Immune complex effects on murine macrophages. I. Immune complexes suppress interferon-gamma induction of Ia expression

We have studied the effects of immune complexes on the expression of macrophage surface proteins in vitro. Increased expression of the H-2 molecules I-A, I-E, and K on the macrophage membrane was induced by in vitro culture with crude lymphokine or interferon-gamma. Expression of all three of the molecules was additionally increased by stimulating the cultures with heat-killed Listeria monocytogenes. Addition of soluble immune complexes to the cultures did not have any effect on macrophage expression of these proteins. However, significant inhibition of lymphokine or interferon-gamma induction of I-A, I-E, and H-2K was observed when macrophages were cultured on plates to which immune complexes had been bound. This inhibition was dose dependent, required an immunoglobulin (Ig) molecule with an intact Fc portion, did not require the presence of T cells, and occurred in the presence of indomethacin. Complexes containing IgG1, IgG2a, IgG2b, and IgE, but not IgM or IgA, antibodies mediated the inhibitory effect.     

Biochemical models of interferon-gamma-mediated macrophage activation: independent regulation of lymphocyte function associated antigen (LFA)-1 and I-A antigen on murine peritoneal macrophages

IFN-gamma can induce the expression of both class II histocompatibility antigens (Ia) and the lymphocyte function associated (LFA)-1 antigen on murine peritoneal macrophages. We have examined the molecular changes which lead to altered expression of these two cell surface proteins to determine whether they are regulated by similar or independent mechanisms. While I-A antigen expression can be induced or enhanced by treatment of macrophages with either phorbol diesters and/or the Ca2+ ionophore A23187, these agents had no effect upon expression of LFA-1 under similar conditions. Macrophages from the A/J strain mouse exhibit a deficiency in their sensitivity to IFN-gamma which is seen in our studies as an inability of IFN-gamma to elevate I-A antigen expression. However, expression of I-A could be modulated in these cells by treatment with either phorbol diesters or A23187. In contrast, IFN-gamma could induce LFA-1 antigen on A/J derived macrophages and this was not affected by either phorbol or A23187. Thus these two antigens, despite coordinate expression in response to IFN-gamma in normal mouse strains, are clearly regulated independently. These results suggest that IFN-gamma generates at least two independent molecular events in macrophages which ultimately modulate the expression of cell surface proteins important to the performance of activated functions.     

Pertussigen in vivo enhances antigen-specific production in vitro of lymphokine that stimulates macrophage procoagulant activity and plasminogen activator

Pertussigen is a protein toxin of Bordetella pertussis that acts as a powerful stimulator of the intensity and duration of delayed-type hypersensitivity (DTH) in mice. This study describes the potent in vivo effect of pertussigen on the levels of antigen-specific macrophage-activating lymphokine(s); lymphokine(s) was measured by the stimulation of macrophage procoagulant activity (mPCA), or plasminogen activator (PA) activity. Lymphoid cells were removed from immunized animals and cultured with specific antigen, keyhole limpet hemocyanin, ovalbumin, or human gamma-globulin. The culture supernatants were then incubated with the monocyte-like cell line WEHI-265 to measure mPCA or with WEHI-265 or resident peritoneal macrophages to measure PA activity. Mice were given pertussigen at the time of immunization, and the subsequent generation by lymphocyte supernatants of both of these macrophage activities proved to be greatly enhanced; the effect of pertussigen was antigen specific. Pertussigen thus induces an increase in lymphokine(s) production responsible for the in vitro increase in macrophage mPCA and PA activity and which may be responsible for some of the potent immune effects of this agent in vivo.     

Induction of graft versus host-associated immunodeficiency by CD4+ T cell clones

Previous studies have shown that the injection of parental T cells into MHC class II mismatched F1 recipient mice can lead to graft-vs-host (GvH) reaction that manifests itself by multiple symptoms. The objective of our study was to analyze GvH reactivity induced by a single T cell clone specific for host I-A or I-E alloantigen. The T cell clones tested for GvH potential were CD4+, with or without cytolytic activity in vitro and with a lymphokine pattern that classifies them as Th1 cells. The inoculation of a single T cell clone induced a severe, but transient immunodeficiency in the host that was independent of its cytolytic activity, as demonstrated by the failure to generate a CTL response to third party allogeneic cells in vitro. Induction of immunodeficiency in the recipients required preactivation of the clones in vitro by rIl-2 and the presence of the stimulator class II alloantigen in the host. Spleen cells from these mice lacked suppressor cells, they were deficient in Il-2 secretion and exhibited a decrease in the number of CD4+ T cells. In addition, I-E expression was reduced, however, without any changes in the macrophage population and an increase in surface Ig and the B cell marker B220. Simultaneous to the immunodeficiency, the clone-injected mice produced elevated antibody titers to ssDNA.     

Antigen handling by guinea pig macrophages: further evidence for the sequestration of antigen relevant for activation of primed T lymphocytes.

Guinea pig macrophages can take up sufficient 2,4 dinitrophenyl guinea pig albumin during a brief in vitro exposure at 37 degrees C to trigger proliferation and lymphokine production with primed T lymphocytes on subsequent co-culture. Treatment of such antigen-bearing macrophages with trypsin, a procedure which removes surface antigen, does not alter the ability of such macrophage to initiate the release of migration inhibition factor from sensitized T lymphocytes. In addition, formation of antigen-specific rosettes between primed T cells and antigen-bearing macrophages is not blocked by high concentrations of antibody directed against the antigen mediating this interaction. Similarly, primed T lymphocyte DNA synthesis induced by antigen-bearing macrophages is not inhibited by specific antibody to that antigen. These data support the conclusion that the fraction of macrophage-associated antigen which is relevant to T lymphocyte activation does not reside on the macrophage surface but rather remains in a restricted compartment from which it is accessible to the T cell but unavailable to either blockade by specific antibody or removal by proteolytic enzymes.     

T cell induction of membrane IL 1 on macrophages

We have studied the role of T cells in the induction of a membrane-associated form of interleukin 1 (mIL 1) in murine macrophages. T helper cell clones and a T cell hybridoma induced macrophages to express mIL 1 after an antigen-specific, Ia-restricted interaction. Induction of mIL 1 was proportional to antigen concentration and was increased in the early course of the response in macrophages pretreated in culture with interferon-gamma. mIL 1 activity was detectable 4 hr after interaction with T cells. mIL 1 induction was inhibited by antibodies to either class II molecules or the T cell receptor. Two pathways of T cell-mediated mIL 1 induction could be defined. In the first, T cells, whose protein synthesizing capacity was completely eliminated by pretreatment with the irreversible protein synthesis inhibitor emetine, induced levels of mIL 1 expression indistinguishable from controls. In the second, T cells stimulated by paraformaldehyde-fixed macrophages in the presence of concanavalin A or antigen secreted a soluble factor that induced macrophage mIL 1 expression. Thus, it appears that T cells may induce macrophages to express mIL 1 both by direct cell-cell contact mediated through binding of T cell receptor to the Ia/antigen complex, and through the release of a lymphokine after activation. This lymphokine does not appear to be IL 2, IFN-gamma, BSF-1, or CSF-1.     

Targeted antigen presentation using crosslinked antibody heteroaggregates

We have targeted protein antigens to antigen-presenting cells in vitro by using antibody heteroaggregates containing an antibody against a protein antigen covalently crosslinked to an antibody against a target structure on the surface of the antigen-presenting cells. Antigen presentation was assessed by measurement of lymphokine released by antigen-specific T cell hybridomas. Depending on the experimental conditions, the crosslinked antibodies decreased the amount of antigen required to give a response by the hybridomas by factors of 10(2) to 10(3). Enhanced presentation occurred when antigen was targeted to MHC class I and class II molecules, surface immunoglobulin, or Fc gamma receptors on the surface of the murine B cell lymphoma-hybridoma, TA3. An enhancement of antigen presentation also occurred when antigen was targeted to surface IgD, or class I and class II MHC molecules on murine splenic B cells, and when antigen was targeted to class I and class II molecules on irradiated adherent spleen cells. No response was seen when antigen was targeted to Fc gamma R on B cells or adherent spleen cells. The ability of each crosslinked antibody to enhance presentation paralleled the total amount of each that bound to the surface of the antigen-presenting cells. Antigen presentation, mediated by crosslinked antibody, was antigen-specific and I-A restricted. The presentation of one antigen by using crosslinked antibody did not result in enhanced presentation of a second, bystander antigen. These results suggest that a novel means of stimulating immune responses may be possible in vivo, by targeting antigen to surface structures on antigen-presenting cells.     

Selective induction of B7/BB-1 on interferon-gamma stimulated monocytes: a potential mechanism for amplification of T cell activation through the CD28 pathway.

The B cell activation antigen B7/BB-1 is the natural ligand for the T cell antigen CD28 and these two molecules are capable of mediating T-B cell adhesion. Engagement of the CD28 pathway provides a costimulatory signal to T cells leading to enhanced lymphokine production. We report that interferon-gamma (INF-gamma) induces the expression of B7/BB-1 on monocytes. This induction was very specific since other cytokines and stimuli which activate monocytes including M-CSF, GM-CSF, IL3, TNF-alpha, and LPS were unable to induce B7/BB-1. Following culture of monocytes with INF-gamma, maximal mRNA and cell surface B7/BB-1 expression was detected at 12 and 24 hr, respectively. In addition to antigen presentation, optimal T cell activation and lymphokine synthesis require an additional cell to cell contact signal provided by the antigen presenting cell. The induction of B7/BB-1 on monocytes and subsequent heterophilic interaction of B7/BB-1 with CD28 may provide a mechanism for the amplification of T cell proliferation and lymphokine production by INF-gamma activated monocytes.     

Parasite-accessory cell interactions in murine leishmaniasis. II. Leishmania donovani suppresses macrophage expression of class I and class II major histocompatibility complex gene products

In the present study, we examined the modulation of MHC class II and class I gene products on BALB/c macrophages infected with the obligate intracellular protozoan Leishmania donovani. Our findings indicated that this organism suppressed macrophage expression of both classes of MHC antigens. These effects varied somewhat, depending on whether cells were in the basal state or were stimulated with interferon-gamma. Thus, class II density on interferon-gamma-treated infected macrophages was suppressed by as much as 90%, relative to lymphokine-stimulated control cells. Induction of H-2K and H-2D by lymphokine treatment of infected macrophages was also markedly reduced. In the basal (non-lymphokine-treated) state, infected cells also showed reduced expression of H-2K and H-2D, but not I-A or I-E. The latter result was related to minimal levels of class II molecules on normal, in vitro cultured macrophages. Suppression of MHC gene products correlated with both the duration and intensity of leishmania infection and could not be overcome by increasing doses of interferon-gamma. Culture of cells under conditions of cyclooxygenase inhibition completely abolished elevated synthesis of prostaglandin E2 by infected macrophages and augmented their responsiveness to lymphokine induction of class II antigens by 60 to 80%. These results indicate that L. donovani is capable of subverting a critical macrophage accessory function required for the induction of T lymphocyte immunity. This mechanism could account, at least in part, for defective parasite-specific cell-mediated immunity seen during infections with this protozoan.     

Macrophage procoagulant activity as a measure of cell-mediated immunity in the mouse

Thioglycollate-induced peritoneal exudate cells (TG-PEC) developed increased procoagulant activity after incubation with lymphokine and lipopolysaccharide (LPS). Dilutions of up to 1/1000 for insoluble Con A and 1/200 for periodate-induced lymphokine supernatants were active in enhancing macrophage procoagulant activity (MPCA), which was detected after a 2-hr incubation period and steadily increased over 20 hr. MPCA could also be induced by antigen; peritoneal cells from sensitized B6AF1 mice with strong footpad reactions to ovalbumin (OVA) responded to as little as 0.1 microgram/ml OVA in the MPCA test in an antigen-specific manner. By contrast, PEC from sensitized CBA/J mice that gave poor in vivo responses to OVA only reacted with high concentrations of the antigen in vitro. Production of the lymphokine responsible for induction of MPCA required an Ly-1+2- T cell, a nylon wool-adherent cell, and an la-17-bearing adherent cell. The MPCA induced by lymphokine or LPS did not appear to be a serine esterase and was not inhibited by phospholipase C. Coagulation of human factor-deficient plasma with activated TG-PEC indicated a requirement for Factor X.     

Effects of monoclonal antibodies directed against murine T lymphocyte cell surface antigens on lymphokine production by cloned T lymphocytes reactive with class I MHC or Mls alloantigens

Monoclonal antibodies recognizing murine T lymphocyte cell surface structures implicated in T lymphocyte-mediated cytolysis, including Lyt-2, L3T4, LFA-1, and a cytolytic T lymphocyte (CTL) clonotypic determinant, were used as probes to investigate the role of these structures in lymphokine production by T cell clones induced by antigen or lectin. The clone-specific antibody 384.5 bound to and inhibited antigen-induced lymphokine production by the L3 CTL clone, but did not affect lymphokine production by other T cell clones. Antibodies against the T cell surface structures Lyt-2 or L3T4, which are expressed by mutually exclusive T cell subsets, inhibited antigen-induced lymphokine production by class I major histocompatibility complex (MHC) antigen-reactive CTL clones or an M1s-reactive helper T lymphocyte (HTL) clone, respectively. Antibody against the broadly distributed LFA-1 molecule inhibited antigen-induced lymphokine production by all of the clones tested. Lectin-induced lymphokine production by cloned T cells was not inhibited by the clonotypic antibody, anti-Lyt-2, or anti-LFA-1; slight inhibition of the HTL clone was observed with the anti-L3T4 antibody. None of these structures appear to be uniquely involved with a particular functional response. Our results suggest that each of these structures is involved with the interactions between the effector cell and the stimulating cell leading to lymphokine production.     

Lectin induction of lymphokines in cultured murine leukocytes

Antigens induce sensitized lymphocytes to undergo mitosis and to secrete soluble products, termed lymphokines, which modulate the immune response. Plant lectins are known to act as polyclonal lymphocyte mitogens and, in some cases, stimulate lymphocytes to produce lymphokines. In an effort to explore the relationship of specific cell surface glycoconjugates to the induction of mitosis and the production of lymphokine activities we have examined the ability of the mitogenic lectins, concanavalin A and Wistaria floribunda mitogen, and the nonmitogenic hemagglutinin from Wistaria floribunda seeds to stimulate the production of macrophage migration inhibition factor (MIF), macrophage chemotactic factor (CF), and lymphotoxin (LT). Concanavalin A causes lymphocytes to produce MIF and LT but no detectable CF activities. W. floribunda mitogen induces lymphocytes to produce soluble substances which exhibit all three lymphokine activities. The nonmitogenic W. floribunda agglutinin causes lymphocytes to produce MIF and CF but no observable LT activity. Within the sensitivity of the assays employed, the results indicate that mitogenesis is not a corequisite of the expression of either macrophage migration inhibition factor or lymphocyte-derived chemotactic factor but it may be associated with the induction of lymphotoxin. It is also apparent that the expression of each lymphokine activity is independent of the expression of the other lymphokines studied.     

Induction of protective immunity against Schistosoma mansoni by a nonliving vaccine. III. Correlation of resistance with induction of activated larvacidal macrophages

Mice protected against Schistosoma mansoni infection by intradermal (i.d.) immunization with nonliving larval or adult worm antigens plus bacterial adjuvant developed 24-hr skin test responsiveness to schistosome antigens with the histologic features of delayed hypersensitivity. Intraperitoneal antigen injection elicited a mononuclear cell-enriched exudative population containing macrophages activated for direct cytotoxicity against schistosomula and tumor cell targets. This was likely to be due to in vivo exposure to macrophage-activating lymphokines, since these cells were unresponsive to further lymphokine stimulation in vitro and splenocytes from immunized mice reacted to specific in vitro antigen challenge by production of lymphokines capable of conferring larvacidal activity upon control macrophages. In contrast, mice treated with schistosome antigens by i.v. injection, which were not protected against challenge infection, failed to develop delayed hypersensitivity or activated macrophages in response to specific antigen challenge in vivo, and the titers of macrophage-activating lymphokine produced by in vitro antigen-stimulated splenocytes from these mice were threefold to fourfold lower than those produced by cells from animals immunized by the i.d. route. Thus, sensitization for cell-mediated immune responses including lymphokine production and macrophage activation correlated with induction of resistance to S. mansoni in this model of vaccination.     

Depression in gene expression for poly(ADP-ribose) synthetase during the interferon-gamma-induced activation process of murine macrophage tumor cells

A 2.7-kb cDNA clone coding for bovine poly(ADP-ribose) synthetase was isolated from a lambda gt11 expression library by direct immunological screening with an antiserum to the enzyme. The cDNA hybridizes to an approximately 3.8-kb bovine thymus polyadenylated RNA, which translates an immunoprecipitable 120-kDa protein with the antibody to the enzyme. The partial DNA sequence of the cDNA was determined and portions of the predicted amino acid sequence matched the sequence of 26 amino acids at the N terminal of the 41-kDa alpha-chymotryptic fragment and two cyanogen-bromide-cleaved peptides of the enzyme. A subcloned fragment from the coding region of the cDNA was used as a probe to estimate the level of mRNA for the enzyme during the interferon-gamma-induced activation process of the murine macrophage tumor P388D1 cell line. The amount of mRNA for the enzyme decreased nearly completely within 24 h after incubation in a medium containing interferon-gamma, while mRNA of the Ia antigen, one of the major histocompatibility gene products, was increased in the macrophage tumor cells by interferon-gamma as confirmed by the I-A beta cDNA as a probe. These results suggest that the gene expression for poly(ADP-ribose) synthetase is depressed during the interferon-gamma-induced activation process of macrophage tumor cells.     

Non-chemotactic translocation of phagocytic cells mediated by a fibronectin-related human lymphokine

A fibronectin (FN)-related human lymphokine, macrophage agglutination factor (MAggF), agglutinates monocytes at femtomolar concentrations. Similar concentrations of MAggF translocate monocytes and neutrophils through artificial extracellular matrices by a non-chemotactic adhesive process not dependent on intracellular metabolism (matrix-driven translocation). As is the case with matrix-driven translocation mediated by other FN, MAggF-mediated translocation depends on interaction of the lymphokine amino-terminal heparin-binding domain with cell surface heparin-like molecules. In contrast, lymphokine-mediated agglutination involves interactions between the MAggF cell-binding domain and integrin FN receptors recognizing the Arg-Gly-Asp sequence. MAggF-mediated translocation and agglutination are also dependent on the lymphokine gelatin-binding domain. The extremely high activity of MAggF in translocating and agglutinating monocytes may result from cooperative interactions between multiple lymphokine domains and multiple classes of cell surface receptor molecules. We suggest that MAggF-mediated matrix-driven translocation could act independently of or in addition to chemotaxis in recruiting monocytes and neutrophils to a tissue site of T cell-mediated inflammation. Subsequent interaction of MAggF and monocyte FN receptor could then detain monocytes there.     

Expression of I-A and I-E,C region-coded Ia antigens on functional B cell subpopulations.

Ia antigens from specific subregions have been examined on functional B cell populations. Expression of both I-A and I-E,C region antigens was demonstrated on cells required for both lipopolysaccharide mitogenesis and polyclonal activation. Similar I-A and I-E,C subregion expression was found on cells required for response to the T-independent antigen, polyvinylpyrrolidone. TNP-specific IgM and hen egg lysozyme-specific IgG plaque-forming cells also express I-A and I-E,C region antigens. No evidence was found for an Ia- population responsive in the systems tested. Further, no evidence of preferential expression of I-A or I-E,C region antigens was observed in any system examined. Therefore, it appears that B cells express both I-A and I-E,C region-coded Ia antigens.     

The role of divalent cations in interactions between lymphokines and macrophages

The divalent cation requirements of lymphokine-mediated alterations in macrophage function (activation and inhibition of migration) were examined. Normal rabbit alveolar macrophages exposed to incubation supernatants of antigen-stimulated sensitized lymphocytes (lymphokine) were activated, manifested by increased adherence and enhanced bactericidal activity, as compared with control cells. This lymphokine-mediated activation was dependent upon the presence of extracellular Mg²⁺ (but not Ca²⁺). Our data from both current and previous studies suggest that Mg²⁺ influx is necessary for initiation or support of the macrophage activation process. The divalent cation requirements for lymphokine (MIF)-induced inhibition of macrophage migration differed from that of the activation phenomenon. Specifically, both Ca²⁺ and Mg²⁺ were required for expression of MIF activity. Adsorption experiments indicate that these cations are needed for binding of MIF to the macrophage surface.