Contribution of lysophosphatidylcholine-treated nonadherent cells to mechanism of macrophage activation

Lysophosphatidylcholine (lyso-PC), a product of inflammation, stimulates (in vivo) mouse peritoneal macrophages to ingest target cells via Fc receptors. In vitro treatment of macrophages with lyso-Pc was unable to enhance ingestion activity. When a mixture of macrophages and nonadherent (B and T) cells was treated with 20 micrograms of lyso-Pc/ml for 30 min, a greatly enhanced Fc-mediated ingestion was observed at about 3 hr after treatment, suggesting that nonadherent cells contributed to activation mechanism of macrophages. The accumulated evidence suggests that treated B cells collaborated with untreated T cells in a stepwise fashion for the exchange of a signaling factor(s) for macrophage activation. When conditioned medium prepared by stepwise cultivation from treated B cells to untreated T cells was used for cultivation of untreated macrophages, a markedly enhanced Fc-mediated ingestion was observed. However, cultivation of macrophages with stepwise conditioned medium of treated T cells and untreated B cells produced no significant enhancement of phagocytic activity. Therefore, we concluded that lyso-Pc-treated B cells initiated the macrophage activation process by releasing and transmitting a signaling factor to T cells, and, in turn, the T cells modified the factor or supplied a new factor capable of the ultimate activation of macrophages for ingestion capacity. This lyso-Pc-induced factor(s) appears to be distinct from the established interleukins 1 and 2.     

Effects of inflammation products on immune systems

Summary Microbial infection causes inflammation which stimulates macrophage functions. One of the inflammatory products, lysophosphatidylcholine (lyso-Pc), can stimulate macrophage activities. Treatment of mice with lyso-Pc enhanced spreading and ingestion activities of peritoneal macrophages. In vitro treatment of macrophages with lyso-Pc greatly enhanced spreading but not ingestion activities. However, incubation of a mixture of adherent and nonadherent cells with lyso-Pc produced a markedly enhanced ingestion activity of macrophages, implying the contribution of nonadherent cells to the stimulation of macrophages. Time course studies of the stimulation of these macrophages showed that spreading activity is stimulated immediately, even 30 min, after their contact with lyso-Pc while induction of ingestion activity requires a latent period of about 5 h. When the specificity of the macrophage receptors for ingestion was analyzed using defined immunoglobulins (i.e., IgG and IgM) with or without complement, lyso-Pc-activated macrophages efficiently ingested IgG-coated sheep erythrocytes independent of complement. However, macrophages of the same lyso-Pc-treated mice did not ingest erythrocytes coated with IgM and complement. These observations suggest that lyso-Pc-stimulated macrophages ingest the targets via Fc-receptors but not C3b receptors.     

In vivo and in vitro activation of macrophages with a cyanine photosensitizing dye,platonin

A cyanine photosensitizing dye, platonin, is a potent macrophage-activating agent. Four days after the administration to mice of small amounts of platonin (20–40 ng/mouse), peritoneal macrophages exhibited greatly enhanced Fc-receptor-mediated phagocytic and superoxide-generating capacities. Much higher doses (more than 3000 ng/mouse) did not have this effect. Photodynamic experiments for macrophage activation were performed by exposing mouse peritoneal cells (mixture of macrophages and B and T lymphocytes) to white fluorenscent light (3 J m^–2s^–1) in media containing various low concentrations of platonin. A short exposure to white fluorescent light (5 s, 15 J m^–2) of peritoneal cells in a medium containing 3 ng platonin/ml produced a maximal level of phagocytic capacity of macrophages. Although platonin absorbs light poorly at wavelengths longer than 630 nm, the region of the spectrum in which the tissues are transparent allows reasonable penetration of light. Thus, we designed experiments in which peritoneal cells were exposed to a red fluorescent light (0.5 J m^–2s^–1). In a medium containing 10 ng platonin/ml with 15 J m^–2 red light, a markedly enhanced ingestion activity of macrophages was observed. Photodynamic treatment of peritoneal macrophages alone did not activate macrophages. Thus, participation of nonadherent cells is required for photodynamic activation of macrophages, implying that a macrophage-activating factor is generated within the nonadherent cells and transmitted to macrophages.     

Schizophyllan (SPG)-treated macrophages and anti-tumor activities against syngeneic and allogeneic tumor cells

We tested anti-tumor activities of macrophages treated with a neutral polysaccharide, schizophyllan (SPG), against syngeneic and allogeneic tumor cell lines. SPG was a macrophage stimulant which was not mitogenic to lymphocytes. That made a sharp contrast with the data that Corynebacterium parvum, BCG, and muramyl dipeptide (MDF) were macrophage stimulants which had lymphocyte-activating properties. Treatment of SPG-treated PEC with Thy12 monoclonal antibody and guinea pig complement did not affect the capabilities of tumor-cell-growth suppression by the treated PEC. Thus, the effector cells were peritoneal adherent cells (macrophages morphologically) and effector-to-target contact seemed to be necessary for effective tumor-cell-growth inhibition, although contradictory data exist for this. Murine peritoneal adherent cells harvested 4 days after a single IP injection of SPG at a dose of 100 mg/kg body weight of mouse showed the most prominent cytostatic and cytotoxic activities against syngeneic and allogeneic tumor cells. The distribution of anti-tumor activity in macrophages of various sizes followed the same pattern as macrophages treated with C. Parvum, i.e., larger macrophages showed more remarkable anti-tumor activity. Crude nonadherent peritoneal cells incubated with SPG at a concentration of 10 micrograms/ml, 100 micrograms/ml, or 1 mg/ml did not secrete lymphokine that rendered macrophages cytotoxic, while ConA-treated nonadherent cells did so. Furthermore, spleen cells treated with SPG in vivo did not secrete macrophage-activating lymphokine in the presence of SPG. On the other hand, addition of 1 mg/ml of SPG-treated peritoneal adherent cells and bone-marrow-derived macrophages in vitro rendered them cytotoxic to a moderate degree. This implies that SPG may activate macrophages directly, allowing them to become cytotoxic in the peritoneal cavity. Lastly, SPG could induce production of II-1-like factor to a moderate degree. SPG, whose molecular structure is well elucidated, will provide us with a strong tool to analyze the mechanism of macrophage activation both in vitro and in vivo.     

Components of mycobacteria and muramyl dipeptide with adjuvant activity induce lymphocyte activating factor

Several components of mycobacteria including a water-soluble extract (WSA) and an interphase material (IPM) as well as the synthetic cell wall analog muramyl dipeptide (MDP) all stimulated human mononuclear cells (MNL) to produce a factor which was mitogenic for murine thymocytes. The mediator induced by MDP is probably lymphocyte-activating factor (LAF) because it was produced by adherent but not nonadherent MNL and yields two characteristic peaks of activity in the 16,000–22,000 and 60,000–70,000 molecular weight range when eluted from Bio-Gel P-100 columns. The 6-O-stearoyl derivative of MDP was an active inducer of MNL LAF production, whereas, the d-alanine analog of MDP was somewhat less potent. Unfractionated as well as adherent, but not nonadherent, mouse peritoneal cells also produced LAF in response to WSA, IPM, and MDP. P388D₁ cell line macrophages, which are completely devoid of lymphocytes, could be stimulated by WSA, IPM, and MDP to produce LAF after prolonged incubation. These adjuvants did not stimulate nonadherent Balb/C or human blood cells to produce a mitogenic factor. However, when the P388D₁ macrophages were stimulated with these adjuvants in the presence of nonadherent murine or human peripheral blood cells, a mitogenic activity was produced in a shorter period of incubation suggesting that activated lymphocytes can facilitate the production of LAF by macrophages.     

T and B cells induce macrophages which suppress proliferation but not lymphokine secretion

In vitro culture of mouse spleen cells for 2 days or more leads to the production of adherent, phagocytic, Thy-1-, Ia+, Lyt-2- cells ("suppressor macrophages") which strongly inhibit the proliferative response of T and B lymphocytes to a variety of stimuli: mitogens, specific antigens, and antigen-nonspecific growth factors. Suppressive activity fails to develop, however, in cultured spleen cells from which nonadherent cells have been removed before the initial 48-hr incubation, and only partial suppression is obtained from cell suspensions from which T cells have been depleted before culture. We find that the requirement for nonadherent cells can be replaced by graded doses of lymphocytes. Lyt-2- and Lyt-2+ T cells are about equally potent in inducing suppressive activity in nonadherent cells. Surprisingly, B cells (containing fewer than 0.1% contaminating T cells) are also able to induce suppression in this system. The suppression induced includes both indomethacin-sensitive and indomethacin-resistant components. Interestingly, not all stages of mitogen-induced T-cell activation are blocked by these adherent cells: proliferation is inhibited, but production of interleukin 2 (IL-2) and interleukin 3 (IL-3) is unaffected.     

Identification of the serum factor required for in vitro activation of macrophages. Role of vitamin D3-binding protein (group specific component, Gc) in lysophospholipid activation of mouse peritoneal macrophages

In vitro treatment of mouse peritoneal cells (mixture of adherent and nonadherent cells) with lysophosphatidylcholine (lyso-Pc) in 10% FCS supplemented medium RPMI 1640 results in a greatly enhanced FcR-mediated phagocytic activity of macrophages. This macrophage-activation process requires a serum factor. Fractionation studies with starch block electrophoresis of fetal calf and human sera revealed that alpha 2-globulin fraction contains a serum factor essential for macrophage activation. To identify the serum factor, human serum was precipitated with 50% saturated ammonium sulfate and fractionated on a Sephadex G-100 column. A protein fraction with a lower m.w. than albumin had the capacity to support activation of macrophages. The active serum factor in this protein fraction was analyzed by immunoabsorption by using rabbit antisera against three major proteins of human alpha 2-globulin. This active serum factor was shown to be a vitamin D3-binding protein (group specific component, Gc). By using a monoclonal anti-Gc-absorbed active column fraction of human serum, we observed no enhanced macrophage activation over the results with serum fraction-free cultivation of lyso-Pc-treated peritoneal cells. Cultivation of lyso-Pc-treated peritoneal cells in a medium containing a low concentration of purified human Gc protein (0.1 to 2.6 ng/ml) produced a greatly enhanced phagocytic activity of macrophages. When purified human Gc protein was used in a serum-free medium for stepwise cultivation of lyso-Pc-treated nonadherent cell types, a macrophage-activating factor was efficiently generated. Therefore, it is concluded that the vitamin D3-binding protein is the essential serum factor for the lyso-Pc-primed activation of macrophages.     

Inhibition of an vitro cell-mediated response: further experiments on the cell lineage and target of suppressor cells

The contribution of lymphotoxin to guinea pig leukocyte natural cytotoxicity was evaluated with [³H]TdR release and colony-inhibition assays of 104C1 benzo(a)pyrene in vitro-transformed and tumorigenic, tumor-specific transplantation antigen-negative, syngeneic strain 2/ N fibroblasts. Cytolethal ³H-release activities of mitogen (PHA)¹-stimulated nonimmune and ovalbumin (OA) immune as well as OA-stimulated OA immune unfractionated, adherent (macrophage-enriched) and nonadherent peritoneal leukocytes are qualitatively similar. ³H release is maximal by 48 hr, increases with antigen or mitogen concentration, is greatest with unfractionated leukocytes, and is least with adherent macrophages. Lymphotoxin produced by peritoneal leukocytes, alone or in combination with the leukocytes does not or only minimally induces ³H release even after 6 days of incubation with guinea pig target cells although guinea pig lymphotoxin possesses cytolytic activity as indicated by ³H release from αL929 mouse tumor cells. In contrast to the absent or very weak cytolytic activity of guinea pig lymphotoxin for the guinea pig target cells nonimmune macrophages, nonadherent leukocytes, and lymphotoxin all exhibit readily detectable colony-inhibitory (CI) activity for the syngeneic tumor cells. Macrophage and lymphotoxin CI, moreover, are additive, whereas nonadherent leukocyte and lymphotoxin CI are synergistic. The latter may be due to additional lymphotoxin induced by target cell antigens or other mechanisms of target cell stimulation of effector lymphoid cells and result from very high local levels of lymphotoxin released by the effector cells. Lymphotoxin CI, furthermore, can be cytostatic or cytolethal as indicated by resumption of 104C1 but not αL929 colony growth following removal of lymphotoxin, indicating that natural cell-mediated cytotoxicity consists of lymphotoxin-dependent and -independent cytostatic and cytolethal effector mechanisms.     

Schizophyllan (SPG)-treated macrophages and anti-tumor activities against syngeneic and allogeneic tumor cells

Summary We tested anti-tumor activities of macrophages treated with a neutral polysaccharide, schizophyllan (SPG), against syngeneic and allogeneic tumor cell lines. SPG was a macrophage stimulant which was not mitogenic to lymphocytes. That made a sharp contrast with the data that Corynebacterium parvum, BCG, and muramyl dipeptide (MDF) were macrophage stimulants which had lymphocyte-activating properties. Treatment of SPG-treated PEC with Thy12 monoclonal antibody and guinea pig complement did not affect the capabilities of tumor-cell-growth suppression by the treated PEC. Thus, the effector cells were peritoneal adherent cells (macrophages morphologically) and effector-to-target contact seemed to be necessary for effective tumor-cell-growth inhibition, although contradictory data exist for this. Murine peritoneal adherent cells harvested 4 days after a single IP injection of SPG at a dose of 100 mg/kg body weight of mouse showed the most prominent cytostatic and cytotoxic activities against syngeneic and allogeneic tumor cells. The distribution of anti-tumor activity in macrophages of various sizes followed the same pattern as macrophages treated with C. Parvum, i.e., larger macrophages showed more remarkable anti-tumor activity. Crude nonadherent peritoneal cells incubated with SPG at a concentration of 10 g/ml, 100 g/ml, or 1 mg/ml did not secrete lymphokine that rendered macrophages cytotoxic, while ConA-treated nonadherent cells did so. Furthermore, spleen cells treated with SPG in vivo did not secrete macrophage-activating lymphokine in the presence of SPG. On the other hand, addition of 1 mg/ml of SPG-treated peritoneal adherent cells and bone-marrow-derived macrophages in vitro rendered them cytotoxic to a moderate degree. This implies that SPG may activate macrophages directly, allowing them to become cytotoxic in the peritoneal cavity. Lastly, SPG could induce production of II-1-like factor to a moderate degree. SPG, whose molecular structure is well elucidated, will provide us with a strong tool to analyze the mechanism of macrophage activation both in vitro and in vivo.Abbreviations PEC peritoneal exudate cells - SPG schizophyllan - LPS lipopolysaccharide - Con A concanavalin A - CGN carrageenan - B. M. bone marrow - FCS fetal calf serum - BCG bacille Calmétte Guérin - Il-1 interleukin 1 - PPD pure protein derivatives - MDP muramyl dipeptide - C. parvum Corynebacerium parvum Dr. Sugawara is a Research Fellow of the Alberta Heritage Foundation for Medical ResearchDr. Lee is a Research Associate of the National Cancer Institute of Canada     

Identification of a macrophage-specific cell surface antigen.

A mouse-specific macrophage antigen (MSMA) was identified in NP-40 extracts of 125I-radiolabeled mouse preitoneal macrophages by using a rabbit anti-mouse macrophage serum (AMS) and SDS-polyacrylamide gel electrophoresis. The antigen was shown to have a m.w. of 83,000 daltons and was present on both normal and "activated" peritoneal macrophages. MSMA was also present on syngeneic adherent spleen cells, allogeneic peritoneal macrophages, a mouse macrophage cell line (P388D1), and exhibited some cross-reactivity with peritoneal macrophages from closely related species (rats and hamsters). MSMA was not present on nonadherent peritoneal exudate cells, spleen cells, erythrocytes, thymocytes, or bone marrow cells. Extensive absorptions of AMS with thymocytes and erytrocytes from mice were necessary to remove other antibodies that reacted with other mouse membrane antigens. An antiserum directed against a specific membrane antigen has great potential in elucidating structure-function relationships with regard to a number of macrophage activities.     

Activation of macrophages by ether analogues of lysophospholipids

Summary Inflammation processes cause activation of phospholipase A in plasma membranes resulting in the production of various lysophospholipids. Treatment of mice with L--lysophosphatidyl-DL-glycerol (lyso-Pg) resulted in an enhanced ingestion activity of peritoneal macrophages as did other lysophospholipids. However, lyso-Pg is rather toxic as indicated by a rapid decrease in macrophage activity 3 days after treatment while macrophage activity of lysophosphatidylcholine-treated mice continued to increase at least up to the 6th day after treatment. Alkyl-lysophospholipid derivatives, racemic 1-0-octadecyl-2-methylglycero-3-phosphocholine and -phosphoethanolamine stimulated mouse macrophages for Fc-mediated ingestion. Decomposed products of alkyl-lysophospholipids, alkylglycerols, were also found to be excellent activators of macrophages not only for ingestion of IgG-coated target cells but also antibody-mediated tumoricidal activity. Macrophages from mice treated with alkylglycerols developed superoxide generating capacity. Furthermore, alkylglycerols were found to be tumoricidal by direct contact with retinoblastoma cells. Therefore, the advantage of the potential application of alkylglycerols as chemotherapeutic agents is that they have dual beneficial effects: potentiation of macrophage activity and cytotoxicity to malignant cells.     

Mechanism(s) of in vitro macrophage activation with Nocardia rubra cell wall skeleton: the effects on macrophage activating factor production by lymphocytes

Summary BALB/c mouse peritoneal macrophages prepared from WPC which had been treated with N. CWS demonstrated potent cytostatic activity against syngeneic Meth A fibrosarcoma cells. The maximum cytostatic activity developed in the macrophages when WPC were incubated with 25 g/ml N. CWS for 3 days. NAPC from BALB/c mice given an i. p. injection with 100 g N. CWS 7 days previously (N. CWS-NAPC) or supernatants from N. CWS-NAPC also activated peritoneal macrophages in vitro. However, when peritoneal macrophages were incubated with N. CWS in the absence of NAPC, or when T cells were depleted from WPC by treatment with anti-Thy 1.2 antibody and complement, N. CWS failed to enhance the cytostatic activity of the macrophages. Furthermore, thioglycollate-elicited peritoneal macrophages from C3H/HeN mice increased their cytolytic properties by incubation with supernatant fluids from N. CWS-treated spleen cells. These findings suggest that in vitro macrophage activation with N. CWS depends on MAF secreted from T lymphocytes. Abbreviations used: N. CWS, Nocardia rubra cell-wall skeleton; BRM, biological response modifier; MAF, macrophage activating factor; IL-1, interleukin 1; IL-2, interleukin 2; IFN-, interferon gamma; PCCM, peritoneal cell culture medium; SCCM, spleen cell culture medium; TCM, tumor culture medium; HI-FCS, heat-inactivated fetal calf serum; Con A, concanavalin A; PC, peritoneal cells; PEC, peritoneal exudate cells; WPC, whole peritoneal cells; APC, adherent peritoneal cells; TGC-APC, thioglycollateelicited adherent peritoneal cells; NAPC, nonadherent peritoneal cells; SN, supernatants; NK cells, natural killer cells; LAK cells, lymphokine activated killer cells E:T ratio, effector: target cell ratio; WSA, water soluble adjuvant; LPS, lipopolysaccharide; MDP, N-acetyl-muramyl-L-alanyl-D-isoglutamine     

Suppression of responses to cryptococcal antigen in murine cryptococcosis

Subpopulations of spleen cells responsible for responsiveness and unresponsiveness to cryptococcal antigen in vitro were identified. Lymphocytes which responded in lymphocyte transformation (LT) assays were nylon wool nonadherent and theta antigen positive. These lymphocytes required the presence of an accessory cell which could be supplied by normal peritoneal exudate cells. Spleen cells taken from mice which had been infected for 3 to 15 days were tested to determine their ability to respond to cryptococcal antigen in LT assays. A minimal response was detected at the ninth day of infection. The response of infected spleen cells was attributed to a nonadherent lymphocyte. Nonadherent spleen cells of infected animals had enhanced responses after removal of adherent cells and addition of normal peritoneal exudate cells. Suppressor cells were detected in the spleens of infected mice by the 12th day of infection and thereafter. A nonadherent suppressor cell was identified, but indirect evidence suggested that an adherent cell could also be present in infected spleens.     

A novel rat monoclonal antibody directed against a population of activated mouse peritoneal macrophages

A hybridoma clone secreting rat monoclonal antibody (MAB) designated as 3F3.5F and which reacted with a population of activated tumoricidal mouse peritoneal macrophage (M phi) was produced by the fusion of mouse myeloma cells with rat spleen cells immunized against adherent BCG-activated mouse peritoneal exudate cells (adherent BCG-PEC). The antibody was cytotoxic and of the rat IgM class. The specific reactivity of the antibody with mouse primary cells and cell lines was examined by complement-dependent cytotoxicity and indirect immunofluorescence flow cytometry analysis. The antibody was found to bind to about 40% of the adherent BCG-PEC activated in vivo and elicited peritoneal macrophages activated in vitro by lymphokine and lipopolysaccharide (LPS), to about 35% of polymorphonuclear neutrophils (PMN) 15 hr after intraperitoneal injection of BCG, to about 30% of bone marrow cells from BCG-infected mice, to about 10% of P815 mastocytoma cells and to thioglycollate-induced PEC to some degree. It did not bind to other cells tested including BCG-induced peritoneal lymphocytes, non-tumoricidal PEC, thymocytes, spleen cells, resting bone marrow cells from normal mice, lymphomas, myelomas, fibroblasts, or macrophage-cell lines. Pretreatment of adherent BCG-PEC with MAB 3F3.5F and rabbit complement caused a considerable decrease in tumor cytotoxicity toward P815 cells, but the same pretreatment of non-adherent BCG-PEC had no inhibitory effect on natural killer activity for YAC-1 cells.     

The latex particle adherence (LPA) assay for detection of leukocytes with adhesive surface properties.

A new, simple, and rapid in vitro assay has been developed for identification of adherent and nonadherent leukocytes. The assay is based on adherence of latex (polystyrene) particles to the cell surface. Using the latex particle adherence (LPA) assay, the percentage of adhesive leukocytes has been determined in human peripheral blood mononuclear preparations and in the lymph nodes, thymus, bursa of Fabricius, spleen, and bone marrow of mouse, chicken, and rat origin. The highest proportion of LPA-positive cells was found in peritoneal exudate, bone marrow, and spleen, the lowest proportion, in thymus and bursa of Fabricius. LPA-Positive cells in human peripheral blood mononuclear preparations were identified as surface immunoglobulin-positive lymphocytes nonrosetting with sheep red blood cells. LPA-Positive cells in peritoneal exudate were identified as macrophages. Incubation of leukocyte suspensions on polystyrene petri dishes or nylon wool columns reduces substantially the percentage of LPA-positive cells in the nonadherent fraction. The LPA assay seems to be a method of choice for establishing the relationship between adhesiveness of the cell surface and other cell membrane markers on a single-cell level.     

Involvement of lymphocyte mediators in the rejection of a murine tumor allograft

Macrophage migration inhibition by peritoneal leukocytes was studied in BALB/c mice bearing intraperitoneal allogeneic EL-4 lymphomas to explore the role of this immune effector function in allograft rejection. The nonadherent peritoneal leukocyte population harvested between 8 and 10 days after allograft inoculation inhibited migration of nonimmune murine macrophages as demonstrated by both direct and indirect migration assays using the agarose droplet method. This host response also contained large numbers of adherent macrophages which others have shown to be cytotoxic to EL-4 target cells. These findings provide direct evidence for lymphokine activity in allograft rejection and suggest that lymphocyte mediators may attract and activate the cytotoxic macrophages observed in this response.     

Mycoplasma arthritidis superantigen (MAM)-induced macrophage nitric oxide release is MHC class II restricted,interferongamma dependent,and toll-like receptor 4 independent

Mycoplasma arthritidis causes arthritis in rodents that resembles human rheumatoid arthritis. It produces a superantigen (MAM) that stimulates production of cytokines by making a bridge between lymphocyte T-cell receptor with the appropriate Vbeta chain, and H-2 1-Ealpha MHC class II molecules. Here we studied MAM-induced nitric oxide (NO) production in mouse peritoneal macrophages and found that it was: (1) time and concentration dependent, (2) possibly derived from inducible NOS synthase since it was reduced significantly by amino guanidine pretreatment, (3) restricted to H-2(K) (C3H/HePas and C3H/HeJ) and H-2(d) strains (BALB/c), (4) independent of TLR4 signaling since the coisogenic strains C3H/HePas and C3H/HeJ (TLR4 deficient) produced similar levels of NO following MAM stimulation, (5) potentiated by lipopolysaccharide, and (6) dependent on the presence of nonadherent peritoneal cells. Neutralization of interferon-gamma (IFNgamma in the peritoneal cell cultures with monoclonal antibodies abolished MAM-induced NO production. Addition of rIFNgamma to the adherent cells substituted the nonadherent cells for MAM-induced NO production. A macrophage cell line, J774A.1 (H-2(d)), also produced NO upon MAM stimulation but only when BALB/c spleen lymphocytes were added. Thus, in murine macrophages, MAM induces NO production that is dependent on signaling through MHC class II molecules and IFNgamma but independent of TLR4 expression.     

Effect of hydrocortisone and bacterial lipopolysaccharide on colony-stimulating activity production from mouse marrow adherent cells, spleen cells and peritoneal macrophages in vitro

The effect of hydrocortisone (HC) on colony-stimulating activity (CSA) production from mouse bone marrow adherent cells, spleen cells and peritoneal macrophages with or without bacterial lipopolysaccharide (LPS) stimulation was studied. CSA in the supernatant from bone marrow adherent cells incubated with HC was found to be five times higher than CSA from cultures without LPS stimulation. In contrast, the CSA production by spleen cells and peritoneal macrophages were significantly suppressed by HC in both LPS-stimulated and non-stimulated cultures. These studies suggest that the effect of HC on CSA production was quite different depending on the target cells.     

Soluble factors from rabbit spleen cells kill and lyse Treponema pallidum in vitro

Antibody and complement immobilize (kill) Treponema pallidum in vitro. Recent evidence also documents immobilization by soluble factors released by activated macrophages and lymphocytes. Immune-mediated lysis of treponemes, however, has not been reported. The findings in this paper focus on apparent treponemal lysis by rabbit splenic cell preparations. Using cells from animals infected testicularly for 9 to 12 days, unfractionated splenic preparations, as well as adherent and nonadherent preparations, killed and lysed T. pallidum. Phagocytosis alone could not explain the detrimental effects of adherent cells. When cytochalasin B was used to block phagocytosis, decreases in treponemal numbers were still detected. In related studies, immune rabbit sera did not enhance treponemicidal activity of the adherent cells. To assess the specificity of these reactions, T. pallidum was incubated with two monocyte-like cell lines (human U937 and mouse P388D1). Neither cell line was detrimental, and treponemal numbers were not lowered. The soluble nature of the treponemicidal factors from adherent and nonadherent preparations was shown by physically separating these cells from the organisms and demonstrating treponemal killing and lysis. In summary, clearance of T. pallidum from infected tissues is probably at least partially attributed to macrophage phagocytosis. Our findings suggest another mechanism involving lytic factors secreted by activated adherent and nonadherent cells.     

Muramyl dipeptide induced augmentation of the proliferative response of thymocytes to phytohemagglutinin

N-Acetylmuramyl-L-alanyl-D-isoglutamine (MDP) augmented the proliferative response of thymocytes to phytohemagglutinin (PHA). The augmenting effect of MDP disappeared by passage of glass-nonadherent thymocytes through Sephadex G-10 (G-10) column or by removal of low density cells by the Ficoll-Conray gradient centrifugation. The diminished augmenting effects of MDP on the proliferative response of glass-nonadherent-G-10 nonadherent thymocytes was restored by the addition of the G-10 adherent cells. When G-10 adherent cell fraction was extensively depleted of macrophages by glass adherence and EA-rosetting, it was found that neither the macrophage-depleted G-10 adherent cell fraction nor the macrophage fraction supported by itself the proliferative response of G-10 nonadherent thymocytes. However, addition of macrophage fraction together with the macrophage-depleted G-10 adherent cells did support the proliferation of G-10 nonadherent thymocytes. It was further shown that peritoneal exudate macrophages could be substituted for thymic macrophage fraction. These results suggested that both the G-10 adherent-glass nonadherent cells and macrophages were essential for the MDP-induced augmentation of the proliferative response of thymocytes to PHA and these cells exerted different accessory roles in this response.