Prostaglandin synthesis in spleen cell cultures of mice injected with Corynebacterium parvum.

Spleen cells of C57BL/6 mice produced high amounts of PGE in vitro when tested 5 to 10 days after injection of heat-killed C. parvum organisms. Little or no PGE was produced by spleen cells from untreated mice or from mice injected with a strain of coryneform bacteria that does not stimulate the lymphoreticular system of mice. Significant release of PGE from spleen cells of C. parvum injected mice could be detected as early as 30 min after initiating the cultures and maximal levels were usually seen after 48 hr. Treatment by indomethacin completely abolished this PGE production. Removal of the adherent population from the spleen cell suspension resulted in markedly decreased levels of PGE, but PGE release of the remaining population was never completely abolished. These data suggest that the cells responsible for most of the PGE synthesis in this system were adherent cells, presumably macrophages. The levels of PGE produced in spleen cells of C. parvum-treated mice were further increased by in vitro addition of C. parvum. This effect could also be observed after addition of zymosan particles indicating that it was not an immunologically specific effect. The reported data suggest that prostaglandins may represent important mediator molecules of the described immunostimulatory and immunosuppressive effects of C. parvum.     

Lymphocyte activation by the Fc region of immunoglobulin. I. Role of prostaglandins in the down regulation of Fc fragment-induced polyclonal antibody production

Fc fragment-, subfragment-, and p23-induced polyclonal antibody production are regulated by endogenous and exogenous PGE. Addition of the PG synthetase inhibitor indomethacin (IM) to murine spleen cell cultures resulted in a significant increase in the amount of Ig secreted. Moreover, addition of exogenous PGE to culture resulted in a marked suppression of IgM and IgG secretion. Splenic adherent macrophages and P388D1 cells release PGE upon stimulation with Fc fragments, subfragments, and p23. The inclusion of IM or aspirin in culture was found to abrogate the ability of Fc fragments to induce PGE release from adherent cells. These results suggest a role for PG in immune complex mediated regulation of immune responses.     

Recombinant granulocyte-macrophage colony-stimulating factor restores deficient immune responses in mice with chronic Trypanosoma cruzi infections

Spleen cells from mice with chronic Trypanosoma cruzi infection generate a minimal plaque-forming response to SRBC in vitro. Addition of granulocyte-macrophage (GM)-CSF to cultures of spleen cells from chronically infected mice restored the plaque-forming cells (PFC) response to normal levels. Splenic adherent cells from chronically infected mice were deficient in their ability to reconstitute the PFC response of accessory cell-depleted normal spleen cells. Preincubation of splenic adherent cells from infected mice with GM-CSF restored their ability to reconstitute the PFC response of adherent cell depleted cultures. Ia Ag expression by splenic adherent cells from chronically infected mice was significantly lower compared to Ia Ag expression of cells from normal mice. Incubation of splenic adherent cells from chronically infected mice for 48 h with GM-CSF increased levels of Ia Ag expression to approximately those of uninfected mice. Peritoneal macrophages from infected mice produced IL-1 after incubation with GM-CSF at levels equivalent to those produced by similarly treated control macrophages. Spleen cells from chronically infected mice showed significant induction of IL-2 mRNA after GM-CSF treatment, and the addition of the anti-IL-2 mAb to GM-CSF supplemented cultures of spleen cells from infected mice blocked the restoration of the anti-SRBC PFC response. Thus, the ability of GM-CSF to restore the anti-PFC response to SRBC appears to involve the up-regulation of accessory cell function that includes increased Ia Ag expression and the induction of IL-1 production. These events also involve increased IL-2 production with resultant up-regulation of the response to SRBC by spleen cells from infected mice. Finally, it was shown that treatment of infected mice with rGM-CSF completely restored their depressed PFC production in vivo.     

Experimental cutaneous leishmaniasis. I. Nonspecific immunodepression in BALB/c mice infected with Leishmania tropica

Leishmania tropica in BALB/c mice causes a fatal infection accompanied by the development of multiple metastatic lesions. Spleen cells from these mice were shown to have depressed proliferative responses to concanavalin A (Con A), phytohemagglutinin (PHA), and lipopolysaccharide (LPS). Coinciding with this immunodepression was the development of a cell population capable of suppressing normal spleen cell responses to Con A. This suppressor cell activity was first observed at 6 wk and was present throughout the remainder of the infection. At 12 wk the suppressor cells could be removed by Sephadex G-10 passage or carbonyl iron treatment; however, Sephadex G-10 passage could not reverse the suppression at 18 wk. Indomethacin, a prostaglandin synthetase inhibitor, was found to abrogate the activity of the adherent suppressor cell, suggesting that prostaglandin production may be involved in the immunosuppression seen in these mice. In addition, Sephadex G-10 passage and indomethacin were found to markedly augment spleen cell responses to leishmanial antigen, indicating that the adherent suppressor cell is capable of regulating specific immunologic responses.     

Stimulation of prostaglandin-dependent macrophage suppressor cells by the subcutaneous injection of polyunsaturated fatty acids

Polyunsaturated fatty acids (PUFAs), in the form of pure linoleic, linolenic, or arachidonic acid, were injected subcutaneously into male C57Bl/6 mice daily for 10 days. Injection of 3.6 mg/day of PUFA resulted in up to a two- to threefold increase in spleen weight. Spleen cell response to mitogens was reduced by about 70%; mixed lymphocyte responses were reduced by about 90% when compared to normal values. In admixture experiments, spleen cells from PUFA treated mice suppressed the mitogen induced blastogenic response of control spleen cells by up to 90%. Fractionation of spleen cells from PUFA treated mice by G-10 adherence resulted in an enrichment of suppressive activity in the adherent cells. The suppressive effect of G-10 adherent cells was abolished by the addition of indomethacin as well as by depletion of macrophages by treatments with agents such as carbonyl iron and leucine methyl ester. These studies indicate that the administration of PUFA has marked immunosuppressive effects in mice. These effects may be related to increased prostaglandin production and appear to be mediated by a macrophage type cell.     

Sensitivity difference to the suppressive effect of prostaglandin E2 among mouse strains: a possible mechanism to polarize Th2 type response in BALB/c mice

PGE2 has been shown to play a prominent role in regulating Th1 and Th2 type responses. We studied the role of PGE2 in IFN-gamma production by Staphylococcus aureus Cowan I-stimulated spleen cells from several mouse strains such as BALB/c, C3H/HeN, and C57BL/6. When spleen cells were pretreated with indomethacin (cyclooxygenase (COX)-1 and COX-2 inhibitor) or NS-398 (COX-2-specific inhibitor), S. aureus Cowan I -induced IFN-gamma production was increased more markedly in spleen cells from BALB/c mice than from C3H/HeN and C57BL/6 mouse. However, PGE2 production was not significantly different among spleen cells from three mouse strains. When various concentrations of PGE2 were exogeneously added to spleen cells, PGE2 showed a stronger suppressive effect on IFN-gamma production in spleen cells from BALB/c mice than from other strains of mice. This suppressive effect of PGE2 in BALB/c mice mainly depended on IL-12p70 production by APCs. More PGE2 binding sites were found in BALB/c spleen cells than in C3H/HeN spleen cells, indicating that the sensitivity difference to the suppressive effect of PGE2 was due to the difference of the number of PGE2 receptors. The administration of NS-398 into BALB/c mice enhanced Ag-specific IFN-gamma production, but not IL-4 production. This effect is the same as IL-12 administration in vivo. From these results, we propose that the modulation of PGE2 is important for Th1 activation via IFN-gamma and IL-12p70 production in vitro and in vivo and that PGE2 is one of the pivotal factors in the Th2-dominant immune response in BALB/c mice.     

Suppressor cells in mice infected with Trypanosoma brucei.

Within 2 to 3 days of infection with Trypanosoma brucei strain S42, the ability of spleen cells from infected CBA mice to mount a primary in vitro antibody response to sheep red blood cells (SRBC) is profoundly reduced, and suppressor cells are generated as detected by cell mixture experiments. Suppressor cell activity lies in the T and adherent cell compartments of spleens from infected mice, but not in the B cell compartment, although antibody responses to a thymus-independent antigen, DNP-Ficoll, are significantly reduced. Suppression of antibody responses of normal spleen cells depends on viable cells from infected mice. The trypanosome, itself, plays no direct role in suppression, and we have ruled out the possibility of antigenic competition as a mechanism of suppression. Our data is consistent with the model of suppressor T cells induced by concanavalin A mitogenesis. We hypothesize that trypanosome antigens may directly stimulate T cells with the concomitant release of factors with affinity for macrophage surfaces thus becoming suppressive for T and B cell responses.     

Selective immunomodulation by the antineoplastic agent mitoxantrone. II. Nonspecific adherent suppressor cells derived from mitoxantrone-treated mice

Mitoxantrone exerts a potent suppressive influence upon humoral immune responses. The B cell is a likely target for this inhibitory effect, and we have reported evidence supporting this possibility. The impact of mitoxantrone upon T lymphocyte reactivity was assessed as a second mode of action of this novel antineoplastic drug. TH and TS lymphocyte induction were tested in the in vitro anti-sheep erythrocyte response, and a surprising differential effect of mitoxantrone was observed. Helper activity was abrogated and suppressor function was enhanced. In apparent disagreement with this result, mitoxantrone inhibited the in vivo induction of TS cells using trinitrophenylated spleen cells. Macrophages were investigated as potential mediators of these effects upon immunoregulatory function. Replacement of macrophages in mitoxantrone-treated spleen cell preparations by normal adherent cells allowed the induction and complete expression of TH lymphocyte function. Conversely, replacement of mitoxantrone-treated macrophages with normal adherent cells before induction of TS cells failed to generate TS cell function. Thus, TH cells were resistant and TS cells were completely susceptible to mitoxantrone. Furthermore, supplementation of normal TH cell cultures with splenic macrophages from mitoxantrone-treated mice inhibited the induction of helper function. Production of the lymphokines IL 2 and TRF in mitoxantrone-treated mice was normal. This is consistent with the retention of functional TH cells in drug-treated spleens. Macrophages in the spleens of mitoxantrone-treated mice were responsible for the abrogated helper function and the enhanced suppressor activity. Although TS cell induction was directly inhibited by the drug, the effect upon TH cell function was secondary to the action of mitoxantrone-induced suppressor macrophages. Mitogen-stimulated lymphokine production was normal. Thus, mitoxantrone is a selective immunomodulator. The macrophage-mediated suppression of TH cell induction and humoral immunity investigated in spleens from mitoxantrone-treated mice is an intriguing finding that may have significant implications for immunotherapy.     

Immunologic deficiency during experimental Chagas' disease (Trypanosoma cruzi infection): role of adherent, nonspecific esterase-positive splenic cells

The involvement of adherent splenic cells in the production of deficient lymphocyte responses during the acute phase of experimental Chagas' disease was investigated. When cultured together, purified adherent splenocytes from mice acutely infected with Trypanosoma cruzi caused a significant reduction in the responses of normal mouse spleen cells to T and B cell-specific mitogens. Similar observations were made when infected mouse adherent splenocytes were co-cultured with normal mouse nonadherent cells. Exchange of adherent cells in infected mouse spleen cells suspensions for adherent cells from uninfected mice resulted in increased responses to stimulation with the T and B cell mitogens tested. Treatment of infected mouse cell suspensions with indomethacin improved the responsiveness of these cells to the mitogens. These results support the concept that the immunosuppression that is characteristic of experimental acute Chagas' disease is at least in part mediated by an adherent cell population and is dependent on a prostaglandin-mediated mechanism.     

Chronic infection due to Mycobacterium intracellulare in mice: association with macrophage release of prostaglandin E2 and reversal by injection of indomethacin, muramyl dipeptide, or interferon-gamma

As a model for the study of human atypical mycobacterial disease, we explored the basis for the prolonged mycobacteriosis in mice infected with Mycobacterium intracellulare. Two weeks after i.v. injection of mycobacteria, peritoneal macrophages were found to be activated, as indicated by their capacity to produce large amounts of superoxide anion (O2-) in response to phorbol myristate acetate (PMA) or viable M. intracellulare. However, 4 wk after infection, despite the continued presence of large numbers of mycobacteria in the spleen, macrophages from infected animals produced low amounts of O2-. Unfractionated spleen cells from mice infected 4 wk earlier produced increased amounts of interleukin 2 and interferon (IFN) when stimulated with the mitogen concanavalin A, but less of these lymphokines than unstimulated cells when exposed to antigens derived from M. intracellulare, suggesting production of an inhibitory factor. Spleen cells from infected mice were not stimulated to incorporate [3H]thymidine by exposure to mycobacterial antigens; but this unresponsiveness could be reversed by addition of indomethacin to the cultures. Additional investigation showed that macrophages from infected animals produced large amounts of prostaglandin E2 (PGE2) when stimulated by mycobacterial antigens. In vitro, such concentrations of PGE2 inhibited uptake of [3H]thymidine by stimulated spleen lymphocytes from infected animals. Thus, it seemed likely that in infected animals, macrophage-derived PG suppressed production of IFN-gamma by lymphocytes, which in turn prevented activation of the macrophages to full microbicidal activity. To test this hypothesis, we administered either indomethacin, IFN-gamma, or muramyl dipeptide to infected mice. Mice treated with each of these agents showed decreased spleen and lung weights, and decreased numbers of viable mycobacteria in these organs. These results support the concept that interaction between the host and M. intracellulare is modulated profoundly by PG and suggest that administration of agents that directly promote macrophage activation can enhance resistance to infection by this organism.     

Thymic hormones and prostaglandins. II. Synergistic effect on mouse spontaneous rosette forming cells

Prostaglandins (PGs) have been assumed to play a role in the biological activity of thymic hormones (TH). Indeed, it has been shown that type E-PGs are able to mimic the action of several TH. Moreover, indomethacin interferes in the rosette assay, which still represents the most commonly used bioassay for the evaluation of TH and, in particular thymulin levels, in biological fluids. Previously, our attempt to modulate PG production by different TH showed that none of the TH tested affect PGE2, 6-keto-PGF1 alpha, PGF2 alpha and TXB2 production by spleen cells from control and thymectomized (Tx) mice, while indomethacin was able to inhibit the spontaneous PG production. Here, we investigated a possible role for each endogenously produced PG in the experimental conditions of the rosette assay, in order to define: 1) whether or not there was a specificity of action of a given PG; and 2) to analyze the pattern of action between thymulin and the endogenously produced PGs. We demonstrated that PGE2 and 6-keto-PGF1 alpha are the PGs which are physiologically involved in the rosette assay, according to their levels of endogenous production, and that they are able to synergize with thymulin. This synergy was demonstrated in two ways: 1) by adding anti-PGE2 and anti-6-keto PGF1 alpha-antibodies, which prevent part of the thymulin effect, or 2) by simultaneous addition of PG and thymulin, at concentrations far lower than those which correspond to their thymulin-like effect. Moreover, PGE2 addition, at concentration close to that found to be endogenously produced, partially reversed the indomethacin-induced effect in the rosette assay. In conclusion, if PGs do not act as mediators of thymulin, they are able to synergize in one of its biological action.     

Inhibition of murine lymphokine-activated killer (LAK) cell activity by adherent cells

The effects of adherent cell depletion, indomethacin, and prostaglandin E2 (PGE2) on murine LAK cell activity were investigated. Removal of plastic adherent cells from splenocyte suspensions either prior to 5-day culture with 1000 U/ml of recombinant human IL-2 (rIL-2) or prior to assay resulted in an enhanced LAK cell cytotoxicity compared to that of whole spleen cell suspensions. Indomethacin enhanced LAK cell cytotoxicity of whole splenocyte suspensions if present during the culture period, but had no effect on whole splenocyte or adherent cell-depleted cell suspensions if added just prior to assay. PGE2 suppressed LAK cell activity of nonadherent splenocyte but not whole splenocyte suspensions when present during the culture period. In vivo treatment of mice with indomethacin enhanced cytotoxicity directed toward both LAK sensitive, natural killer (NK) resistant (P-815) and LAK, NK sensitive (YAC-1) tumor cell targets. Splenocytes from indomethacin-treated mice cultured with additional indomethacin and rIL-2 exhibited highest LAK cell activity. The results from this study indicate that LAK cells are regulated by adherent cells which suppress LAK cell activity. This suppression can be reversed both in vitro and in vivo by indomethacin. This study has important implications for the possible clinical use of indomethacin in the potentiation of in vivo and in vitro LAK cell activity for immunotherapeutic protocols.     

Altered interleukin production during Friend leukemia virus infection

Spleen cells from BALB/c mice, infected 14 to 28 days earlier with Friend leukemia virus (FLV), were shown to be inhibited in their ability to produce interleukin 2 (IL-2) when stimulated with mitogen. Likewise, these spleen cell populations failed to respond following mitogenic stimulation or exogenous addition of recombinant IL-2. By contrast, the FLV-infected spleen cell populations produced normal levels of interleukin 1 (IL-1) and thymocytes from FLV-infected mice responded normally to addition of exogenous IL-1. This suggests that FLV infection selectively affects the ability of spleen cells to produce cytokines. Spleen cell populations enriched for T lymphocytes and depleted of tumor cells by density gradient centrifugation in Ficoll were unable to produce IL-2. This indicates that the failure to detect IL-2 in cells from FLV-infected mice was not due to a dilution of T lymphocytes by tumor cells but was a functional inability to produce IL-2. Furthermore, enriched T lymphocytes from FLV-infected mice failed to respond blastogenically to exogenous IL-2. Additional studies indicate that tumor cells, but not macrophages or T lymphocytes from FLV-infected spleens, suppressed the blastogenic response to mitogens and IL-2 production by normal splenic T lymphocytes.     

Studies of immune responses in mice prone to autoimmune disorders. II. Decreased down-regulation by auto-anti-idiotype antibody in autoimmune-prone mice

Three lines of evidence are presented which suggest that autoimmune-prone mice are deficient in the production of auto-anti-idiotype antibody during their immune response to trinitrophenylated Ficoll (TNP-F). NZB, MRL lpr/lpr and older BXSB male mice have no hapten-augmentable plaque-forming cells (PFC). Hapten-augmentable PFC have been previously shown to be cells whose secretion of antibody has been inhibited by the binding of auto-anti-idiotype antibody to cell surface idiotype. Sera from TNP-F immunized NZB mice lack PFC inhibiting activity (anti-idiotype antibody). Spleen cells from TNP-F immune NZB mice fail to transfer anti-idiotype antibody-mediated suppression to naive mice as do spleen cells from immune non-autoimmune-prone mice. Taken together these data suggest that autoimmune-prone mice are deficient in auto-anti-idiotype antibody-mediated downward regulation of their immune responses. It was further shown that the immune response of NZB mice to TNP-F shows a slower decline in splenic PFC and a greater heterogeneity of PFC affinity than do the responses of non-autoimmune-prone strains. Since athymic (nude) mice, which were previously shown to be defective in the production of auto-anti-idiotype antibody, also show a slower decline in splenic PFC and an increased heterogeneity of PFC affinity, it is suggested that these peculiarities of the immune responses of autoimmune-prone and athymic mice are also the consequences of the lack of auto-anti-idiotype antibody-mediated down-regulation.     

Splenic macrophage function in early syphilitic infection is complex. Stimulation versus down-regulation

Macrophages are important regulatory cells that can both stimulate and down-regulate various immune functions. During syphilitic infection, these cells phagocytize, kill, and lyse Treponema pallidum. They also modulate early T cell activation by decreasing IL-2 production through secretion of PG. This report focuses on additional complexities of macrophage regulation. Non-adherent splenic cells were stimulated with Con A to induce IFN-gamma synthesis. High levels were detected in preparations from normal rabbits and much lower levels in preparations from infected rabbits. The organisms also readily stimulated IL-1 synthesis by adherent spleen preparations from normal but not from infected rabbits. When indomethacin was added to these latter preparations, this IL-1 defect was reversed, implicating PG in this down-regulation. Spleen cells were obtained from normal rabbits and from rabbits infected testicularly for 9 to 12 days. Infection elevated basal levels of class II Ia Ag on adherent cells. In addition, macrophage Ia expression was increased during 4 days of in vitro incubation with treponemes. Non-adherent spleen cells from infected animals inhibited two different macrophage functions. First, culture filtrates obtained after 48 h of incubation contained a soluble factor that subsequently decreased LPS-induced IL-1 synthesis. Second, when macrophages were co-incubated with non-adherent cells, treponemal stimulation of macrophage Ia expression was inhibited; this inhibition was reversed by indomethacin implicating prostaglandins in this down-regulation. In further experiments an exogenous source of IFN-gamma was incubated with adherent cells from infected rabbits. This stimulated macrophage function as shown by increased IL-1 synthesis and Ia expression and decreased PGE2 secretion. Results are discussed in terms of the complexities of immunoregulation by macrophages during syphilitic infection.     

Characterization of accessory cell function during acute infection of BALB/cByJ mice with mouse hepatitis virus (MHV), strain JHM.

Earlier studies revealed defective concanavalin A-stimulated proliferation and cytokine production by spleen cells derived from BALB/cByJ mice acutely infected with mouse hepatitis virus (MHV), strain JHM. Based on those observations, assays of in vitro antigen-presenting cell (APC) function were undertaken. APC function of unfractionated spleen cells from individual MHV-infected mice was highly variable. Experiments using pooled spleen cells derived from MHV-infected mice revealed that adherent spleen cell APC function was impaired to a much greater degree than B cell APC function. Adherent cells derived from peritoneal exudates of infected mice exhibited an APC defect that was similar in magnitude to that observed for splenic adherent cells. Splenic B cells derived from acutely infected BALB/cByJ mice harbored infectious MHV. In contrast, lysates of adherent spleen cells from acutely infected mice did not kill intracerebrally inoculated neonatal mice, but did induce seroconversion among all survivors. Despite impairment of APC function of cells derived from MHV-infected donors, neither indomethacin nor accessory cells from uninfected control mice restored concanavalin A-induced proliferative responses of spleen cells collected from acutely infected mice. These results and those of earlier studies suggest that, although APC function is impaired, in vitro T cell dysfunction exhibited by spleen cells from MHV-JHM-infected donors is probably related to an inherent proliferative defect subsequent to T cell activation. Defective concanavalin A-stimulated proliferation does not appear to be secondary to accessory cell function suppression or to inhibitory factors secreted by accessory cells.     

Experimental cutaneous leishmaniasis. II. A possible role for prostaglandins in exacerbation of disease in Leishmania major-infected BALB/c mice

Leishmania major infection in genetically susceptible BALB/c mice is associated with the development of chronic primary lesions as well as multiple metastatic lesions. Spleen cells from these mice were shown to have depressed in vitro responses to concanavalin A (Con A) that coincided with the development of indomethacin-sensitive suppressor cells. Depressed responses to Con A were noted as early as 1 wk after parasite inoculation and correlated with the increased production of prostaglandin E2 (PGE2) by spleen cells from infected mice. Mice induced by prior irradiation (550 rad) to heal infection did not develop indomethacin-reversible depression in responsiveness to Con A. Although macrophages appear to be the major source of PGE2 production, in vitro studies indicate that infection per se is not a sufficient stimulus to initiate prostaglandin (PG) synthesis, suggesting the involvement of other cell types. Mice treated in vivo with indomethacin exhibited significantly fewer metastatic lesions than control mice, suggesting that PG may play a role in the exacerbation of cutaneous disease in these animals.     

Suppression of parasite antigen-specific lymphoid blastogenesis in African trypanosomiasis

Inbred C57BL/6J mice were infected with either Trypanosoma rhodesiense organisms of Walter Reed Army Trypanozoon antigenic type 3 or 5 (WRATat 3 or WRATat 5) or were immunized with soluble trypanosomal antigens. Spleen cells obtained from immunized hosts undergo blastogenesis, measured by thymidine incorporation, when exposed to trypanosomal antigens in vitro. Spleens obtained from mice infected with T. rhodesiense organisms do not respond or respond only minimally to trypanosomal antigens in vitro. Spleen cells of infected mice suppress the trypanosomal antigen-induced proliferative response of spleen cells from immunized mice in co-culture experiments. The suppressive activity was found in both the plastic adherent and plastic nonadherent spleen cell populations. The in vitro responses of normal spleen cells to LPS and Con A were also suppressed by spleen cells obtained from infected mice.     

Macrophage-mediated suppression of immune responses in Toxoplasma-infected mice. I. Inhibition of proliferation of lymphocytes in primary antibody responses

The suppressor cells induced by Toxoplasma infection were shown to be macrophages, since they adhered to plastic, and their suppressive activity in anti-sheep erythrocytes (SRBC) antibody responses was abrogated by treatment with silica or carrageenan, which are selectively cytotoxic for macrophages. The suppressor macrophages strongly inhibited the uptake of tritiated thymidine ( [3H]TdR) by normal mouse spleen cells in the responses to SRBC and Toxoplasma antigens. Supernatant fluids from the suppressor macrophages could not passively transfer the suppressive effect on anti-SRBC antibody responses. Furthermore, when the suppressor macrophages were isolated by a cell-impermeable membrane from normal mouse spleen cells, the antibody responses of normal spleen cells were not suppressed. These results indicate that suppression of antibody responses in Toxoplasma-infected mice is caused by an inhibitory effect of the suppressor macrophages upon proliferation of lymphocytes via direct contact with responder target cells. The suppressive effect of the macrophages was not counteracted by indomethacin, a potent inhibitor of prostaglandin synthesis, or catalase, a catabolic enzyme for hydrogen peroxide (H2O2).     

Induction of leukotriene production before antigen challenge enhances antibody affinity in genetically selected mice

Mice genetically selected for their incapacity to produce high-affinity antibody to protein antigens in adjuvant (nonmaturing (NM) mice) were treated with indomethacin, an inhibitor of the cyclooxygenase pathway of arachidonic acid metabolism. Pretreatment with indomethacin significantly enhanced the affinity of antibodies produced 21 days after immunization with human serum albumin (HSA). Blockage of the cyclooxygenase pathway in this way was shown to induce the production of leukotrienes via the lipoxygenase pathway. The production of leukotrienes may well be responsible for the enhanced antibody affinity, since blockage of the lipoxygenase pathway in addition to the cyclooxygenase pathway reversed the effect. In an attempt to elucidate the mechanisms involved, IL-1 production and Ia expression by macrophages were examined. Ia expression by peritoneal cells from untreated NM mice was significantly lower than that by their high-affinity-producing counterparts 3 days after immunization. Indomethacin pretreatment raised inducible Ia antigen levels on macrophages of NM mice to those seen on cells from untreated high-affinity mice. Indomethacin treatment alone induced the production of IL-1 by macrophages in NM mice. However, 3 days after immunization and the withdrawal of indomethacin in NM mice, IL-1 production was significantly lower than the response of NM mice given antigen alone, suggestive of the induction of a feedback mechanism. Thus indomethacin pretreatment results in a cascade of events in macrophages which produce a decrease in IL-1 production and an increase in inducible Ia expression 3 days after antigen challenge.