Macrophage suppression by a low-molecular-weight fraction of murine spleen cell culture supernatant

Macrophage suppression has been reported to be mediated by a component of murine serum. The present investigation involves in vitro production of this macrophage modulator (suppressor) by concanavalin A-stimulated murine spleen cells. Spleen cell culture supernatant containing this suppressor, which has been called macrophage suppressor factor (MSF), caused a significant decrease in in vitro phagocytosis of Listeria monocytogenes by resident murine peritoneal macrophages. The molecular weight of MSF was determined by ultrafiltration to be less than 10,000, and the suppressor activity of MSF was not altered by heating at 100 degrees C for 30 min or storage at -70 degrees C for 6 months. MSF is resistant to treatment with Pronase E, but is, however, sensitive to acid hydrolysis. Activity of MSF in spleen cell culture supernatants from normal mice does not differ from that in supernatants from mice immunized with L. monocytogenes. It was determined that MSF is not affected by antigenic stimulation and is apparently produced constitutively.     

Protective effect of N-acetyl chitohexaose on Listeria monocytogenes infection in mice

A water-soluble oligosaccharide, N-acetyl chitohexaose (NACOS-6) was able to enhance the protecting effect of BALB/c male mice against Listeria monocytogenes infection, when administered intraperitoneally 24 hr before the challenge with this microbe. Significant decrease in number of microbes within the peritoneal cavity, spleen, and liver from the mice of NACOS-6-administered group was not observed 1 day after the infection but 4 days after the infection. Administration of NACOS-6 enhanced the delayed-type hypersensitivity response against sheep red blood cells (SRBC) or heat-killed L. monocytogenes. Splenic T lymphocytes from mice administered NACOS-6 released macrophage activating factor (MAF). These results suggested that NACOS-6 was also able to elevate the function of cellular immunity. Macrophages treated with a combination of NACOS-6 and the culture supernatant of splenic T lymphocytes from mice administered NACOS-6, "NACOS-6 sup," were found to exert a fairly strong growth-inhibitory effect on L. monocytogenes. Interferon-gamma (IFN-gamma) and interleukin 2 (IL-2) were able to enhance the growth-inhibitory effect on L. monocytogenes by the NACOS-6-treated macrophages.     

Regulation of B cell tolerance by macrophage-derived mediators: antagonistic effects of prostaglandin E2 and interleukin 1

A role for prostaglandins in the mechanism of B cell tolerance induction in normal adult mouse spleen cells was examined. Two inhibitors of the cyclooxygenase pathway of arachidonic acid metabolism, indomethacin and acetylsalicylic acid, abrogated hapten-specific B cell tolerance induction by trinitrophenyl-human gamma-globulin. Tolerance was fully restored by the addition of prostaglandin E2 (PGE2) at a concentration of greater than or equal to 6 nM. T cell-depleted spleen cells produced comparable amounts of PGE2 in culture, indicating that the tolerance promoting activity of PGE2 occurred with physiologically relevant concentrations. Depletion and reconstitution experiments indicated that macrophages in the spleen cell preparations completely accounted for both PGE2 production and the effects of indomethacin and acetylsalicylic acid on B cell tolerance induction. The macrophage product interleukin 1 (IL 1) was also found to alter B cell susceptibility to tolerance induction. Thus, human IL 1 containing monocyte supernatants and purified IL 1 were found to interfere with B cell tolerance induction when added to macrophage- and T cell-depleted splenic B cells. Tolerance was restored in such cultures by the addition of 10 nM PGE2. These experiments demonstrate that within mixed lymphoid populations macrophages through the release of mediators modulate B cell susceptibility to tolerance induction.     

Inhibition of human B cell responsiveness by prostaglandin E2

The capacity of prostaglandin E2 (PCE2) to modulate human peripheral blood B cell proliferation and the generation of immunoglobulin-secreting cells (ISC) stimulated by Cowan 1 strain Staphylococcus aureus and mitogen-stimulated T cell supernatant was examined. PGE2 significantly inhibited both responses, whereas PGF2 alpha had no inhibitory effect. Responses of highly purified B cells obtained from spleen, lymph node, and tonsil were also inhibited. In addition PGE2 suppressed B cell responses supported by recombinant interleukin 2 rather than T cell supernatant. PGE2-mediated inhibition was mimicked by forskolin, a direct activator of adenylate cyclase. Kinetic studies indicated that PGE2 inhibited B cell responses by a progressively greater increment as cultures were prolonged. Evaluation by flow cytometry after staining with acridine orange or mithramycin indicated that PGE2 had no effect on initial B cell entry into the G1 phase of the cell cycle, passage through G1, and entry into S, G2, and M. Rather, PGE2 inhibited responses of postdivisional daughter cells. PGE2 inhibited responses in cultures stimulated by the calcium ionophore ionomycin and T cell supernatant but had minimal effects in cultures stimulated by the combination of ionomycin and phorbol myristate acetate. Moreover, phorbol myristate acetate reversed PGE2-mediated inhibition of proliferation stimulated by S. aureus or S. aureus + T cell supernatant. These results indicate that PGE2 suppresses the continued growth and differentiation of human B cells, although it has no effect on initial B cell activation and suggest that PGE2 may play a role in regulating human B cell responses in vivo.     

Synergistic stimulation of amnion cell prostaglandin E2 synthesis by interleukin-1, tumor necrosis factor and products from activated human granulocytes

We examined the interactions between supernatant from FMLP-activated human granulocytes, recombinant interleukin-1 (IL-1) and recombinant tumor necrosis factor (TNF) in the stimulation of prostaglandin E2 (PGE2) production by human amnion cells. Amnion cells from elective term cesarian sections were cultured in monolayer culture. Human granulocytes were activated with FMLP and centrifuged to obtained cell-free supernatant. Amnion cells were treated with granulocyte supernatant, IL-1 alpha, IL-1 beta, TNF-alpha, TNF-beta, or different combinations of these. Each of the stimulators alone enhanced the PGE2 production 5- to 27-fold. Granulocyte supernatant was synergistic with each of the cytokines. The combinations of IL-1 alpha or IL-1 beta with either TNF-alpha or TNF-beta caused a synergistic stimulation of amnion cell PGE2 production as well, whereas the combinations of IL-1 alpha with IL-1 beta or of TNF-alpha with TNF-beta were not synergistic. Furthermore, granulocyte supernatant was synergistic with the combination of IL-1 and TNF, resulting in a more than 150-fold stimulation of PGE2 production. Indomethacin completely suppressed these effects. We propose that granulocyte products acting together with IL-1 and TNF enhance PGE2 synthesis during inflammation, and serve as signals for the initiation of preterm labor in the setting of intra-amniotic infection.     

A product of activated human granulocytes stimulates prostaglandin E2 synthesis in human amnion cells

Cell-free supernatant from formylmethionyl-leucyl-phenylalanine (fMLP)-activated granulocytes causes a time- and concentration-dependent stimulation of prostaglandin E2 (PGE2) production in amnion cells. PGE2 concentration in the culture medium after 36 h treatment with granulocyte supernatant (from 40 x 10(6) granulocytes/ml of amnion cell medium), 1.49 +/- 0.71 pg/ng DNA (n = 13), was significantly higher (p = 0.0015) than in control cells (0.33 +/- 0.23 pg/ng DNA, n = 13). Indomethacin abolished this stimulation. Granulocyte supernatant and human epidermal growth factor (hEGF) had an additive effect on amnion cell PGE2 production. Catalase, superoxide dismutase (SOD), protease inhibitors or the platelet-activating factor (PAF) antagonist L-659,989 had no effect. Actinomycin D, cycloheximide and mepacrine reduced the PGE2 production. The phospholipase A2 activity present in granulocyte supernatants was resistant to heating, whereas heating decreased their PGE2-stimulating activity by 92%. Exogenous phospholipase A2 had no effect on PGE2 synthesis. The granulocyte product could be precipitated with ammonium sulphate. On gel filtration of supernatant, two peaks of PGE2-synthesis stimulating activity were obtained (molecular weights 12,000 and 60,000). This data serve to explain the association of chorioamnionitis with preterm labor: activated granulocytes release a protein(s) that induces prostaglandin production in amnion cells, and thus promote labor.     

Investigation of prostaglandins into the culture supernatant of chronic lymphocytic leukaemia (CLL) cells

Prostaglandins have been proposed as intercellular humoral mediators in the immune response and characterised as regulatory agents in the control of intracellular metabolism. The aim of this work was to determine PGE and PGF2 alpha concentrations in the blood plasma and in the supernatant of 96 hour PHA stimulated and unstimulated leukaemic cell cultures of CLL patients. 62 patients with CLL classified in the 1st or 4th stage according to RAI and 23 healthy individuals were investigated. The proliferation degree of the culture cells was tested by incorporating tritiated thymidine. The prostaglandin concentrations was estimated by the isotopic method using RIA-kit. In the 4th stage of CLL a low value of blastogenic transformation was observed, whereas in the 1st stage the value were similar to those of the control group. It was shown that in the 4th stage of the disease an increase in the PGE concentrations occurs in the blood plasma and the culture supernatant without PHA together with a significant decrease in the PGF2 alpha in the culture supernatant, whereas in the 1st stage a significant decrease in the PGE in the culture supernatant with PHA as compared with those of the control group is noted. These results may indicate on antagonistic action of PGE and PGF2 alpha in leukaemic cell proliferation.     

Low-level iron-dependent mutants of Listeria monocytogenes and their virulence in macrophages

Listeria monocytogenes is an opportunistic intracellular pathogen capable of growth that requires iron for growth within phagocytic cells and virulence expression. In the presence of an appropriate concentration tropolone, an iron-chelating agent, growth of L. monocytogenes is completely inhibited. However, this inhibition can be relieved by addition of dopamine, norepinephrine, or ferric citrate. By selection on streptonigrin medium supplemented with tropolone and norepinephrine, we have obtained two spontaneous mutants, Lm-8 and Lm-15, with the same iron dependence but lower iron dependence than the wild-type Lm-B38. The association between iron requirement and virulence of the two mutants and the wild type was studied in the J774 macrophage cell line. One hour after phagocytosis by the J774 macrophage cell line, the two mutants and the parental strain displayed no difference in the number of phagocytosed bacteria. Twenty-four hours after phagocytosis, the number of bacteria within the surviving macrophages was identical for the wild strain and the two clones. However, only 40% of macrophage cells infected with Lm-8 and 90% of those infected with Lm-15 were alive after 24 h in comparison with macrophage cells infected with the parental strain Lm-B38. These data demonstrate that there is no direct correlation between iron requirement and virulence of L. monocytogenes in the J774 macrophage cell line.     

Paradoxical role of PGE2 and cAMP in Actinobacillus actinomycetemcomitants strain Y4-induced lymphocyte proliferation.

An immune mechanism has been suggested in the pathogenesis of periodontal disease. Actinobacillus actinomycetemcomitants (Aa) has been implicated as one of the etiological agents that induces the major immune response together with a dense infiltrate of inflammatory cells. But the exact role of these immune cells in periodontal disease has not yet been clarified. In this study the T lymphocyte (TL) proliferative response was evaluated after having being exposed to free cell supernatant (SN) from Aa. Aa SN increased TL proliferation. This mitogenic effect of Aa SN was attenuated by pretreating TL with indomethacin (INDO) or acetylsalicylic acid (ASA) but not by polymyxin B. The inhibitory effect of INDO on cell proliferation was reversed by the addition of prostaglandin E2 (PGE2) to the culture assay. Moreover, when immune cells were exposed to Aa SN they were able to generate PGE2 at the same time as intracellular levels of cAMP decreased. Both, PGE2 release and decrease accumulation of cAMP in TL were blunted by treated lymphocytes with INDO. In this paper we demonstrate that cell free SN from Aa induces a mitogenic effect on murine lymphocytes. The mechanism involves the host's immunecompetent cells and the release of PGE2 and appears not to be induced by capsular-like polysaccharide antigen. Results show a paradoxical mitogenic effect of Aa SN accompanied by increased generation of PGE2 and decreased production of cAMP by lymphocytes.     

Mechanisms of strain-dependent development of mast cells from mouse splenocytes

Mast cell development from spleen cells was not triggered by prostaglandin E1 (PGE1) or dibutyryl cAMP (db-cAMP) during a 12 day culture when the spleen cells were obtained from C57BL/6N and DBA/1 mice, but mast cells did develop when the spleen cells were obtained from C3H/HeN, BALB/c and ICR mice. A lack of endogenous IFN-gamma in the initial 2 days of the culture period was responsible for the failure. This was confirmed by adding neutralizing anti-IFN-gamma antibody and rIFN-gamma to the cultures and by determining IFN-gamma levels in the spleen cell cultures. Th1 cells in the spleens of C57Bl and DBA/1 mice were much more sensitive to PGE1 and db-cAMP than Th1 cells from other inbred mice strains, and consequently, IFN-gamma production was inhibited in spleen cell cultures of C57BL and DBA/1 mice on addition of PGE1 or db-cAMP. Furthermore, the different sensitivities of Th1 cells to PGE and db-cAMP were dependent on the different levels of IL-12 p40 monomers or homodimers in the spleen cell cultures. As the endogenous specific inhibitors of IL-12 p70 (heterodimers of p40 and p35), large amounts of IL-12 p40 monomers or homodimers in the spleen cell cultures of C57BL and DBA/1 mice enhanced the ability of PGE1 and db-cAMP to inhibit IFN-gamma production by antagonizing the activity of IL-12 heterodimers. These results indicate that the strain-dependent development of mast cells from mouse splenocytes is related to endogenous IFN-gamma levels, which are regulated by PGE, db-cAMP, IL-12 p70 and IL-12 p40.     

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.     

GM-CSF augments the immunosuppressive capacity of neonatal spleen cells in vitro

Addition of exogenous granulocyte-macrophage colony stimulating factor (GM-CSF) to cultures of adult murine spleen cells with sheep red blood cells (SRBC) results in an augmented plaque forming cell (PFC) response. The influence of GM-CSF on the ability of neonatal spleen cells to suppress the anti-SRBC plaque forming response of adult spleen cells was tested by adding GM-CSF to cultures of neonatal and adult spleen cells. The suppressive capacity of the neonatal spleen cells was augmented by exogenous GM-CSF. The augmented suppression of the neonatal spleen cells was dependent on a G-10 adherent population since the addition of GM-CSF to cultures containing G-10 passed neonatal spleen cells resulted in an augmented PFC response and not suppression. Neonatal splenic glass adherent cells were also capable of suppressing the response. Neonatal spleen cells or purified neonatal glass adherent spleen cells cultured in the presence of GM-CSF had markedly increased levels of PGE2 in the culture supernatant. Neonatal spleen cells cultured with GM-CSF had increased numbers of morphologically identifiable macrophages after 48 hr of culture. Both irradiation and G-10 passage of the neonatal spleen diminished the numbers of macrophages formed in response to GM-CSF, and both of these manipulations resulted in reversal of suppression in response to GM-CSF. Thus, the augmented suppressive capacity of neonatal spleen cells in response to GM-CSF is probably mediated by its ability to drive monocyte to macrophage differentiation as well as increase the suppressive capacity of the existing neonatal splenic macrophages by increasing their production of PGE2.     

Impairment of T cell-mediated immunity to Listeria monocytogenes in pregnant mice

In order to study pregnancy-induced changes in cell-mediated immunity to Listeria monocytogenes, acquired resistance and T cell functions in pregnant mice were compared with those in nonpregnant mice after immunization with viable listerial cells. Impaired generation of acquired resistance was evident in pregnant mice from the impaired elimination of bacteria and poor survival after secondary challenge. Delayed footpad reactivity to listerial antigen was also lower in the pregnant mice. When immune spleen cells were examined for their ability to produce macrophage activating factor in vitro, culture supernatants from pregnant-mouse spleen cells with listerial antigen showed far less ability to render macrophages cytostatic for P815 mastocytoma cells. To elucidate further the impairment of listeria-immune T cell generation in pregnant mice, a local transfer experiment was carried out. When a given number of immune spleen cells was transferred locally into the footpads of naive mice, both delayed footpad reaction and local protection were much lower in the pregnant mice. This local transferability of the reactions was abrogated after treatment of cells with anti-Thy 1 antibody plus complement. These findings indicate that pregnancy impairs the generation of specific T cells capable of contributing to acquired resistance to L. monocytogenes. Possible mechanisms for this impairment and the relationship to macrophage functions are discussed.     

Intracellular measurement of prostaglandin E2: effect of anti-inflammatory drugs on cyclooxygenase activity and prostanoid expression.

Cyclooxygenase (COX) converts arachidonic acid to prostaglandin (PG) H2, which is further metabolized to various prostaglandins, prostacyclin and thromboxane A2. COX exists in at least two different isoforms. COX-1 is constitutively expressed, whereas COX-2 is induced by proinflammatory stimuli. Prostaglandin E2 is a major metabolite of COX activation. In order to compare the activity of target ligands and COX inhibitors on PGE2 synthesis and release, the responsiveness of several cell lines to the calcium ionophore A23187, bacterial lipopolysaccharide (LPS), nonsteroidal anti-inflammatory drugs (NSAIDs), and the glucocorticoid, dexamethasone, were investigated. For intracellular measurements, the culture supernatant was aspirated, and the cells were thoroughly washed and lysed with dodecyltrimethylammonium bromide. Intracellular and secreted PGE2 were measured with an enzyme immunoassay. A23187 and LPS increased intracellular PGE2 in a dose-dependent manner. Kinetic experiments with A23187-stimulated mouse 3T3 fibroblast cells revealed a distinct biphasic response in COX activity. In the presence of NSAIDs or dexamethasone, there was a dose-dependent inhibition in intracellular PGE2 with A23187-stimulated 3T3 cells. Inhibitory studies demonstrated an apparent increased sensitivity of COX activity to the action of inhibitors when measuring intracellular PGE2 compared with using cell culture supernatants. Indeed, intracellular PGE2 levels were comprehensively reduced in the presence of low concentrations of inhibitor. The utilization of cell culture lysates and, in particular, measurement of intracellular PGE2 should prove useful for identifying new COX inhibitors.     

Defective Fc-mediated phagocytosis in C3H/HeJ macrophages. II. Correction by cAMP agonists

Peritoneal macrophages from LPS hyporesponsive C3H/HeJ mice lose the capacity to bind and phagocytose opsonized sheep erythrocytes (EA) over a 48-hr culture period. This loss in Fc receptor capacity is markedly different from the progressive increase in phagocytic ability exhibited by cultured macrophages derived from LPS-responsive C3H/HeN mice. Since dibutyryl-cyclic adenosine monophosphate (DBcAMP) has previously been reported to modulate membrane receptor expression in lymphocytes and certain macrophage-like cell lines, we examined its effects on EA binding and phagocytosis by C3H/HeJ macrophages. DBcAMP not only reverses the binding defect in C3H/HeJ macrophages but also restores EA phagocytosis to the level of control C3H/HeN cultures. 8-Bromo-cAMP, as well as other agents known to elevate intracellular cAMP (i.e., isoproterenol plus isobutylmethylxanthine or prostaglandin E2) also corrected the phagocytic defect. Since the C3H/HeJ macrophage phagocytic defect can also be reversed by in vitro stimulation with a lymphokine-rich culture supernatant, we examined the effect of this treatment on intracellular cAMP levels. Lymphokine treatment produced a 60% increase in the levels of macrophage intracellular cAMP. These findings suggest that the C3H/HeJ differentiation defect may be secondary to some abnormality in a cAMP dependent pathway.     

Spontaneous proliferation in unfractionated spleen cell cultures: autologous mixed-lymphocyte reactions (AMLR) which can be differentially regulated by prostaglandins and lymphokines

The present studies were undertaken to define the contribution of the autologous or syngeneic mixed-leukocyte reactions (AMLR/SMLR) to the cellular proliferation observed in unfractionated spleen cell cultures. Proliferation was studied in whole, untreated 6-day murine spleen cell cultures supplemented with syngeneic serum. These cultures exhibited relatively low but significant levels of cellular proliferation as measured by uptake of radioactive thymidine ([3H]TdR). Treatment of spleen cells with monoclonal anti-Thy 1.2 antibody and complement before culture, the addition of specific anti-I-A monoclonal antibodies to the cultures or removal of Ia+ adherent cells before initiation of culture all inhibited the proliferative response significantly. Thus, the autologous proliferation of untreated and unfractionated spleen cells manifests the main characteristics of the AMLR/SMLR, namely, its dependence on T (responder) and Ia+ (stimulator) cells and specific inhibition by anti-I-A antibodies. A marked augmentation in cellular proliferation was observed in unfractionated spleen cell cultures treated for the initial 24 hr of culture with 5 X 10(-6) M indomethacin, an inhibitor of prostaglandin synthesis. Conversely, the addition of 7 X 10(-9) M prostaglandin E1 (PGE1) to these cultures depressed cellular proliferation. This suppression of autologous splenic cell proliferation induced by PGE1 could be partially reversed by the addition of concanavalin A-induced lymphokine (LK) preparations early in the culture. These findings indicate that (a) the proliferation of unfractionated spleen cell cultures occurring in the absence of exogenous stimulatory signals is due largely to an ongoing AMLR, and (b) biologically active mediators with opposing influences, namely, prostaglandins and immunostimulatory LK, participate in the regulation of the AMLR.     

The Listeria monocytogenes DnaK chaperone is required for stress tolerance and efficient phagocytosis with macrophages

Listeria monocytogenes is a facultative intracellular pathogen which can escape bactericidal mechanisms and grow within macrophages. The intracellular environment of macrophages is one of the most stressful environments encountered by an invading bacterium during the course of infection. To study the role of the major stress protein, DnaK, of L. monocytogenes in survival under intracellular stress induced by macrophage-phagocytosis as well as under extracellular environmental stresses, we cloned, sequenced, and analyzed the dnaK locus from L. monocytogenes. Then we constructed an insertional mutation in the dnaK gene by homologous recombination and characterized it. Sequencing has revealed that the dnaK locus consists of four open reading frames in the order hrcA-grpE-dnaK-dnaJ. The mutant grows neither at temperatures above 39 degrees C nor under acidic conditions e.g. pH 3.0. Using the macrophage cell line JA-4, the ability of the dnaK mutant to grow intracellularly was examined. Immediately after phagocytosis, the number of viable dnaK mutant bacteria found within macrophages was significantly lower compared to that of intracellular wild type bacteria. However, following a 1-3 h latency period, the mutant multiplied in a similar fashion to the wild type within macrophage cells. A quantitative analysis of intracellular bacteria in macrophage cells by microscope and a binding assay of bacteria to the surface of macrophages by ELISA revealed that the lower number of viable dnaK mutant in macrophages after phagocytosis is due to the low efficiency of phagocytosis resulting from the reduced binding capacity of the dnaK mutant. These results demonstrate that DnaK of L. monocytogenes is essentially required for survival under high temperatures and acidic conditions. Though it does not largely contribute to the survival of L. monocytogenes in macrophage cells, it is essential for efficient phagocytosis. This is the first evidence that DnaK is required for the efficient phagocytosis of a facultative intracellular pathogen with macrophages.     

Prostaglandin E2 mediated effects on the synthesis of fetal and adult hemoglobin in blood erythroid bursts

The effects of prostaglandin E2 (PGE2) in association with erythropoietin on the synthesis of fetal and adult hemoglobin in peripheral blood-derived erythroid burst colonies from normal adults and from patients with sickle cell anemia were investigated. The synthesized hemoglobin at the end of 8, 14 or 18 days in culture was separated by DEAE-cellulose chromatography of 35S-methionine labelled hemoglobin. Quantitative estimation of the synthesized hemoglobin phenotypes, for the three indicated culture periods, showed preferential synthesis of Hb F in addition to an overall increase in hemoglobin synthesis in PGE2 treated colonies. Furthermore, the reactivation of fetal hemoglobin production by PGE2 was more pronounced when the adherent cells were included in the culture dishes. These results indicate that the addition of PGE2 to culture dishes presumably constitutes an environmental change to promote the functional changes seen in the blood erythroid bursts in terms of Hb synthesis and switching.     

Some mechanisms involved in the prostaglandin E2 immunosuppressive effect in (CBA x C57BL)F1 mice in vivo

The cellular mechanisms involved in the immunosuppressive effect of prostaglandin E2 (PGE2) multiple injections into (CBA x C57Bl)F1 mice in vivo have been studied. PGE2 injection increases the induction of specific T-suppressors. In addition, there is a decrease in macrophage phagocytic activity and in the phagocytosis index, apparently mediated by Fc gamma receptors (Fc gamma R) and not by the macrophage complement receptor (C3R). The induction of antibody synthesis by using "immune" macrophages injected into a syngeneic recipient results in considerable decrease in the accumulation of antibody-forming cells if the macrophage donor has been pretreated with exogenous PGE2 in comparison with untreated controls. These cellular mechanisms are possibly one part of the diverse way in which PGE2 exerts an immunosuppressive effect in vivo and contributes to humoral immune response suppression.     

Deletion of microsomal prostaglandin E2 (PGE2) synthase-1 reduces inducible and basal PGE2 production and alters the gastric prostanoid profile

Microsomal prostaglandin E synthase-1 (mPGES-1) is an inducible protein recently shown to be an important source of inflammatory PGE2. Here we have used mPGES-1 wild type, heterozygote, and null mice to assess the impact of reduction or absence mPGES-1 protein on the production of PGE2 and other prostaglandins in lipopolysaccharide (LPS)-treated macrophages and mice. Thioglycollate-elicited peritoneal macrophages with mPGES-1 deficiency were found to lose their ability to produce PGE2 upon LPS stimulation. Resident mPGES-1(-/-) peritoneal macrophages exhibited severely impaired PGE2-releasing activity but retained some LPS-inducible PGE2 production capacity. Both macrophage types showed a 50% decrease in PGE2 production with removal of one copy of the mPGES-1 gene. In vivo, mPGES-1 deletion abolished the LPS-stimulated production of PGE2 in spleen, kidney, and brain. Surprisingly, lack of mPGES-1 activity resulted in an 80-90% decrease in basal, cyclooxygenase-1 (COX-1)-dependent PGE2 production in stomach and spleen, and a 50% reduction in brain and kidney. Other prostaglandins (thromboxane B2, PGD2, PGF(2alpha), and 6-keto-PGF(1alpha)) were significantly elevated in stomachs of mPGES-1-null mice but not in other tissues. Examination of mRNA for several terminal prostaglandin synthases did not reveal changes in expression levels associated with mPGES-1 deficiency, indicating that gastric prostaglandin changes may be due to shunting of cyclooxygenase products to other terminal synthases. These data demonstrate for the first time a dual role for mPGES-1 in both inflammatory and COX-1-mediated PGE2 production and suggest an interdependence of prostanoid production with tissue-specific alterations of prostaglandin levels in the absence of mPGES-1.