Growth of Listeria monocytogenes in murine macrophages and its modulation by cytokines; activation of bactericidal activity by interleukin-4 and interleukin-6

Bone marrow derived macrophages were infected with a virulent strain of Listeria monocytogenes, and the ability of selected cytokines to modify the intracellular growth was assessed. Macrophage monolayers pretreated with either interferon-gamma or tumour necrosis factor were shown to exert a significant listericidal activity. Treatment of monolayers with granulocyte-macrophage colony stimulating factor led to no significant difference in the ability of Listeria to invade and multiply within these cells. Moreover, pulsing of macrophage monolayers with interleukin-6 (IL-6) led to a slight enhancement of Listeria growth in the macrophages, whereas interleukin-4 (IL-4) did not modify Listeria growth. In other sets of experiments, macrophage monolayers were treated with cytokines after phagocytosis of the bacteria. In these conditions, interferon-gamma endowed macrophages with only a modest ability to kill Listeria. Conversely, treatment of monolayers with IL-6 or IL-4 at the time of infection led to expression of high bactericidal activity. Collectively, these results suggest that macrophages may respond to different signals, which enhance their antimicrobial activity before or after infection. Furthermore, B-cell stimulatory factors (IL-4 and IL-6) are potent macrophage-activating molecules.     

Release of reactive nitrogen intermediates and reactive oxygen intermediates from mouse peritoneal macrophages. Comparison of activating cytokines and evidence for independent production

The capacity of 12 cytokines to induce NO2- or H2O2 release from murine peritoneal macrophages was tested by using resident macrophages, or macrophages elicited with periodate, casein, or thioglycollate broth. Elevated H2O2 release in response to PMA was observed in resident macrophages after a 48-h incubation with IFN-gamma, TNF-alpha, TNF-beta, or CSF-GM. Of these, only IFN-gamma induced substantial NO2- secretion during the culture period. The cytokines inactive in both assays under the conditions tested were IL-1 beta, IL-2, IL-3, IL-4, IFN-alpha, IFN-beta, CSF-M, and transforming growth factor-beta 1. Incubation of macrophages with IFN-gamma for 48 h in the presence of LPS inhibited H2O2 production but augmented NO2- release, whereas incubation in the presence of the arginine analog NG-monomethylarginine inhibited NO2- release but not H2O2 production. Although neither TNF-alpha nor TNF-beta induced NO2- synthesis on its own, addition of either cytokine together with IFN-gamma increased macrophage NO2- production up to six-fold over that in macrophages treated with IFN-gamma alone. Moreover, IFN-alpha or IFN-beta in combination with LPS could also induce NO2- production in macrophages, as was previously reported for IFN-gamma plus LPS. These data suggest that: 1) tested as a sole agent, IFN-gamma was the only one of the 12 cytokines capable of inducing both NO2- and H2O2 release; 2) the pathways leading to secretion of H2O2 and NO2- are independent; 3) either IFN-gamma and TNF-alpha/beta or IFN-alpha/beta/gamma and LPS can interact synergistically to induce NO2- release.     

Effect of Bacillus Calmette-Guérin infection on delayed footpad reaction to Listeria monocytogenes

The role of peritoneal macrophages induced by Bacillus Calmette-Guérin (BCG) in the induction of immune responses to Listeria monocytogenes was studied in mice. The peritoneal macrophages from mice treated with BCG 14 days previously contained a high proportion of Ia-bearing macrophages (approximately 56%) and the cells showed not only a high level of listericidal activity but also a strong ability for presentation of listerial antigen to Listeria-immune T cells. An intraperitoneal inoculation with a low dose of Listeria, which can induce the maximal level of delayed footpad reaction (DFR) and positive migration inhibitory activity of macrophages in untreated mice, did not induce a detectable level of such responses in BCG-treated mice. The bacterial growth at an early stage of infection was suppressed by scavenger macrophages in these mice. On the other hand, BCG-treated mice showed the early development of DFR and macrophage migration inhibitory activity after an inoculation with a high dose of Listeria. It is revealed in transfer experiments that Listeria-pulsed peritoneal exudate cells induced by BCG elicited the highest level of DFR and positive migration inhibition of macrophages in normal mice at the earlier period of injection compared with Listeria-pulsed resident peritoneal cells. These results suggested that the increased activities of macrophages acting as scavenger cells and as antigen-presenting cells play important roles in the modification of immune responses to Listeria in BCG-treated mice.     

IL-10 synergizes with IL-4 and transforming growth factor-beta to inhibit macrophage cytotoxic activity.

After activation with IFN-gamma, thioglycollate-elicited murine peritoneal macrophages kill schistosomula of Schistosoma mansoni in vitro by an L-arginine-dependent mechanism which involves the production of reactive nitrogen oxides (NO). In the present study we demonstrate that the regulatory cytokines IL-10, IL-4, and transforming growth factor-beta (TGF-beta) are potent inhibitors of this extracellular killing function of activated macrophages. Each cytokine was found to suppress killing of schistosomula in a dose-dependent fashion. The activity of IL-10 was not permanent, because subsequent treatment with additional IFN-gamma 2 to 6 h later reversed the inhibition of macrophage larval killing. More importantly, the combination of suboptimal levels of any two of these three cytokines was found to give a potent synergistic suppression of schistosomulum killing by IFN-gamma-treated macrophages. Similarly, IL-10, IL-4, or TGF-beta alone blocked the production of NO, and when used in combination these cytokines exhibited an enhanced inhibitory effect on nitrite production. Macrophage-mediated killing of schistosomula through the generation of NO has been shown previously to be a major effector mechanism of schistosome immunity. The results presented here suggest that the suppression of this mechanism by induction of the regulatory cytokines IL-10, IL-4, and TGF-beta, which are known to be produced during schistosome infection, may be an important strategy used by the parasite to evade macrophage-mediated immune destruction.     

Trafficking and activation of murine natural killer cells: differing roles for IFN-gamma and IL-2

The repeated ip injection of highly purified recombinant IFN-gamma or IL-2 resulted in a local increase in peritoneal NK activity. This increase in lytic activity was paralleled by increases in the number of peritoneal leukocytes reacting with a rat monoclonal antibody directed against the NK cell-associated surface antigen LGL-1. LGL-1 reacts specifically with the majority of murine NK cells in BALB/c and C57BL/6 mice. A single injection of IFN-gamma induced more peritoneal NK activity at 24 hr than IL-2 on a protein basis. Both cytokines induced increases in the number of LGL-1+ peritoneal cells by 24 hr after injection. Simultaneous injection of suboptimal amounts of IFN-gamma (100 U) and IL-2 (10,000 U) resulted in a significant augmentation of peritoneal NK activity over that observed with either cytokine alone. Also, the peritoneal NK activity generated in response to ip injection of high doses of IL-2 (100,000 U) could be dramatically reduced by simultaneous injection of a neutralizing monoclonal antibody to IFN-gamma. Administration of IFN-gamma 1 day prior to IL-2 resulted in a significant augmentation of the NK activity above that observed with the individual cytokines. In contrast, injection of IL-2 prior to IFN-gamma did not enhance NK activity over that observed with the individual cytokines. Both cytokines must be injected ip for the complementary effects of IFN-gamma and IL-2 on peritoneal NK activity to occur. In contrast, in vitro incubation of peritoneal leukocytes with IFN-gamma resulted in neither a significant enhancement of NK lytic activity nor an increase in the number of LGL-1+ cells. In vitro treatment of peritoneal leukocytes with IL-2 always resulted in significant augmentation of NK lytic activity in the absence of any increase in the number of LGL-1+ cells. These data are consistent with the hypothesis that the local release of IFN-gamma increases peritoneal NK activity by promoting the influx of blood-borne LGL-1+ NK cells from other sites. In contrast, low doses of IL-2 augment the lytic activity of local resident NK cells, whereas high doses of this cytokine induce both an activation of local NK cells and emigration of LGL-1+ NK cells from other sites due to the endogenous generation of IFN-gamma within the peritoneal cavity. Therefore, the local release of IFN-gamma may play an important role in regulating NK cell infiltration in vivo.     

Inducible expression of murine IP-10 mRNA varies with the state of macrophage inflammatory activity

We have examined the expression of inducible inflammatory genes in murine macrophages from different tissues and at different stages of inflammatory activity. Although i.v. administration of IFN-gamma (10,000 U/mouse) strongly induced expression of IP-10 mRNA in the adherent cell population of the spleen, thioglycollate-elicited peritoneal macrophages were essentially unresponsive at the same dose. In contrast, D3 mRNA was expressed in both cell populations. This differential sensitivity of IP-10 mRNA expression was not restricted to stimulation by IFN-gamma as it was also seen when LPS (25 micrograms/mouse) was administered i.v. Expression of JE and KC mRNA, which encode cytokines related to IP-10, were also differentially expressed in elicited peritoneal macrophages from mice injected with LPS. Differential sensitivity was at least partially related to the state of macrophage activation because IP-10 mRNA was highly inducible in resident but not thioglycollate-elicited peritoneal macrophages. The eliciting agent was also an important determinant because proteose-peptone-elicited peritoneal macrophages were nearly as sensitive as splenic macrophages with respect to expression of IP-10 mRNA. IFN-gamma treatment induced IP-10 and D3 mRNA rapidly and transiently with the same time course in the spleen. IP-10 mRNA was not induced by IFN-gamma in TG-elicited macrophages regardless of the time after treatment. This differential expression of IP-10 was a consequence of different concentration requirements for IFN-gamma in the two cell types; thioglycollate-elicited macrophages required five- to 10-fold more IFN-gamma than did resident cells to achieve comparable IP-10 mRNA levels whether the agent was provided in vitro or in vivo. Thus variable sensitivity for induction of IP-10 mRNA was a characteristic of the macrophage itself and was not mediated by other cellular or molecular elements present in the inflammatory peritoneal cavity. The reduced sensitivity to IFN-gamma or LPS for expression of IP-10, JE, and KC mRNA as compared with TNF-alpha or D3 mRNA suggests that this distinct pattern of regulation may be restricted to members of these two related cytokine gene families that exhibit cell-type specific chemoattractant activity.     

Dectin-1 expression and function are enhanced on alternatively activated and GM-CSF-treated macrophages and are negatively regulated by IL-10, dexamethasone, and lipopolysaccharide

Dectin-1 is the major macrophage receptor for beta-glucans and generates a proinflammatory response through the recognition of these carbohydrates on fungal pathogens. We have examined the effects of cytokines and other agents on the expression and functions of dectin-1 in both resident and elicited murine peritoneal macrophages (Mphi). Dectin-1 expression was found to be highly up-regulated by GM-CSF and by the cytokines that induce alternative macrophage activation, IL-4 and IL-13. In contrast, IL-10, LPS, and dexamethasone, but not IFN-gamma, down-regulated the expression of this receptor. Modulation of dectin-1 receptor levels correlated with the ability of these macrophages to bind zymosan and significantly affected the contribution of this receptor to the resultant proinflammatory response, as measured by the production of TNF-alpha, although some Mphi-specific differences were observed. These results correlate with the known effects of these cytokines and other agents on the ability of the immune system to recognize and respond to fungal pathogens.     

Enhancement of macrophage bactericidal capacity by antigenically stimulated immune lymphocytes

The ability of antigenically stimulated immune lymphocytes to influence the bactericidal capacity of normal macrophages was studied in vitro. Purified lymphocytes were obtained from the lymph nodes and peritoneal exudates of guinea pigs immunized with bovine gamma globulin (BGG) and from control animals. Immune and control lymphocytes were added to normal macrophages and incubated overnight in the presence or absence of BGG. After washing, the macrophage monolayers were infected with Listeria monocytogenes; 4 hr later, the cells were lysed and the surviving intracellular bacteria quantitated. The macrophages which had been incubated with BGG-immune lymphocytes in the presence of BGG displayed a markedly enhanced listericidal capacity. In parallel experiments, these same antigen-stimulated lymphocytes were shown to inhibit the migration of normal macrophages. Lymphocytes derived from peritoneal exudates were more active than lymph node lymphocytes in both assays.     

RNA from LPS-stirnulated macrophages induces the release of tumour necrosis factor-alpha and interleukin-1 by resident macrophages

The effect of exogenous RNA on many cellular functions has been studied in a variety of eukaryotic cells but there are few reports on macrophages. In the present study, it is demonstrated that cytoplasmatic RNA extracted from rat macrophages stimulated with Escherichia coli lipopolysaccharide (LPS), referred to as L-RNA, induced the release of TNF-alpha and IL-1 from monolayers of peritoneal resident macrophages. The activity of L-RNA was not altered by polymyxin B but was abolished by ribonuclease (RNase) pretreatment, indicating the absence of LPS contamination and that the integrity of the polynucleotide chain is essential for this activity. Both the poly A(-) and poly A(+) fractions obtained from L-RNA applied to oligo(dT)-cellulose chromatography induced TNF-alpha and IL-1 release. The L-RNA-induced cytokine release was inhibited by dexamethasone and seemed to be dependent on protein synthesis since this effect was abolished by cycloheximide or actinomycin-D. The LPS-stimulated macrophages, when pre-incubated with [5-(3)H]-uridine, secreted a trichloroacetic acid (TCA) precipitable material which was sensitive to RNase and KOH hydrolysis, suggesting that the material is RNA. This substance was also released from macrophage monolayers stimulated with IL-1beta but not with TNF-alpha, IL-6 or IL-8. The substance secreted ((3)H-RNA) sediments in the 4-5S region of a 5-20% sucrose gradient. These results show that L-RNA induces cytokine secretion by macrophage monolayers and support the idea that, during inflammation, stimulated macrophages could release RNA which may further induce the release of cytokines by the resident cell population.     

Effects of CTx and 8-bromo-cAMP on LPS-induced gene expression of cytokines in murine peritoneal macrophages

LPS, an endotoxin isolated from gram-negative bacterial, has been shown to be a potent cytokine initiator in murine peritoneal macrophages. CAMP-dependent pathway is generally considered to play a suppressive role in immune response. This study investigated the effect of cAMP on LPS-induced gene expression of cytokines in murine macrophages. Our data clearly demonstrated that in LPS-treated macrophages, cAMP elevator (CTx and 8-bromo-cAMP) could increase IL-1Ra and IL-10 gene expression, while mRNAs of IL-1alpha, IL-12, IL-6, and MIF were decreased and other cytokines like IL-1beta, and IFN-gamma did not give a definite tendency. This is the first report that CTx and 8-bromo-cAMP positively regulate IL-1Ra gene expression in LPS-stimulated macrophages. Our data also suggest that a cAMP-dependent pathway may play a regulatory role in Toll-receptor system.     

Aberrant expression of cytokine genes in peritoneal macrophages from mice infected with LP-BM5 MuLV, a murine model of AIDS.

Mice infected with LP-BM5 murine leukemia virus (MuLV) develop a syndrome denoted as murine AIDS. Macrophages harvested from the peritoneal cavities of these mice at 4 or 9 wk postinoculation with LP-BM5 MuLV were analyzed by Northern hybridization for the presence of the defective LP-BM5 virus and their ability to synthesize various cytokines upon induction with Newcastle disease virus (NDV) or (LPS). Neither IFN-alpha or IFN-beta was found to be constitutively expressed in LP-BM5-infected macrophages and in NDV induction studies, and the levels of biologically active IFN-alpha and its mRNA were found to be lower in LP-BM5 MuLV-infected macrophages than in the macrophages from uninfected controls. Similarly, after NDV or LPS induction, the levels of TNF mRNA and TNF protein were significantly lower in LP-BM5-infected macrophages than in macrophages from uninfected mice. The LP-BM5 MuLV-infected macrophages constitutively expressed low levels of IL-1 beta, and when induced with LPS, the relative levels of IL-1 beta were significantly higher in infected than in uninfected macrophages. Although no constitutive expression of IL-6 was detected, the levels of IL-6 mRNA induced with NDV were higher in LP-BM5 MuLV-infected macrophages than in controls. Thus, we found alterations in the expression of selected cytokines in macrophages from mice inoculated with LP-BM5 MuLV rather than a general deregulation of all cytokine expression. These results show that macrophages infected with the defective LP-BM5 virus respond differently to NDV- or LPS-stimulation and suggest that aberrant expression of certain cytokine genes may play a role in the immunopathologic condition in mice with murine AIDS.     

Acquired cellular immunity: extracellular killing of Listeria monocytogenes by a product of immunologically activated macrophages

A listericidal factor was released by monolayers of peritoneal cells from BCG-immune guinea pigs following incubation with PPD in cell culture. Significantly less listericidal factor was released by monolayers of BCG-immune cells incubated without PPD, or by monolayers of nonimmune cells incubated in the presence or absence of antigen. Culture supernatants containing listericidal factor were active at a dilution of 1:10, but supernatants diluted 1:100 were not listericidal. Dialysis of supernatants against fresh tissue culture medium did not affect their ability to kill Listeria, although heating at 60 °C for 30 min destroyed all activity. Supernatants from cultures of guinea pig fibroblasts or ascites-form hepatoma were not listericidal.     

Cytoplasmic entry of Listeria monocytogenes enhances dendritic cell maturation and T cell differentiation and function

Protective immunity to the intracellular bacterial pathogen, Listeria monocytogenes, is mediated by a vigorous T cell response. In particular, CD8(+) cytolytic T cells provide essential effector function in the clearance of bacterial infection. The cytoplasmic entry of Listeria facilitated by listeriolysin O is an essential feature not only of the bacteria's virulence, but of the ability of the bacteria to elicit protective immunity in the host. To determine how cytoplasmic entry of Listeria regulates the development of protective immunity, we examined the effects of this process on the maturation of murine dendritic cells (DC) and on their ability to prime naive CD8(+) T cell responses. Costimulatory molecules (CD40, CD80, and CD86) were induced by listerial infection only when the bacteria invaded the cytoplasm. In addition, the production of IL-12, IL-10, IL-6, and TNF-alpha was most efficiently triggered by cytosolic Listeria. Naive T cells primed by peptide-loaded DC infected with either wild-type or nonhemolytic mutant Listeria proliferated equivalently, but a much larger proportion of those primed by wild-type Listeria monocytogenes produced IFN-gamma. Costimulatory molecules induced by cytosolic entry regulated T cell proliferation and, as a result, the number of functional T cells generated. DC-produced cytokines (specifically IL-12 and IL-10) were the major factors determining the proportion of T cells producing IFN-gamma. These data highlight the requirement for listerial cytoplasmic invasion for the optimal priming of T cell cytokine production and attest to the importance of this event to the development of protective CTL responses to this pathogen.     

Differential regulation of chemokine production in human peritoneal mesothelial cells: IFN-gamma controls neutrophil migration across the mesothelium in vitro and in vivo.

Leukocyte recruitment into the infected peritoneal cavity consists of an early, predominant polymorphonuclear leukocyte (PMN) influx and subsequent, prolonged mononuclear cell migration phase. Although chemokine secretion by resident peritoneal cells plays a primary role in mediating this migration, the mechanisms involved in controlling the switch in phenotype of cell infiltrate remain unclear. The present study investigates a potential role for the Th1-type cytokine IFN-gamma in the process of leukocyte recruitment into the peritoneal cavity. Stimulation of cultured human peritoneal mesothelial cells with IFN-gamma (1-100 U/ml) alone or in combination with IL-1beta (100 pg/ml) or TNF-alpha (1000 pg/ml) resulted in significant up-regulation of monocyte chemoattractant protein-1 and RANTES protein secretion. In contrast, IFN-gamma inhibited basal and IL-1beta-, and TNF-alpha-induced production of IL-8. The modulating effects of IFN-gamma on chemokine production occurred at the level of gene expression, and the degree of regulation observed was dependent on the doses of IL-1beta and TNF-alpha used. Analysis of the functional effects of IFN-gamma on IL-1beta-induced transmesothelial PMN migration with an in vitro human transmigration system and an in vivo murine model of peritoneal inflammation demonstrated that IFN-gamma was able to down-regulate PMN migration induced by optimal doses of IL-1beta. These effects were mediated in vivo via down-regulation of CXC chemokine synthesis. These findings suggest that IFN-gamma may play a role in controlling the phenotype of infiltrating leukocyte during the course of an inflammatory response, in part via regulation of resident cell chemokine synthesis.     

Lung-specific delivery of cytokines induces sustained pulmonary and systemic immunomodulation in rats

The recombinant cytokines IFN-gamma and TNF-alpha stimulate several macrophage-mediated functions important in host defense. However, systemic administration of cytokines may be limited by significant host toxicity. We investigated whether aerosolized cytokines can stimulate alveolar macrophage and blood monocyte function, and whether they induce an inflammatory response in the lungs of normal rats. We found that aerosolized murine rIFN-gamma or recombinant human TNF-alpha increased IL-1 production by both alveolar macrophages and blood monocytes for at least 5 days after administration. Furthermore, murine rIFN-gamma increased the expression of Ia Ag on alveolar macrophages and human rTNF-alpha increased alveolar macrophage- and blood monocyte-mediated tumor lysis. Sequential aerosolization of IFN-gamma and TNF-alpha significantly increased both IL-1 release and Ia expression compared to either cytokine administered alone. Aerosolized human rTNF-alpha achieved lung levels comparable to those produced by an i.v. TNF-alpha dose reported to cause diffuse organ injury and death in rats. However, plasma TNF-alpha levels were several thousand-fold lower after aerosol administration. Aerosolized cytokines did not induce lung edema or an inflammatory cell infiltrate within the airways or alveoli. Aerosolized human rTNF-alpha alone, or murine rIFN-gamma and human rTNF-alpha, induced margination of leukocytes in pulmonary blood vessels 1 day after aerosolization, and a few small foci of pulmonary hemorrhage 5 days later. We conclude that aerosol administration of IFN-gamma or TNF-alpha enhances both pulmonary and systemic monocyte function, and that the combination of IFN-gamma and TNF-alpha produce additive or synergistic effects. Aerosolized cytokines induce only a minimal pulmonary inflammatory response. Aerosolized TNF-alpha produces high cytokine levels in the lung but very low uptake into the circulation.     

Effect of Tityus serrulatus venom on cytokine production and the activity of murine macrophages

THE purpose of this study was to investigate the effects of Tityus serrulatus venom (TSV) on murine peritoneal macrophages evaluated in terms of activation. The effects of crude TSV were analysed by detection of cytokines, oxygen intermediate metabolites (H2O2) and nitric oxide (NO) in supernatants of peritoneal macrophages. Several functional bioassays were employed including an in vitro model for envenomating: cytotoxicity of TSV was assessed using the lyses percentage. Tumor necrosis factor (TNF) activity was assayed by measuring its cytotoxic activity on L-929 cells, and interleukin-6 (IL-6) and interferon-gamma (IFN-gamma) were assayed by enzyme-linked immunosorbent assay, whereas NO levels were detected by Griess colorimetric reactions in culture supernatant of macrophages incubated with TSV and subsequently exposed to either lipopolysaccharide or IFN-gamma. Incubation of macrophages with TSV increased production of IL-6 and IFN-gamma in a dose-dependent manner. TNF production was not detected in supernatants treated with TSV at any concentration. The increase in IL-6 secretion was not associated with concentration-dependent cytoxicity of TSV on these cells. These data suggest that the cytotoxicity does not appear to be the main cause of an increased cytokine production by these cells. Although NO is an important effector molecule in macrophage microbicidal activity, the inducing potential of the test compounds for its release was found to be very moderate, ranging from 125 to 800 mM. Interestingly, NO levels of peritoneal macrophages were increased after IFN-gamma. Moreover, NO production had an apparent effect on macrophage activity. The results obtained here also shown that the TSV induces an important elevation in H2O2 release. These results combined with NO production suggest that TSV possesses significant immunomodulatory activities capable of stimulating immune functions in vitro.     

Influence of aging on murine neutrophil and macrophage function against Candida albicans

Previous work by our group showed that aged C57BL/6 mice develop an altered innate and adaptive immune response to Candida albicans and are more susceptible to systemic primary candidiasis. In this work, we used young (2-3 months old) and aged (18-20 months old) C57BL/6 mice to study in vitro the influence of aging on (1) the fungicidal activity of neutrophils and macrophages, (2) the production of cytokines by resident peritoneal macrophages in response to C. albicans, and (3) cell surface Toll-like receptor (TLR) 2 expression on resident peritoneal macrophages. Our results indicate that murine phagocytes have a fungicidal activity well preserved with aging. In vitro production of proinflammatory cytokines (IL-6, IL-1beta, and tumor necrosis factor-alpha and chemokines (MIP-2) by purified (CD11b(+)) peritoneal macrophages in response to yeasts and hyphae of C. albicans was significantly lower in aged mice as compared with young mice. However, the production of IL-10 by macrophages, in response to C. albicans, was similar in both young and aged animals. Moreover, baseline TLR2 surface expression level was lower on aged macrophages than on control macrophages. Taken together, these data indicate that the increased susceptibility to C. albicans disseminated infections in aged mice is correlated with defects in TLR2 expression and in cytokine production, but not with an impaired fungicidal activity.     

Reprogramming of IL-10 activity and signaling by IFN-gamma

One important mechanism of cross-regulation by opposing cytokines is inhibition of signal transduction, including inhibition of Janus kinase-STAT signaling by suppressors of cytokine signaling. We investigated whether IFN-gamma, a major activator of macrophages, inhibited the activity of IL-10, an important deactivator. Preactivation of macrophages with IFN-gamma inhibited two key anti-inflammatory functions of IL-10, the suppression of cytokine production and of MHC class II expression. Gene expression profiling showed that IFN-gamma broadly suppressed the ability of IL-10 to induce or repress gene expression. Although IFN-gamma induced expression of suppressor of cytokine signaling proteins, IL-10 signal transduction was not suppressed and IL-10 activation of Janus kinases and Stat3 was preserved. Instead, IFN-gamma switched the balance of IL-10 STAT activation from Stat3 to Stat1, with concomitant activation of inflammatory gene expression. IL-10 activation of Stat1 required the simultaneous presence of IFN-gamma. These results demonstrate that IFN-gamma operates a switch that rapidly regulates STAT activation by IL-10 and alters macrophage responses to IL-10. Dynamic regulation of the activation of different STATs by the same cytokine provides a mechanism by which cells can integrate and balance signals delivered by opposing cytokines, and extends our understanding of cross-regulation by opposing cytokines to include reprogramming of signaling and alteration of function.     

Interleukin-4 is chemotactic for mouse macrophages.

An important component of the cell-mediated immune response often is the migration of macrophages to the site of immune activity. Although much evidence suggests that macrophage migration is regulated by antigen-specific T cells, the influence of T cell-derived cytokines on macrophage chemotaxis has not been well studied. Here we present evidence that interleukin-4 (IL-4), a cytokine derived from T helper 2 (Th 2) cells, is chemotactic for mouse peritoneal macrophages. In an in vitro chemotaxis assay using Boyden chambers, recombinant IL-4 was chemotactic for mouse peritoneal exudate macrophages. This response was inhibited in a dose-dependent manner by the anti-IL-4 antibody, 11B11. As shown here and previously, interleukin-2 (IL-2) and interferon-gamma (IFN-gamma), cytokines derived from T helper 1 cells, are not chemotactic for mouse macrophages.