Biochemical and functional characterisation of macrophage stimulating factors secreted by mitogen-induced goldfish kidney leucocytes

Mitogen-stimulated goldfish kidney leucocytes secrete a number of different macrophage activation factors (MAF) that induce profound physiological changes in macrophages. MAF produced by goldfish kidney leucocytes was characterised using fast performance liquid chromatography (FPLC) and bioassays that measured MAF-induced respiratory burst (RB) and nitric oxide (NO) responses of activated macrophages. Mitogen-induced fish kidney leucocyte supernatants were fractionated using gel permeation FPLC (GP-FPLC) and the ability of different fractions to induce NO or RB measured. A MAF of M(r) 50 kD, that induced a potent nitric oxide response in both a long-term goldfish macrophage cell line (GMCL) and in in vitro-derived fish kidney macrophages (IVDKM) was identified. The GP-FPLC partially purified 50 kD MAF activity occasionally induced significantly higher nitric oxide production than that of the crude MAF preparations. This increase in the NO-inducing activity was due to segregation of the 50 kD MAF from a novel macrophage deactivating molecule of M(r) 10-12 kD present in crude MAF preparations. This 10-12 kD molecule was shown to inhibit nitric oxide production in cytokine-activated goldfish macrophages. Mitogen-induced fish kidney leucocyte supernatants contained two distinct MAFs that induced the respiratory burst in GMCL and IVDKM: the 50 kD and 30 kD proteins. The partially purified 30 kD MAF primed goldfish macrophage for increased RB activity after only 6 h of treatment, and continued to augment the RB activity after 24 h of stimulation. In contrast, the GP-FPLC partially purified 50 kD molecule also primed the RB after only 6 h of stimulation, but subsequently deprimed the RB after 24 h of stimulation, an effect similar to that observed for crude MAF preparations. The 50 kD MAF activity was further purified using chromatofocusing FPLC (C-FPLC) using basic pH gradients and was shown to consist of two distinct NO-inducing molecules (> pI 9.3). Mitogen-stimulated fish kidney leucocytes secrete several factors that profoundly affect the anti-microbial responses of teleost macrophages and which undoubtedly are responsible for regulating teleost macrophage function in vivo.     

Generation and functional analysis of distinct macrophage sub-populations from goldfish (Carassius auratus L.) kidney leukocyte cultures

Three distinct sub-populations of macrophages derived from goldfish kidney leukocyte cultures were generated and characterised. The sub-populations designated as R1, R2 and R3-type macrophages had distinct morphological, cytochemical and flow cytometric profiles, and also differed in their anti-microbial functions after activation with macrophage activation factors (MAF) and bacterial lipopolysaccharide (LPS). The R1-type macrophages were small cells that contained acid phosphatase, but lacked myeloperoxidase and non-specific esterase. The R2-type macrophages were morphologically similar to mature tissue macrophages of mammals, and were positive for acid phosphatase, myeloperoxidase and non-specific esterase. The R3-type macrophages were round cells with eccentrically placed nuclei and resembled mammalian monocytes. This sub-population stained for acid phosphatase, myeloperoxidase and non-specific esterase. The R2 and R3-type macrophages exhibited distinct functional responses after activation with MAF and/or LPS. R2-type macrophages were potent producers of nitric oxide, while R3-type macrophages produced little or no nitric oxide after activation with MAF and LPS. The R2 and R3-type macrophages also exhibited unique respiratory burst responses (ROI) after treatment with MAF and/or LPS. After treatment with MAF and LPS, activated R2 macrophages were primed for ROI after only 6 h of stimulation with the activating agents, and continued to exhibit a strong ROI response for an extended cultivation period (48 h). In contrast, activated R3-type macrophages showed an early ROI response (6 h after treatment with MAF and LPS), which decreased significantly by 48 h after treatment with the activating agents. Our results suggest that the analysis of the mechanisms of induction of fish anti-microbial responses may be dependent upon the concerted actions of functionally distinct macrophage sub-populations.     

Mercury chloride effects on the function and cellular integrity of sea bass (Dicentrarchus labrax) head kidney macrophages

The objective of this work was to study mercury chloride effects on the function and integrity of sea bass (Dicentrarchus labrax) head kidney macrophages (S-HKM), and to evaluate the response of HgCl2-exposed cells to macrophage activating factor(s) (MAF) produced by sea bass head kidney leukocytes. There was considerable variability in the effects of HgCl2 on the production of reactive oxygen species (ROS) by S-HKM. When incubated with HgCl2, cells from five out of nine fish tested showed a decrease in ROS production as compared to cells incubated with medium alone. In those cultures, MAF addition prevented the mercury chloride-induced decrease in ROS production. In other S-HKM cultures isolated from different fish, mercury chloride abrogated the up-regulating effect of MAF on the respiratory burst. MAF activation of the phagocytic activity of S-HKM was also impaired by HgCl2 addition. Mercury chloride induced apoptosis in S-HKM cultures and MAF addition prevented this effect.     

Role of porin of Shigella dysenteriae type 1 in modulation of lipopolysaccharide mediated nitric oxide and interleukin-1 release by murine peritoneal macrophages

The ability of Shigella dysenteriae type 1 porin to induce the release of nitric oxide (NO) and interleukin-1 (IL-1) from peritoneal macrophages of mouse and to regulate lipopolysaccharide (LPS) and gamma interferon (IFN-gamma) mediated release of the two proinflammatory mediators was investigated. Porin released nitrite when added to macrophage cultures. A maximum of 3.2-fold nitrite release by macrophages was observed with 100 ng ml(-1) of porin. The nitrite release of LPS was enhanced significantly by lower concentrations of porin, whereas the effect of IFN-gamma was enhanced by porin at higher concentrations. Polysaccharide (PS) moiety of LPS stimulated the nitrite release of elicited macrophages by 1.6-fold compared to untreated control. It also enhanced the stimulatory effect of 1 and 10 ng ml(-1) of porin by 1.3-fold. Lipid A (LPA) moiety of LPS did not release nitrite, nor did it increase the porin mediated nitrite production. Porin treated 24 h old macrophage culture supernatants were applied for ConA activated thymocyte proliferation as a measure for determination of IL-1 release. Sixty percent depletion of thymocyte proliferation was observed when the porin treated macrophage supernatants were absorbed with anti-IL-1 antibody. A maximum of 5.5-fold increase of thymocyte proliferation over control was found with 1 and 10 ng ml(-1) of porin. One or 10 ng ml(-1) of porin and LPS augmented the thymocyte growth, 1.5-fold beyond that obtained by porin and 1.8-/1. 7-fold more than that obtained by LPS, alone. Similarly, porin and IFN-gamma co-stimulated the cell growth also. PS enhanced the thymocyte proliferation by 5-fold. It also enhanced the thymocyte growth by co-stimulating 1.4-fold the effect observed by 1 or 10 ng ml(-1) of porin alone. LPA could not participate in the cell proliferating activity nor did it enhance the stimulatory effect of porin. Therefore, both nitrite release and thymocyte proliferation by LPS could be substituted by PS only. The tight association of the two bacterial outer membrane components, porin and LPS, could be a necessary co-signal for boosting the release of the two proinflammatory mediators, namely NO and IL-1, which may be associated with the inflammatory response of the colon during Shigella invasion.     

In vitro response of the striped bass natural resistance-associated macrophage protein, Nramp, to LPS and Mycobacterium marinum exposure

Mycobacteriosis in Chesapeake Bay (USA) striped bass Morone saxatilis is an ongoing disease problem with important economic implications for a large commercial and recreational fishery. Additionally, striped bass serve as a reservoir of potential mycobacterial zoonoses. Recently, we described a striped bass gene homolog of the natural resistance-associated macrophage protein family (MsNramp), which is responsible for resistance to mycobacterial infections in mice. Striped bass MsNramp is strongly induced in peritoneal exudate cells (PE) in vivo after intraperitoneal injection with Mycobacterium spp. The purpose of the present study was to investigate short-term in vitro MsNramp expression and reactive oxygen intermediate (ROI) production in primary cultures of adherent PE after exposure to bacterial lipopolysaccharide (LPS), or live- or heat-killed (HK) Mycobacterium marinum. PE expressed significantly higher levels of MsNramp at 4 and 24 h post-treatment with live and HK M. marinum. MsNramp response to LPS was dose-dependent in these cells, with maximum expression at 4 h and 20 microg/ml LPS. Treatment of PE with LPS resulted in increased intracellular superoxide anion levels, whereas treatment with live M. marinum caused a significant depression. This study is the first report of induction of a teleost Nramp in vitro by mycobacteria, and supports findings of teleost Nramp induction by LPS.     

Viral hemorrhagic septicemia virus alters turbot Scophthalmus maximus macrophage nitric oxide production.

The effect of viral hemorrhagic septicemia virus (VHSV) in vitro infection on the nitric oxide (NO) production by turbot Scophthalmus maximus kidney macrophages has been addressed in the past. Previously, we had determined that only a small fraction of turbot possess head kidney macrophages that respond to a single exposure of lipopolysaccharide (LPS) with NO production (LPS-responsive macrophages), whereas macrophage cultures from other individuals were not activated by LPS alone and needed a combination of stimuli to respond (LPS-non-responsive macrophages). In the current work, we examined the effect of VHSV on NO production by macrophages characterized as LPS-responsive macrophages or LPS-non-responsive macrophages. Combinations of LPS and tumor necrosis factor alpha (TNF-alpha) and macrophage-activating factor (MAF) were also used to stimulate the cells for NO production. The effect of VHSV on NO production depends on the response to LPS alone. When a low multiplicity of infection was used (1.78 x 10(-3)), the NO production in response to LPS in LPS-responsive macrophages was significantly decreased. However, LPS-non-responsive macrophage cultures produced NO when a combination of LPS and VHSV was used. In the case of a higher VHSV multiplicity of infection (1.78), no significant change was observed in LPS-non-responsive animals. Combinations of LPS with TNF-alpha, LPS with MAF, and TNF-alpha with MAF were used to induce NO production in LPS-non-responsive macrophages. In all these cases, VHSV suppressed NO production, although at a significant level only when a combination of TNF-alpha and MAF was used for the induction of NO.     

Apoptosis of sea bass (Dicentrarchus labrax L.) neutrophils and macrophages induced by experimental infection with Photobacterium damselae subsp. piscicida

The infection of sea bass (Dicentrarchus labrax L.) by intraperitoneal (i.p.) injection of the agent of fish pasteurellosis Photobacterium damselae subsp. piscicida resulted in the apoptosis of peritoneal neutrophils and macrophages. All the eight virulent and none of the two non-virulent strains tested exhibited apoptogenic activity. A secreted bacterial protein(s) is a likely candidate as the factor(s) responsible for this activity, since no apoptosis was induced by i.p. injected UV-killed virulent strains and the virulent culture supernatants exhibited a thermo-labile apoptogenic activity identical to that of live bacteria. The apoptotic process was characterized by the occurrence of DNA fragmentation detected by terminal deoxynucleotidyltransferase-mediated dUTP nick end labeling (TUNEL) staining and DNA electrophoresis, and of typical ultrastructural alterations namely cell shrinkage, chromatin condensation, nuclear fragmentation and production of blebs with shedding of apoptotic bodies. In the apoptotic process induced by lethal doses of virulent bacteria or culture supernatants both peritoneal macrophages and neutrophils were extensively affected, the majority of these cells being apoptotic and reaching values around 10(7)per peritoneal cavity for each cell type at 24h post-injection. Moreover, the number of non-apoptotic macrophages was always below the initial number in the resting peritoneal cavity. Since macrophages are key cells in the elimination of both bacteria and apoptotic moribund cells and apoptotic bodies, the induction by Ph. damselae subsp. piscicida of simultaneous macrophage and neutrophil apoptosis results, on the one hand, in the destruction of the two phagocytic cell types involved in the restriction of multiplication of the bacteria and, on the other hand, in the uncontrolled progression of the apoptotic process towards secondary necrosis and eventual lysis of high numbers of moribund neutrophils and of neutrophilic apoptotic bodies, with the consequent extensive release of their highly cytotoxic components. Abundant apoptotic cells were also seen in sections of head-kidney from fish dying from experimental pasteurellosis. In contrast, no apoptosis was seen in vitro after the treatment with virulent culture supernatants of sea bass head-kidney macrophage cultures or after the treatment ex vivo of peritoneal exudate leukocytes with virulent bacteria or culture supernatants. The apoptotic process described here appears as a novel and very powerful microbial pathogenic strategy.     

In vitro effect of chitin particles on the innate cellular immune system of gilthead seabream (Sparus aurata L.)

The interaction between chitin particles and gilthead seabream (Sparus aurata L.) head-kidney leucocytes, as well as their effects on the main innate cellular immune responses were studied. Three different chitin particle-sizes were tested: unfiltered, <10 microM and >10 microM. Leucocytes were able to phagocytose only the chitin particles of <10 microM but not the >10 microM ones. Leucocytes were incubated with different concentrations (0 to 1000 microg ml(-1)) of the above chitin particles for 1, 4, 24 or 48 h and their effects on leucocyte viability and the innate cellular immune system were evaluated. Leucocytes incubated with chitin for 48 h maintained their viability as determined by the MTT viability test. Leucocyte phagocytosis of bacteria after chitin incubation for 1 or 4 h was enhanced by the highest chitin concentration tested of each of the chitin fractions studied, while the respiratory burst activity was unaffected. As regards leucocyte natural cytotoxic activity against tumour cells, prior incubation of leucocytes with chitin particles for 1 or 4 h increased while incubation for 24 or 48 h reduced the cytotoxic activity in a dose dependent manner. Statistically significant differences between the different chitin concentrations and between the three chitin particle-size fractions were detected. To conclude, gilthead seabream head-kidney leucocytes were able to phagocytose chitin particles smaller than 10 microM, and the main cellular innate immune activities were enhanced as a consequence of prior incubation with chitin particles.     

Inhibitory effect of FK 506 and cyclosporin A on nitric oxide production by LPS-treated cultured rat macrophages

We analyzed the effect of FK 506 on the production of nitric oxide by macrophages. Isolated rat peritoneal macrophages were cultured for 24 h with or without lipopolysaccharide (LPS) (5 microg/ml) and in the absence or presence of FK 506 (0.1 and 1 microg/ml). The concentration of NO2- in culture supernatants was taken as a measure of nitric oxide production. FK 506 (0.1 and 1 microg/ml) reduced the LPS-induced increase of NO2- levels by 68% and 81%, respectively. The impact of cyclosporin A (CsA) was studied in order to compare their effects. CsA (0.1 and 1 microg/ml) decreased the levels of nitrites by 39% and 69%, respectively. The results obtained suggest that both immunosuppressive drugs exhibit a dose-dependent inhibitory effect on nitric oxide production and that FK 506 is a more potent agent than CsA in this respect.     

Blocking of the induction and expression of immunologically functional T lymphocytes by rat antiactivated T-cell serum

A hybridoma, F133, that produces macrophage activation factor (MAF) after mitogen stimulation was developed by fusing the AKR-derived BW5147 thymoma with alloantigen-stimulated C3H/HeJ splenocytes. F133 supernatants were shown to contain MAF, migration inhibition factor, and a factor capable of suppressing the plaque-forming response to sheep erythrocytes but not lymphotoxin, interleukin II, or interferon. Both concanavalin A (Con A) and phytohemagglutinin (PHA) induced MAF production by F133. Time course and dose-response experiments showed that maximal concentrations of MAF were present 48 hr after stimulation with either 1.5 μg/ml Con A or 6 μg/ml PHA. F133 and normal splenocyte MAF preparations shared physicochemical properties in that heating at 100 °C for 30 min abolished MAF activity while 56 °C for 30 min or 100 °C for 2 min had little effect. In addition, both MAF preparations were dependent on the presence of lipopolysaccharide for macrophage activation and each was inactivated by pH 4.0 or pH 10 treatment while pH 6.0 and pH 8.0 had little effect. Also, pretreatment of both MAF preparations with either trypsin or chymotrypsin inactivated MAF activity.     

Lymphokines inhibit macrophage RNA synthesis

The effects of lymphokine (LK) preparations on the incorporation of [3H]uridine into macrophage RNA were investigated. Supernatants from murine spleen cells activated in vitro by alloantigens or Con A, and shown to contain macrophage-activating factor (MAF), were used as the source of LK. It was observed that such LK preparations contain factor(s) causing a profound inhibition of [3H]uridine incorporation into the RNA of proteose-peptone-elicited peritoneal macrophages. Such RNA-labeling inhibitory factor (RIF) was absent in control supernatants from nonstimulated cultures, and showed activation curves similar to that of MAF. RIF activity was not due to altered permeability of macrophages to [3H]uridine nor to the changes in the specific activity of the pool of RNA precursors, but rather reflected an altered metabolism of RNA. The inhibition of RNA synthesis was dependent upon the presence of nanogram amounts of LPS as a costimulator. Moreover, the response to RIF appeared to be genetically controlled since macrophages from C3H/HeJ mice were not affected by RIF, while C3H/HeN mice were fully responsive. In parallel cultures of macrophages, LK were also tested for their MAF activity, and a strong similarity between the biological conditions in which MAF and RIF activities were expressed could be demonstrated. The assay for RIF provides a new and convenient parameter for measuring macrophage-sensitive LK activity that might be very useful for monitoring purification or for screening of T-cell hybridoma supernatants.     

Nitric oxide production is required for murine resident peritoneal macrophages to suppress mitogen-stimulated T cell proliferation. Role of IFN-gamma in the induction of the nitric oxide-synthesizing pathway

Lymphocyte proliferation in Con A- or LPS-stimulated murine splenic cell (SC) cultures was suppressed by the addition of excess macrophages. In Con A-stimulated cultures, suppression was associated with the expression of nitric oxide-synthesizing pathway (NOSP) activity as demonstrated by the accumulation of nitrite, a degradation product of nitric oxide (NO), in the culture supernatants. That NO, a cytotoxic and anti-proliferative metabolite of l-arginine, or other reactive nitrogen intermediates generated through the NOSP mediated the suppressive effect was suggested by the reversal of suppression brought about by the addition of a specific inhibitor of the NOSP (NG-monomethyl-l-arginine acetate) to the culture media. No NOSP activity was detectable in LPS-stimulated SC/macrophage cocultures. The role of T cell-derived IFN-gamma in the induction of the NOSP was investigated by the use of anti-IFN-gamma-mAb. Antibody-treated Con A supernatants failed to induce the NOSP in macrophages, and the addition of the mAb to Con A-stimulated SC/macrophage cocultures obviated the suppressive effects. Indomethacin and catalase only partially restored proliferation in Con A-stimulated SC/macrophage cocultures but were remarkably efficient in preventing macrophage-dependent suppression when LPS was used as the mitogenic stimulus. These results demonstrate a regulatory system of potential relevance in sites of predominant macrophage infiltration by which T cell-derived IFN-gamma activates the production of the mediator, NO, that suppresses T cell proliferation. In addition, these data demonstrate that, although the suppressive effects of excess macrophages appear to be expressed nonspecifically toward both T and B cells, suppression is mediated through a different mechanism in each case.     

Biological and Biochemical Characterization of Macrophage Activating Factor (MAF) in Murine Lymphocytes: Role of Mannopyranosyl Residue of the MAF Molecule in Macrophage Activation

Activation of macrophages with macrophage activating factor (MAF) was evaluated by measuring the intracellular killing activity of murine macrophages against Salmonella typhimurium. Concanavalin A (Con A)-induced MAF-rich fraction was obtained by a Sephadex G-100 column, which contained molecules ranging from 25,000 to 67,000 daltons. The intracellular killing ability of mouse peritoneal macrophages against S. typhimurium was found to be increased by 0.1 m d-mannose as well as by Con A-induced MAF-rich fraction. Both 0.1 m d-mannose and MAF exhibited a similar timing pattern for macrophage activation. The same concentration of d-glucose or l-rhamnose did not change bacterial uptake and intracellular killing by macrophages. Moreover, when MAF-rich fraction was applied to a Con A-Sepharose column, a fraction that was adsorbed on Con A and eluted with 0.1 m α-methyl d-mannoside exhibited MAF activity. These results suggest the possibility that mannopyranosyl residues in the MAF molecules play an important role as a ligand in macrophage activation.     

Vitamin E increases natural cytotoxic activity in seabream (Sparus aurata L.).

The natural cytotoxic activity of head-kidney leucocytes from gilthead seabream (Sparus aurata L.), after in vitro and in vivo vitamin E treatment, against tumor cells was studied by flow cytometry. Leucocytes were incubated in culture medium with different vitamin E supplementations (0.01-10 microg ml(-1)) for 6, 24 or 48 h and the results demonstrate that all the assayed vitamin E supplementations significantly enhanced the natural cytotoxic activity of leucocytes. To determine the effect of a high dietary level of vitamin E on this activity, fish were fed with 0 (control), 600, 1200 or 1800 mg of vitamin E supplementation kg(-1) diet for 2, 4 or 6 weeks. After 2 and 4 weeks of treatment, the natural cytotoxic activity was significantly enhanced at the highest (1.8 g kg(-1) diet) and lowest (600 mg kg(-1) diet) vitamin E supplement dosage, respectively. No effect of the vitamin E supplemented diet on seabream leucocyte natural cytotoxic cell activity was observed after 6 weeks of treatment.     

The pharmacologic regulation of interleukin-1 production: the role of prostaglandins

The role of prostaglandins in the regulation of lipopolysaccharide (LPS)-induced interleukin-1 (IL-1) production by murine C3H/HeN resident peritoneal macrophages was studied. IL-1 production was initially studied in the presence of piroxicam and indomethacin, both inhibitors of prostaglandin biosynthesis. IL-1 was assayed using the IL-1-dependent proliferative response of C3H/HeJ thymocytes. LPS stimulation resulted in 15 to 20 ng/ml of prostaglandin E2 (PGE2) produced in the first hour of culture. IL-1-containing supernatants from drug-treated macrophages at dilutions of up to 1:32 resulted in enhanced thymocyte proliferation compared to control, non-drug-treated cultures and contained less than 2 ng/ml of PGE2. Similar enhancement of proliferation could be obtained by incubating non-drug-treated supernatants with monoclonal anti-PGE2 but not anti-thromboxane B2 (TxB2) antibody. Further dilutions of the drug-treated supernatants gave thymocyte proliferation responses which were indistinguishable from control cultures and, correspondingly, had identical values for IL-1 production. The absence of an effect on IL-1 production was confirmed by quantitation of intracellular IL-1 alpha using goat anti-IL-1 alpha antibody and by quantitation of supernatant IL-1 receptor competition assay. Exogenous PGE2, in the concentration range produced in macrophage supernatants (10-20 ng/ml), directly inhibited IL-1-stimulated thymocyte proliferation. Finally, when macrophages were stimulated with LPS for 24 hr in the presence of added PGE2, thymocyte proliferation was inhibited at the lowest supernatant dilutions, but as the IL-1-containing supernatants were diluted out, the assay curves were indistinguishable from non-PGE2-treated control. Thus, in this system, PGE2 has no effect on IL-1 synthesis, but rather has a direct inhibitory effect on thymocyte proliferation. Nonsteroidal anti-inflammatory drugs are not stimulating IL-1 production but are, in fact, relieving inhibition of the thymocyte IL-1 assay caused by the presence of prostaglandins.     

Effects of inulin on gilthead seabream (Sparus aurata L.) innate immune parameters

Inulin, a fructooligossacharide, is a prebiotic that plays an important role in the immune function in mammals, but it has never been assayed in other vertebrate groups. Thus, we have studied the inulin effects on the gilthead seabream (Sparus aurata L.) innate immune response both in vitro and in vivo. For the in vitro study, head-kidney leucocytes were incubated with inulin (ranging from 0 to 1000 microg ml(-1)) for 30, 90, 180 and 300 min and 24h and any effect was observed on leucocyte viability or the main innate cellular immune responses (leucocyte peroxidase, phagocytic, respiratory burst and natural cytotoxic activities). For the in vivo study, seabream specimens were fed for 1 or 2 weeks with a commercial diet supplemented with inulin: 0 (control), 5 or 10 g inulin kg(-1) diet (0.5 and 1%, respectively). Inulin produced a significant inhibition in phagocytosis and respiratory burst in leucocytes from specimens fed diets containing 0.5% or 1% of inulin for 1 week. Based on the present results, inulin does not seem to be a good immunostimulant for seabream, though its effects in other species and combined with other immunostimulans (i.e. probiotics) might be of great interest.     

Suppression of lymphokine production: II. Macrophage-dependent inhibition of production of macrophage activating factor

The ability of different populations of macrophages to affect the production of macrophage activating factor (MAF) by stimulated T lymphocytes was investigated. We found that activated macrophages, infiltrating MSV-induced regressing tumors or macrophages recovered from the peritoneum of mice injected with Corynebacterium parvum, were able to actively suppress the production of MAF. MAF production by antigen-stimulated MSV-immune or -alloimmune spleen cells and by normal spleen cells stimulated by Con A was susceptible to macrophage-dependent suppression to a similar extent. In contrast, resident macrophages or those elicited by light mineral oil or proteose-peptone did not affect MAF production. While suppressor macrophages added at the time of the lymphocyte stimulation inhibited MAF production, the same cells added 4–6 hr after stimulation were ineffective. Therefore, it seems that the macrophages suppressed the early events of lymphocyte activation leading to MAF production. Suppressor macrophages, by inhibiting MAF production, may limit the expansion of the cytotoxic activity. This regulation of macrophage functions, mediated by the effects of suppressor macrophages on T lymphocytes, could be responsible for an insufficient antitumor cytotoxic response by macrophages.     

Production of tumor necrosis factor by rIFN-gamma-primed C3H/HeJ (Lpsd) macrophages requires the presence of lipid A-associated proteins

Previous studies have shown that the activation of murine macrophages to a fully tumoricidal state requires that specific environmental signals be delivered to the macrophage in a step-wise manner: a "priming" signal first renders the macrophage stimulated, but not cytolytic. The addition of a second or "trigger" signal to the primed macrophage results in tumoricidal activity. One potent priming signal has been identified as IFN-gamma and one often used trigger signal for endotoxin-responsive (Lpsn) macrophages is LPS. In contrast to LPS-responsive macrophage, rIFN-gamma-primed C3H/HeJ (Lpsd) macrophages fail to become cytolytic in response to protein-free, phenol-water-extracted LPS preparations, but become tumoricidal when exposed in vitro to protein-rich butanol-extracted LPS or purified lipid A-associated proteins. Further characterization of the activation requirements of the C3H/HeJ macrophages revealed that for optimal elaboration of TNF in vitro, two signals were also required: rIFN-gamma and a second signal that contained LAP. C3H/HeJ macrophages macrophages primed with rIFN-gamma failed to produce TNF in response to any concentration of protein-free phenol-water extracted LPS, even when supernatants were concentrated before assaying for functional activity in a standard TNF L929 fibroblast assay. Although exposure of rIFN-gamma-primed C3H/HeJ macrophages to LAP resulted in a fully tumoricidal state equivalent to that exhibited by C3H/OuJ macrophages, the levels of TNF produced remained discrepant. Under identical conditions, C3H/OuJ macrophages produced approximately fivefold more TNF (11,776 U/ml) than C3H/HeJ macrophages (2,399 U/ml). This suggests that although C3H/HeJ macrophages can respond functionally in a "normal" manner given the correct signals, they remain quantitatively deficient in the production of certain proteins. In this system, the elaboration of TNF and macrophage-mediated tumor cell lysis were shown to be dissociable events. The tumor target used in these studies (P815) was shown to be resistant to as much as 40,000 U/ml of purified rTNF. In addition, C3H/OuJ macrophage cultures exposed to LPS only (which resulted in the production of high levels of TNF), failed to lyse these targets. Lastly, anti-mouse TNF antibody added to macrophage cultures had no effect on the induction of tumor cell lysis.     

Nitric oxide production by nurse shark (Ginglymostoma cirratum) and clearnose skate (Raja eglanteria) peripheral blood leucocytes

Reactive nitrogen intermediates, such as nitric oxide (NO), are important immunomodulators in vertebrate immune systems, but have yet to be identified as mediators of host defence in any member of class Chondrichthyes, the cartilaginous fishes. In the present study, production of NO by nurse shark (Ginglymostoma cirratum) peripheral blood leucocytes (PBL) stimulated with bacterial cell wall lipopolysaccharide (LPS) was investigated. PBL were cultured for 24 to 96 h following stimulation with LPS at concentrations ranging from 0 to 25 microg ml(-1), in both serum-supplemented and serum-free culture conditions. Production of NO was measured indirectly using the Griess reaction, with maximal NO production occurring after 72 h using 10% FBS and 10 microg LPS ml(-1). Application of these culture conditions to PBL from another cartilaginous fish (clearnose skate, Raja eglanteria) resulted in a similar NO response. Addition of a specific inhibitor of inducible nitric oxide synthase (iNOS), L-N(6)-(1-iminoethyl)lysine (L-NIL), resulted in a significant decrease in the production of NO by PBL from both species.     

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