Anti-IL-12 antibody prevents the development and progression of collagen-induced arthritis in IFN-gamma receptor-deficient mice

In several models of inflammation, including collagen-induced arthritis (CIA), the disease-promoting effect of IL-12 has been attributed to its well-known ability to produce IFN-gamma. However, IFN-gamma receptor knockout (IFN-gammaR KO) mice of the DBA/1 strain have been reported to be more susceptible to CIA than corresponding wild-type mice, indicating the existence of an IFN-gamma-mediated protective pathway in this model. In the present study the development of CIA was found to be completely prevented by pretreatment with a neutralizing anti-IL-12 antibody, not only in wild-type, but significantly also in IFN-gammaR KO mice. In both strains of mice, the protective effect of anti-IL-12 was associated with lower production of anti-collagen type II antibodies. In vivo stimulation with anti-CD3 antibody in arthritic IFN-gammaR KO mice resulted in production of higher levels of circulating IFN-gamma, TNF and IL-2 than in corresponding control mice that had not received the arthritis-inducing immunization. This was not the case in arthritis-developing wild-type mice. Furthermore, the protective effect of anti-IL-12 antibody in mutant, but not in wild-type mice, was associated with lower circulating IFN-gamma, TNF and IL-2 and higher IL-4 and IL-5 cytokine levels following an anti-CD3 challenge. The data indicate that IL-12 promotes the development of arthritis independently of its ability to induce or favor production of IFN-gamma. In fact, any IFN-gamma produced in the course of the disease process rather exerts a protective effect. Furthermore, our study suggests that, in the absence of a functional IFN-gamma system, endogenous IL-12 exerts its disease-promoting effect by favoring production of other Th1-associated cytokines (IL-2 and TNF), by inhibiting development of IL-4- and IL-5-producing T cells and by stimulating production of anti-collagen autoantibodies.     

Neuroendocrine regulation of cytokine production during experimental influenza viral infection: effects of restraint stress-induced elevation in endogenous corticosterone

A murine model of influenza viral infection was used to examine the neuroendocrine regulation of cytokine production. Restraint stress (RST) was used to activate the hypothalamic-pituitary-adrenal axis and elevate corticosterone (CORT) levels in influenza A/Puerto Rico/8/34 (PR8) virus-infected C57BL/6 mice. The type II glucocorticoid receptor antagonist RU486 was used to specifically examine the modulation of PR8 virus-specific cytokine responses by CORT. RST suppressed the PR8 virus- specific production of Th1-type (IL-2 and IFN-gamma) and Th2-type IL-10) cytokines by cells from the regional lymph nodes and spleens. In addition, IL-6 production by splenocytes was inhibited by RST; however, IL-6 production by cells from the regional lymph nodes was enhanced. Treatment of mice with RU486 prevented the effects of RST, suggesting that the RST-induced alterations in cytokine responses were mediated by CORT. Furthermore, CORT was shown to inhibit the PR8 virus-specific production of both Thl-type and Th2-type cytokines in vitro at doses corresponding to the physiologic range of free plasma CORT following hypothalamic-pituitary-adrenal axis activation.     

Kinetics, localization and cytokine profile of T cell responses to immune stimulating complexes (iscoms) containing human influenza virus envelope glycoproteins

Immune stimulating complexes (iscoms) are 40 nm particles combining adjuvant-active Quillaja saponins and multimeric presentation of antigens. The distribution in mice of influenza virus iscoms and the resulting T cell responses in the lymph nodes (LN) and spleen were characterized. After a single subcutaneous injection, iscoms were delivered to the draining LN where they induced a transient population of LN cells which responded with proliferation and secretion of interleukin-2 (IL-2), gamma-interferon (IFN-gamma) and interleukin-4 (IL-4) after restimulation. The response in the spleen developed more slowly, sustained for 12 weeks and was characterized by cells producing in particular IL-2 and IFN-gamma but also IL-4. A booster resulted in a dramatic enhancement of the production of IFN-gamma, indicating that iscoms efficiently recruit cells with Th1 properties. Comparisons of T cell responses to iscoms and to influenza virus antigen in Freund's complete adjuvant demonstrate that these adjuvants affect both the localization and cytokine profile of T cell responses.     

Methotrexate specifically modulates cytokine production by T cells and macrophages in murine collagen-induced arthritis (CIA): a mechanism for methotrexate-mediated immunosuppression

Immunosuppressive therapy with methotrexate (MTX) has been established as effective treatment for patients with rheumatoid arthritis. To analyse the therapeutic potential and mechanisms of action of MTX, we determined serum cytokine levels and cytokine production by splenic T cells and macrophages in untreated and MTX-treated mice. Furthermore, we assessed the role of MTX in a murine model of experimental arthritis induced by collagen type II (CIA). MTX reduced spontaneous and IL-15-induced tumour necrosis factor (TNF) production by splenic T cells but not by macrophages from healthy mice in vitro in a dose-dependent manner. In contrast, interferon-gamma (IFN-gamma) production was less strikingly reduced and IL-4 production was virtually unaffected. In addition, treatment of healthy mice with MTX in vivo led to reduced TNF serum levels and diminished TNF production by splenic T cells and macrophages. Intraperitoneal administration of MTX prior to the onset of arthritis completely prevented clinical and pathological signs of CIA. This was associated with a striking reduction of TNF production by spleen cells from MTX-treated mice. The role of TNF in MTX-mediated effects on cytokine production was further underlined by the finding that MTX effects on IFN-gamma production were augmented in TNF-transgenic mice but abrogated in mice in which the TNF-alpha gene had been inactivated by homologous recombination. Thus, MTX specifically modulates spontaneous and IL-15-induced TNF-alpha production in mice and prevents experimental murine CIA. These data suggest that TNF production by T cells is an important target of MTX and may serve as a basis to understand and further analyse MTX-mediated mechanisms of immunosuppression in patients with RA.     

Recruitment of lymphoblasts derived from peripheral and intestinal lymph to synovium and other tissues in normal rats and rats with adjuvant arthritis

Recruitment of [125I]iododeoxyuridine-labeled syngeneic lymphoblasts from thoracic duct (TD) lymph into periarticular tissues has been examined after intravenous administration to normal rats and to rats with adjuvant-induced arthritis. Uptake of label was observed in the inflamed paws of arthritic rats and cells were located in synovium and periarticular bone marrow by autoradiography. Uptake was greater with lymphoblasts from donors in the late prodromal phase of adjuvant-induced arthritis (arthritic donors) than from normal donors. With arthritic donors, recruitment of lymphoblasts from TD lymph was greater than from mesenteric duct lymph, suggesting that most of the joint-seeking lymphoblasts in arthritic rats arose in peripheral lymphoid tissues. Lymphoblasts from arthritic donors were also detected in the synovium of paws from normal rats. Recovery of lymphoblasts was monitored in other tissues; this revealed, in arthritic recipients, competition among extra-articular sites of inflammation (adjuvant injection site, draining lymph nodes, and lymph nodes draining affected joints), the lungs, and the inflamed synovium for recruitment of lymphoblasts from arthritic donors. In contrast, while some lymphoblasts from normal donors were recruited to inflamed joints, the small intestine was the main site of recruitment. The results reflect the known propensity of T lymphoblasts generated in peripheral lymphoid tissues to enter inflamed tissues. However, some mesenteric duct lymphoblasts also entered inflamed synovium. The observed pattern of recruitment of lymphoblasts to synovium is pertinent to the pathogenesis of arthritis, the potential roles of arthritogenic and "bystander" lymphocytes and the known links between the joints and inflammation in the intestine.     

Alterations in cytokine production following intraocular injection of soluble protein antigen: impairment in IFN-gamma and induction of TGF-beta and IL-4 production

Immune deviation induced by intraocular injection of soluble protein Ag, referred to as anterior chamber-associated immune deviation (ACAID), is characterized by impairment of delayed hypersensitivity (DH). Two populations of splenic regulatory cells that impair the induction and expression phases of DH are involved in the ACAID response and may mediate their effects through cytokines. The purpose of the present study was to evaluate the role that cytokines play in ACAID. IFN-gamma production in draining lymph nodes induced by conventional immunization with protein Ag and adjuvant was suppressed after intraocular injection of protein Ag administered either before or after sensitization; IL-12 production in these mice was not decreased, suggesting that suppression of IL-12 may not be the mechanism involved in the impairment in IFN-gamma production. Surprisingly, although significant amounts of IL-4 (but not IL-10) were produced by spleen and lymph node cells from several different strains of mice, experiments in IL-4 knockout mice showed that impairment of neither DH nor IFN-gamma production required IL-4. Interestingly, significant levels of TGF-beta were detected in cultures of spleen cells from mice with ACAID. As determined by quantitative RT-PCR, TGF-beta was produced primarily by the splenic CD4 and non-T cells and was of the TGF-beta1 type. These results suggest that the Th1 response is impaired in ACAID by a mechanism(s) that does not require Th2-type cytokines, but may involve TGF-beta at several different (including the effector) phases during the response.     

Psychosocial influences on immune responses to HSV-1 infection in BALB/c mice

The effects of differential housing (one or four mice/cage) on T-helper (Th) cell markers of cellular and humoral immune responses were examined. Differentially housed male BALB/cJ mice were infected with herpes simplex virus (HSV)-1 (Patton strain), and in vitro cytokine production [interleukin (IL)-2, IL-4, IL-10, and interferon (IFN)-gamma] by splenocytes and popliteal lymph node cells and serum antibody titers (IgM and IgG) were evaluated. Differential housing of male BALB/c mice influenced the magnitude, but not the kinetics, of some, but not all, immune responses to HSV-1. Splenocytes from individually housed mice produced more IL-2, IFN-gamma, IL-4, and IL-10 than splenocytes from group-housed mice; in popliteal lymph node cells, only IFN-gamma and IL-10 production was influenced by housing. Although the social environment influenced cytokine production, there were no concomitant changes in circulating IgM or IgG antibody titers. These results do not support the hypothesis that dominant Th cell responses are the primary targets of this psychosocial manipulation, or that a reciprocal relationship exists between Th1 and Th2 cell-derived cytokines.     

Compartmentalization of Th1/Th2 cytokine responses to experimental Yersinia pseudotuberculosis infection in cats

Specific pathogen-free cats were inoculated subcutaneously into the drainage areas of the left auricular and popliteal lymph nodes with living Yersinia pseudotuberculosis. Inflammation was evident at the inoculation sites and the regional lymph nodes were palpably enlarged at 48 h post-infection. Lymph node enlargement was due to marked paracortical lymphoid hyperplasia and variable neutrophil infiltrates. Yersinia was cultured from the regional lymph nodes and/or spleens of three of the six cats, indicating systemic spread of bacteria. Specific T-helper 1 and 2 (Th1, Th2) cell-associated cytokine mRNA levels were compared in regional lymph nodes, peripheral blood mononuclear cells (PBMC) and spleen at 48 h post-inoculation. Relative to unstimulated control tissues, there was a significant increase in TNF-alpha, IFN-gamma, IL-12, and IL-10 mRNAs in spleen with down-regulation of IL-4. Significant up-regulation of TNF-alpha and down-regulation of IL-4 were also observed in PBMC. Paradoxically, 48 h stimulated lymph nodes showed only minimal differences in cytokine mRNA expression when compared to lymph nodes from mock-inoculated control animals or unchallenged contralateral lymph nodes from the same animal. This study demonstrated that cats, like mice, respond to an intracellular pathogen such as Y pseudotuberculosis with a predominantly Th1-type immune response. The cytokine responses in regional lymph nodes and spleen were asynchronous, while cytokine stimulation in cells of the spleen was mirrored by PBMC.     

Cyclosporin A enhances IL-12 production by CpG motifs in bacterial DNA and synthetic oligodeoxynucleotides

Certain sequences of nucleotides (CpG motifs) in bacterial DNA or synthetic oligonucleotides (CpG DNA) promote the production of proinflammatory cytokines, including TNF-alpha, IFN-gamma, IL-6, and IL-12. Here we demonstrate that the immunosuppressant cyclosporin A (CsA) unexpectedly enhanced CpG DNA-induced IL-12 production in murine splenocytes. CsA did not inhibit CpG DNA-induced TNF-alpha or IL-6 production, but decreased the production of IFN-gamma by CpG DNA. Upon examining mechanisms by which CsA increases IL-12 production, we found that CpG DNA can also induce IL-10 production in B cells and that this production was sensitive to CsA. IL-10 has anti-inflammatory effects and can reduce the production of IL-12. To determine the possible role of CsA-modulated IL-10 production in mediating the increased IL-12 levels, splenocytes from IL-10 gene-disrupted mice (IL-10 -/-) and splenocytes cultured in anti-IL-10 Ab were studied. CpG DNA-stimulated IL-10 (-/-) splenocytes demonstrated no increase in IL-12 levels in the presence of CsA. Anti-IL-10 Ab treatment of normal splenocytes increased the magnitude of CpG DNA-induced IL-12 production to that seen with CsA. These results suggest that CpG DNA induces CsA-sensitive IL-10 production in B cells and that IL-10 acts as a negative feedback regulator of CpG DNA-induced IL-12 production.     

Suppression of TNF-alpha expression, inhibition of Th1 activity, and amelioration of collagen-induced arthritis by rolipram

Rolipram is a type IV phosphodiesterase inhibitor that suppresses inflammation and TNF-alpha production. As anti-TNF-alpha therapy is effective in rheumatoid arthritis, we investigated the effect of rolipram on collagen-induced arthritis (CIA), a murine model of rheumatoid arthritis. Rolipram was administered after the onset of clinical arthritis at doses of 0.5, 3, 5, or 10 mg/kg twice daily, with a dose-dependent therapeutic effect on clinical severity and joint erosion. Immunohistochemical analysis of joints of rolipram-treated mice revealed 67% reduction in TNF-alpha-expressing cells compared with control arthritic mice. In vitro studies using bone marrow-derived macrophages confirmed that rolipram directly suppressed TNF-alpha and IL-12 production following stimulation with IFN-gamma and LPS. The effect of rolipram on T cell activity was studied by measuring Th1/Th2 cytokine production by collagen-stimulated draining lymph node cells from arthritic mice treated in vivo with rolipram. Rolipram reduced IFN-gamma production and increased IL-10, indicating that rolipram down-regulated the ongoing Th1 response to type II collagen. Finally, the effect on CIA of combination therapy was studied using rolipram plus either anti-TNF-alpha or anti-CD4 mAbs. Rolipram plus anti-TNF-alpha was not therapeutically additive, whereas rolipram plus anti-CD4 mAb was clearly additive. This result indicates that the therapeutic effects of rolipram overlap with TNF-alpha blockade, but are complementary to anti-CD4 treatment. It is therefore proposed that a major mechanism of action of rolipram in CIA is suppression of TNF-alpha activity. These findings suggest that type IV phosphodiesterase inhibitors may be effective in pathologic conditions, such as RA, with overexpression of TNF-alpha.     

T cell stimulus-induced crosstalk between lymphocytes and liver macrophages results in augmented cytokine release

Polyclonal T cell stimulation in humans leads to a cytokine burst syndrome that may result in organ failure or lethality. Mechanisms of such cytokine-dependent morbidity can be studied in mice challenged with the T cell mitogen concanavalin A (Con A). In this model tumor necrosis factor (TNF)-dependent toxicity is characterized by a relatively selective liver failure. We examined here whether a crosstalk between liver macrophages and lymphocytes may be the underlying cause for the overshooting TNF response. Lymphocytes from lymph nodes, thymus, or the spleen were cocultured with Kupffer cells and stimulated with the polyclonal T cell stimuli Con A, anti-CD3 mAb, or staphylococcal enterotoxin B. We observed a rapid and synergistically augmented release of TNF, and also of IL-1, IL-2, IL-4, IL-6, and IFN-gamma, compared to stimulation of the individual cell types alone. This dramatically upregulated cytokine response did not require direct cell contact, but was mediated by a soluble factor. In order to find out whether TNF upregulation would require additional cell types in the liver, we used cocultures of T cells and a macrophage cell line and confirmed our previous results. In this model system an increase in TNF mRNA was observed in macrophages, but not in T cells. We conclude that the T cell-macrophage crosstalk following polyclonal T cell stimulation may be responsible for an overshooting TNF release from macrophages. This mechanism finally may lead to organ damage such as liver injury upon Con A injection into mice.     

IL-12, but not IFN-gamma, plays a major role in sustaining the chronic phase of colitis in IL-10-deficient mice

IL-10-deficient (IL-10(-/-)) mice develop chronic enterocolitis mediated by CD4+ Th1 cells producing IFN-gamma. Because IL-12 can promote Th1 development and IFN-gamma production, the ability of neutralizing anti-IL-12 mAb to modulate colitis in IL-10(-/-) mice was investigated. Anti-IL-12 mAb treatment completely prevented disease development in young IL-10(-/-) mice. Treatment of adult mice resulted in significant amelioration of established disease accompanied by reduced numbers of mesenteric lymph node and colonic CD4+ T cells and of mesenteric lymph node T cells spontaneously producing IFN-gamma. In contrast, anti-IFN-gamma mAb had minimal effect on disease reversal, despite a significant preventative effect in young mice. These findings suggested that IL-12 sustains colitis by supporting the expansion of differentiated Th1 cells that mediate disease independently of their IFN-gamma production. This conclusion was supported by the finding that anti-IL-12 mAb greatly diminished the ability of a limited number of CD4+ T cells expressing high levels of CD45RB from diseased IL-10(-/-) mice to expand and cause colitis in recombination-activating gene-2(-/-) recipients, while anti-IFN-gamma mAb had no effect. Furthermore, IL-12 could support pathogenic IL-10(-/-) T cells stimulated in vitro in the absence of IL-2. While these studies show that IL-12 plays an important role in sustaining activated Th1 cells during the chronic phase of disease, the inability of anti-IL-12 mAb to abolish established colitis or completely prevent disease transfer by Thl cells suggests that additional factors contribute to disease maintenance.     

IFN-gamma prevents Th2 cell-mediated pathology after neonatal injection of semiallogenic spleen cells in mice

BALB/c mice injected at birth with 10(8) (A/J X BALB/c)F1 hybrid spleen cells develop an autoimmune host-vs-graft (HVG) disease as a result of activation of donor B cells by host CD4+ cells. The antidonor CD4+ cells seem to be Th2-like cells, inasmuch as they are profoundly deficient in IL-2 and IFN-gamma production, but secrete high levels of IL-4 and IL-10. As IFN-gamma is known to inhibit the development of TH2 cells, we attempted to modulate HVG disease by injecting rIFN-gamma. First, we found that 10 micrograms of rIFN-gamma given on days 1 and 3 after birth reduced the serum hyper-IgE of HVG mice by 90% and the serum hyper-IgG1, by 70%. In addition, rIFN-gamma administration significantly decreased the anti-DNA IgG1 titers and prevented the occurrence of anti-glomerular basement membrane and anti-laminin IgG1 Abs as well as the formation of immune deposits in renal glomeruli. These effects were not caused by the abrogation of chimerism, as indicated by the persistence of donor-type B cells in lymph nodes and of Igs bearing donor allotype in serum. MLC experiments indicated that the major effect of early rIFN-gamma administration was to restore the production of IL-2 and IFN-gamma by donor-specific T cells while these cells still secreted significant amounts of IL-4 and IL-10. Unresponsiveness of antidonor cytolytic T cells was not influenced by rIFN-gamma. We conclude that rIFN-gamma prevents the TH2-type response induced by the neonatal injection of semiallogeneic spleen cells and the associated pathology.     

Construction of a mouse blastocyst cDNA library by PCR amplification from total RNA

Prostaglandin E2 (PGE2) and beta-adrenergic agonists can suppress lipopolysaccharide-induced tumor necrosis factor-alpha (TNF) production from elicited macrophages. We assessed the responsiveness of rat peritoneal macrophages to PGE2 and the beta-adrenergic agonist isoproterenol during immunologically-mediated arthritis. We assessed macrophage sensitivity to these mediators from resident macrophages and macrophages elicited with either streptococcal cell wall or complete Freund's adjuvant. Peritoneal macrophages were obtained from female Lewis rats that were (1) injected with complete Freund's adjuvant and non-arthritic (CFA); (2) injected with streptococcal cell wall and arthritic (ART); (3) injected with streptococcal cell wall and non-reactive (NON) and (4) non-elicited resident macrophages (RES). When challenged with graded concentrations of lipopolysaccharide (0.1 to 10,000 ng/ml), macrophages obtained from each group of rats released TNF in a concentration-dependent manner, with macrophages from arthritic rats (ART) producing the greatest amount of TNF (p < 0.001). While PGE2 suppressed lipopolysaccharide (100 ng/ml) stimulated TNF production in a concentration-dependent manner in all groups, the greatest sensitivity to PGE2 was observed with macrophages obtained from rats which received streptococcal cell wall when compared to both complete Freund's adjuvant-elicited and resident macrophages (p < 0.05). The beta-adrenergic agonist isoproterenol also inhibited lipopolysaccharide-stimulated TNF production from macrophages in all groups. In addition, the specific beta 2-adrenergic antagonist, ICI 118.551, shifted isoproterenol concentration-effect curves to the right (p < 0.01). Minimal responsiveness to isoproterenol was observed with resident peritoneal macrophages. Maximum isoproterenol-induced inhibition of TNF production was observed with complete Freund's adjuvant-elicited macrophages, and significantly less in macrophages of streptococcal cell wall-injected rats. Of particular interest, macrophages obtained from streptococcal cell wall-injected rats, which became arthritic, were significantly less sensitive to isoproterenol than those which did not develop arthritis (p < 0.02). In addition, these changes in sensitivity were not reflected by changes in the sensitivity of both CFA and ART groups to dibutyryl cAMP. The present study demonstrates a shift in the balance between inhibitory mediator responses in rats inoculated with one of two different adjuvants. These investigations support the role of PGE2 and a neurotransmitter as immunomodulating compounds which may effectively maintain an inflammatory lesion such as arthritis.     

Enhancing effect of interleukin-4 on the secretion of interferon-gamma by alpha s1-casein-specific CD8+ T cells

alpha s1-Casein-specific CD8+ T cell clones expressed the interleukin (IL)-4 receptor, although they did not secrete detectable IL-4. We found that IL-4 significantly enhanced the secretion of interferon (IFN)-gamma by these CD8+ T cell clones. IL-4 also enhanced the secretion of IFN-gamma induced by stimulating the immobilized anti-CD3 antibodies of polyclonal CD8+ T cells which had been isolated from lymph nodes and were stimulated in vitro with the immobilized anti-CD3 antibody and IL-2. In addition, IL-4 added at the time of this first in vitro stimulation induced strong IFN-gamma productivity, as well as IL-4 and IL-10 productivity, which were detectable upon restimulation of these cells. Results are discussed in relation to the inhibitory effects of IFN-gamma production on IL-4-producing cells.