using anti-Tac and other CD25 mAb. PGE production was assayed by RIA. We found greater than 95% of alveolar macrophages, monocytes, and HL-60 cells expressed IL-2R after rIFN-gamma treatment and remained IL-2R+ in the presence of IL-2R or medium alone. By comparison, greater than 95% of cells induced to express IL-2R became IL-2R- after addition of rGM-CSF, and the culture supernatants from GM-CSF-treated cells contained increased levels of PGE. This inhibition of macrophage IL-2R expression by rGM-CSF was blocked by indomethacin, and IL-2R+ macrophages became IL-2R- after addition of PGE2 alone. These findings indicate GM-CSF down-regulates IL-2R expression by human macrophages via induction of PGE synthesis. Moreover, a similar down-regulation of IL-2R expression was seen after stimulation with caffeine, theophylline, or dibutyryl cyclic AMP. Hence, GM-CSF, PGE, and other pharmacologic agents that act to increase intracellular levels of cAMP may play a modulatory role, antagonistic to that of IFN-gamma on cellular expression of IL-2R by human inflammatory macrophages in vivo.     

IL-4 decreases Fc gamma R membrane expression and Fc gamma R-mediated cytotoxic activity of human monocytes

Monocytes can express three classes of FcR for IgG: Fc gamma RI, Fc gamma RII, and Fc gamma RIII (CD64, CD32, and CD16, respectively) of which the Fc gamma RIII is expressed after prolonged culture. Fc gamma R expression is regulated by IFN-gamma. Because IFN-gamma and IL-4 have antagonistic effects on the expression of the FcR for IgE on human monocytes, we studied the effect of IL-4 on Fc gamma R expression and function. We show that IL-4 down-regulates Fc gamma RI, Fc gamma RII, and Fc gamma RIII expression of cultured monocytes and inhibits IFN-gamma enhanced Fc gamma RI expression. Exposure of monocytes to IL-4 for 40 h resulted in a dose-dependent decrease of the expression of all three Fc gamma R that persisted throughout the whole culture period (7 days). Anti-IL-4 antibodies completely reversed the IL-4 effect. In addition the impaired Fc gamma R expression correlated directly with reduced Fc gamma R-mediated function because monocytes cultured in the presence of IL-4 have a reduced capacity to lyse human E opsonized with human IgG anti-D or mouse antiglycophorin A antibodies. These observations, together with the previous finding that IL-4 induces Fc epsilon RIIb expression on monocytes, indicate that IL-4 and IFN-gamma may control the Fc gamma R-mediated immune response by differentially regulating Fc gamma R expression.     

Leishmania (Leishmania) chagasi infection alters the expression of cell adhesion and costimulatory molecules on human monocyte and macrophage

The initial steps of Leishmania infection in humans are largely unknown. There is limited information on the Leishmania infected human monocytes, the first cells that the parasite lives in, particularly related to costimulatory molecules. We show here that Leishmania (L.) chagasi infection avoids inducing proinflammatory molecules and has striking down modulating effects on human monocytes or macrophages. It does not induce CD54, interleukin (IL)-12 or tumour necrosis factor-alpha, potent proinflammatory cytokines and down modulates CD11b expression in monocytes. Lipopolysaccharide stimulated IL-12 (p40) levels, CD54 and HLA-DR expression are diminished in infected monocytes as well as interferon-gamma stimulated HLA-DR and HLA-ABC expression in infected macrophages. There is a negative correlation between CD54 and CD86 expression in both monocytes and macrophages. The depressed expression of class I and II molecules, absence of key proinflammatory cytokines and impaired expression of costimulatory molecules induced by L. chagasi could leave the immune system, at least in its initial phases in anergy or ignorance.