Effect of interferon-gamma and human alpha 2-macroglobulin on peritoneal macrophage morphology and Ia antigen expression.

While the primary role of the plasma protein alpha 2-macroglobulin (alpha 2M) appears to be related to its proteinase inhibitory activity, alpha 2M has been reported to regulate the immune response in vitro. Previous studies have demonstrated that, although native alpha 2M has no effect on macrophage function, proteinase- or CH3NH2-treated alpha 2M antagonize the IFN-gamma-induced expression of class II major histocompatibility complex (Ia) antigens on mouse peritoneal macrophages. In this investigation, we examined the effects of alpha 2M-CH3NH2 on the IFN-gamma-induced expression of macrophage Ia antigens by indirect immunofluorescence microscopy, radioimmunoassay, and immunoprecipitation of biosynthetically-labelled Ia. While alpha 2M-CH3NH2 suppressed the IFN-gamma induced increase in the percentage of Ia-positive macrophages detected by immunofluorescence microscopy, alpha 2M-CH3NH2 had no effect on the average of number of Ia molecules expressed per cell as detected by radioimmunoassay. In addition, alpha 2M-CH3NH2 had no effect on the ability of IFN-gamma to induce biosynthesis of Ia. Microscopic examination of IFN-gamma-treated macrophages revealed that treatment with alpha 2M-CH3NH2 prevented IFN-gamma-induced changes in macrophage morphology. IFN-gamma-treatment of elongated inflammatory macrophages was associated with the generation of round cells which possessed few cytoplasmic projections. By contrast, addition of alpha 2M-CH3NH2 to the incubation prevented the IFN-gamma-induced morphological changes, and the cells remained elongated with irregular cytoplasmic borders. We postulate that alpha 2M-CH3NH2 decreases the IFN-gamma-induced expression of Ia by preventing morphological changes in macrophages, resulting in the distribution of existing Ia over a larger surface area. As a consequence of this, the perceived fluorescence intensity of the bound antibody is lowered and the cells appear to be Ia-negative.     

Cyclooxygenase-2 expression in macrophages: modulation by protein kinase C-alpha

Cyclooxygenase-2 (COX-2) is an inducible enzyme responsible for high levels of PG production during inflammation and immune responses. Previous studies with pharmacological inhibitors suggested a role for protein kinase C (PKC) in PG production possibly by regulating COX-2 expression. In this study, we addressed the role of PKC-alpha in the modulation of COX-2 expression and PGE2 synthesis by the overexpressing of a dominant-negative (DN) mutant of this isoenzyme in the mouse macrophage cell line RAW 264.7. We investigated the effect of various stimuli on COX-2 expression, namely, LPS, IFN-gamma, and the intracellular parasite Leishmania donovani. Whereas LPS-induced COX-2 mRNA and protein expression were down-regulated in DN PKC-alpha-overexpressing clones, IFN-gamma-induced COX-2 expression was up-regulated in DN PKC-alpha-overexpressing clones with respect to normal RAW 264.7 cells. Measurements of PGE2 levels revealed a strong correlation between PGE2 secretion and IFN-gamma-induced COX-2 mRNA and protein levels in DN PKC-alpha-overexpressing clones. Taken together, these results suggest a role for PKC-alpha in the modulation of LPS- and IFN-gamma-induced COX-2 expression, as well as in IFN-gamma-induced PGE2 secretion.     

Suppressed expression of surface Ia on macrophages by lipopolysaccharide: evidence for regulation at the level of accumulation of mRNA

The surface expression of class II major histocompatibility molecules (immune associated or Ia antigens) is an acquired property of macrophages, essential to their ability to interact effectively with T lymphocytes. Surface expression of Ia is induced by stimulants such as interferon-gamma and is suppressed by agents such as lipopolysaccharide (LPS). Recent studies on several cultured cell lines indicate that interferon-gamma can heighten cellular levels of mRNA encoding Ia, and the level of such mRNA may represent an important regulatory focus for controlling expression of surface Ia. Murine peritoneal macrophages were treated with interferon-gamma and/or LPS and expression of Ia mRNA determined by Northern blot analysis with a probe specific for the murine beta-chain of I-A. mRNA specific for I-A beta was not detectable in explanted macrophages obtained from sites of sterile inflammation but was induced by treatment of purified recombinant interferon-gamma. This effect was dose dependent and was optimal by 24 hr after stimulation. Ia-specific mRNA preceded the surface expression of Ia as monitored by a radioimmunoassay using a monoclonal antibody specific for I-A beta. When a physiologic dose of LPS was added concomitantly with the interferon-gamma, the time course of induction if Ia-specific mRNA was not altered, but the amount of such mRNA detected was suppressed 40 to 80%. This effect was dependent on the dose of LPS, and the levels of mRNA correlated closely with subsequent surface expression of Ia. The ability of LPS to suppress both mRNA and cell surface Ia expression required that the suppressive agent be added within 12 hr of the inducing stimulus. This is the time frame during which accumulation of mRNA occurs. Thus the data demonstrates that accumulation of specific mRNA is a major regulatory focus governing expression of Ia both by interferon-gamma and LPS.     

Maleyl-BSA and fucoidan induce expression of a set of early proteins in murine mononuclear phagocytes

We examined the effect of maleyl-BSA on specific protein expression in murine peritoneal macrophages by radiolabeling treated macrophages with [35S]methionine followed by SDS-polyacrylamide gel electrophoresis. Such treatment induces the expression of a set of at least seven proteins (38, 42, 57, 65, 75, 80, and 85 kD). A similar set of proteins is also induced by treatment of macrophages with the algal polysaccharide fucoidan. The proteins resemble those induced in response to treatment of this same cell population with bacterial lipopolysaccharide (LPS), as judged by co-migration in both one- and two-dimensional electrophoresis. Two proteins induced by either LPS or maleyl-BSA (e.g., p57 and p85) show similar primary structure, as assessed by partial proteolytic peptide mapping confirming their identity. The induction of these proteins by maleyl-BSA is a transient phenomenon, being expressed as early as 1 hr after treatment and declining after 8 hr even in the continuous presence of the stimulus. The dose of maleyl-BSA required to induce the response varies to some extent with the protein in question, but agrees with the Kd for ligand-receptor binding. Chloroquine, which blocks the degradation of ligand, does not inhibit the induction of early protein synthesis. Whereas the induction of these proteins is blocked by inhibition of RNA synthesis with actinomycin D, the reversible inhibition of protein synthesis with cycloheximide during the induction phase does not prevent their expression. LPS, maleyl-BSA, and fucoidan previously have been shown to stimulate protease secretion and tumoricidal function in appropriately primed macrophages. The present findings now demonstrate that all three agents can also mediate the expression of early genes which may participate in the acquisition of functional competence.     

Opposing effects of glucocorticoids on interferon-gamma-induced murine macrophage Fc receptor and Ia antigen expression

Two macrophage markers associated with differentiation are the Fc receptor (FcR) and the Ia antigen. Expression of these markers is increased with IFN-gamma treatment, although some evidence suggests that the induction pathway for Fc receptor and Ia antigen expression may be dissociable. In this study, the effect of glucocorticoids on basal and IFN-induced levels of Fc-mediated phagocytosis and Ia antigen expression was investigated. Macrophages incubated for 2 days with glucocorticoids alone showed no change in basal levels of Fc-mediated phagocytosis. However, incubation with glucocorticoids plus IFN-gamma resulted in increased Fc-mediated phagocytosis and binding to a much greater extent than IFN-gamma treatment alone. This enhancement was specific for IFN-gamma, because the IFN-beta-induced increase in Fc-mediated phagocytosis and binding was not affected by glucocorticoids. In contrast to the expression of Fc receptor capacity, both basal and IFN-gamma-induced levels of Ia antigen expression were inhibited by glucocorticoids. The glucocorticoid effect on these two markers was not observed with other steroid hormones, nor was it altered by inhibitors of the arachidonic acid pathway. The findings of this study provide additional evidence that induction of Fc receptor and Ia antigen by IFN-gamma occurs by different mechanisms.     

Differential regulation of interleukin-6, macrophage inflammatory protein-1, and JE/MCP-1 cytokine expression in macrophage cell lines.

Activated macrophages produce a number of proinflammatory cytokines including IL-6, JE, MIP-1 alpha and MIP-1 beta. The induction requirements for production of either IL-6 or the MIP-1 related inflammatory proteins (MIP-1 alpha, MIP-1 beta, and JE) have been analyzed independently using fibroblasts, monocytes, or endothelial cells. However, little is known about the regulation of these cytokines in macrophages. Since activated macrophages produce prostaglandins (PGE2) which may participate in the autoregulation of cytokine production by stimulation of adenylate cyclase and the induction of cAMP-dependent signal pathways, we determined the effects of PGE on the production of IL-6 and MIP-1-related proteins. Murine macrophage cell lines were incubated with PGE1, PGE2, cholera toxin, or dibutyryl cAMP in the presence of absence suboptimal doses of LPS. Pharmacologic agents alone did not induce IL-6 production but incubation of macrophages with combinations of adenylate cyclase stimulators and LPS or dcAMP and LPS led to the dose-dependent enhancement of IL-6 secretion and mRNA expression. In contrast, PGE1 inhibits LPS-induced JE, MIP-1 alpha, and MIP-1 beta mRNA expression and this inhibition is partially dependent on a cAMP-mediated pathway of signal transduction. In previous work we demonstrated that IFN-gamma and PMA do not stimulate the production of IL-6 by macrophages. Here we show that incubation of macrophages with either IFN-gamma or PMA induces the expression of JE, MIP-1 alpha and MIP-1 beta mRNA expression. JE mRNA expression is much more responsive to the stimulatory effects of IFN-gamma than are the MIP-1 genes. Finally, PGE inhibits PMA and IFN-gamma-induced JE and MIP-1-related mRNA expression.     

Cytokine modulation of immune activation associated suppression of macrophage cyclooxygenase activity in vivo.

Intraperitoneal infection with Listeria monocytogenes (LM) results in activation of the peritoneal macrophage population which displays increased surface expression of major histocompatibility (MHC) Class II (Ia) antigen and markedly suppressed prostaglandin (PG) synthesis. We demonstrate here that this decrease in PG production is also seen after treatment by mitogen (Con A) and endotoxin (LPS), and can be explained by reduced cyclooxygenase activity in these cell populations. We show that, whereas Ia expression was augmented at all doses of LM and Con A tested, it displayed a biphasic response to LPS in vivo: increase at the lowest dose and inhibition at higher doses. In order to identify possible endogenous mediators of these responses, we used highly purified preparations of recombinant murine (rMu) cytokines and neutralizing cytokine specific monoclonal antibodies (MAbs) to examine whether interferon-gamma (IFN-gamma) and/or tumor necrosis factor (TNF) down-regulate macrophage cyclooxygenase activity in vivo. We found that IFN-gamma induced Ia expression but had no effect on PG secretion. In contrast, TNF-alpha suppressed PG synthesis and inhibited Ia surface expression. Similarly, in our model of Con A-induced peritoneal macrophage activation, pretreatment of animals with a neutralizing MAb to rMuIFN-gamma completely blocked the induction of Ia positive macrophages by Con A but did not affect Con A-dependent suppression of PG synthesis. Pretreatment with MAb to TNF had no effect on Con A-induced Ia levels, but significantly inhibited suppressed PG synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)     

Tumor-induced alteration in macrophage accessory cell activity on autoreactive T cells

Using a tumor-model system, differences in the accessory cell capabilities on autoreactive T cells of splenic macrophages from normal and tumor-bearing hosts (TBH) were assessed in the syngeneic mixed lymphocyte reaction. Tumor development caused a drop in autoreactivity. At 0 and 7 days of tumor growth, no drop in reactivity occurred when TBH macrophages were used as accessory cells and L3T4+ autoreactive T cells from normal mice were used as responder cells. However, by day 14, there was a 32% drop in reactivity, and by day 21 only 22% of the T cell reactivity remained when TBH macrophages were used as accessory cells. Alterations in macrophage Ia antigen during tumor growth were first investigated as the potential cause of reduced autoreactivity. Before tumor growth (day 0) 59% of the splenic macrophages were found to be Ia+. Day-7 TBH macrophages showed no difference in Ia antigen expression when compared to day 0 macrophages. However, by day 14, TBH macrophages showed a 9% decrease, and by day 21 they showed a 36% decrease in the number which were Ia+. Concomitant with the decrease in the number of Ia+ cells was a decrease in the density of Ia antigen expression on day-14 and -21 TBH macrophages. In day-14 and -21 TBH macrophages, two populations were seen that were Ia+. The first had a 10%-20% decrease in Ia antigen expression per cell while the second population had a greater than 50% drop in Ia antigen expression per cell. By titrating and mixing TBH macrophages with normal host macrophages, we assessed whether they could actively mediate suppression of autoreactive T cells. A titratable suppressive phenomenon was demonstrated using day-21 TBH macrophages. In contrast, day-7 and -14 TBH macrophages titrated with normal host macrophages had no effect on the syngeneic mixed lymphocyte reactivity. Lastly, we investigated whether the macrophage-mediated suppression was caused by increased prostaglandin secretion. Addition of indomethacin to cultures increased autoreactive T cell reactivity stimulated by normal or TBH macrophages (59% and 99% increase, respectively). Although indomethacin reduced suppression mediated by TBH macrophages, autoreactivity did not return to levels induced by untreated or indomethacin-treated cells from a normal host. Taken together, the data suggested that tumor growth modulates the function of macrophage accessory cells with autoreactive T cells in at least two ways: by decreasing Ia antigen expression and by increasing suppressor activity.     

Combined effects of tumor necrosis factor-alpha, prostaglandin E2, and corticosterone on induced Ia expression on murine macrophages

Ia expression is an important marker of macrophage functional capacity. IFN-gamma induces Ia expression on perhaps all murine macrophages, whereas IL-4, granulocyte-macrophage CSF, and CSF-1 induce Ia on restricted sets of macrophages. Inhibitors of expression include PGE2, glucocorticoids, and IFN-beta. TNF has been found to augment Ia expression on several macrophage lineage cell lines but to inhibit expression on murine peritoneal macrophages. Our study shows that TNF can have opposite effects on Ia expression (induced by IFN-gamma) on thioglycollate-elicited peritoneal macrophages, depending on the length of time cells are treated and on the presence of other modulators. In particular, TNF augmented early expression induced by IFN-gamma but inhibited later expression. And although TNF synergized with PGE2 to markedly inhibit Ia induction on these cells, it partially antagonized the inhibition by corticosterone and IFN-beta. TNF and PGE2 also synergized to inhibit Ia expression induced on bone marrow-derived and splenic macrophages by either IFN-gamma or IL-4. In contrast to their effect on Ia expression, TNF and PGE2 had opposite effects on expression of gamma 2a FcR in macrophages. TNF blocked the increase in FcR expression due to any combination of PGE2, IFN-gamma, and IFN-beta. However, TNF and PGE2 both increased expression of gamma 2a FcR on WEHI-3 cells. If the different effects of TNF reflect the differentiation states of macrophages, its effects on Ia and FcR expression may vary with the progression of an immune response.     

Effect of serotonin on murine macrophages: suppression of Ia expression by serotonin and its reversal by 5-HT2 serotonergic receptor antagonists

Serotonin (5-HT), a mediator released from platelets at sites of inflammation, suppressed IFN-gamma-induced Ia expression in mouse bone marrow macrophages maintained in vitro. (Mean percent suppression = 63.9% +/- 9.2, n = 40.) This suppression was not toxic or endotoxin-related, was concentration-dependent, and occurred at the physiologic concentrations of 5-HT present at inflammatory sites. The concentration of 5-HT producing the half-maximal effect was 2.5 to 5.5 X 10(-8) M. Related compounds, dopamine, histamine, and tryptamine, were much less potent in suppressing IFN-gamma-induced Ia, with maximally suppressing concentrations more than 100-fold higher than the maximally suppressing 5-HT concentration. L-5-hydroxytryptophan (5-HTP), the most potent analog tested, was 10-fold less potent than 5-HT in suppressing Ia expression. The concentration of 5-HTP producing the half-maximal effect = 4 X 10(-7) M. 5-HT suppression of IFN-gamma-induced Ia expression was antagonized by the 5-HT2 type receptor antagonists spiperone, ketanserin, and LY53857. Concentrations of these agents resulting in 50% inhibition of the serotonin effect were 1.5 X 10(-8) M, 7.5 X 10(-8) M, and 4.5 X 10(-12) M, respectively. 5-HT was most effective in suppressing IFN-gamma-induced Ia when added early in culture simultaneously with IFN-gamma. These data provide functional evidence that 5-HT suppression of IFN-gamma-induced Ia expression is mediated through a 5-HT receptor with some characteristics of the 5-HT2 type. 5-HT may play a physiologic role at sites of inflammation as a modulator of the effects of IFN-gamma on macrophage function.     

Antagonistic effect of interferon-beta on the interferon-gamma-induced expression of Ia antigen in murine macrophages

The cell surface expression of I region-associated (Ia) antigens by murine and human macrophages has been shown by investigators from a number of laboratories to be induced in a dose-dependent fashion by IFN-gamma, which is free of other lymphokines. The experiments described in this report demonstrate that fibroblast-derived IFN-beta exerts an antagonistic effect on IFN-gamma induced Ia expression in murine macrophages. Simultaneous addition of IFN-beta and IFN-gamma to peritoneal exudate macrophages results in decreased Ia expression when compared with macrophages treated with IFN-gamma only. Different sources of highly purified IFN-beta, as well as a recombinant human IFN-alpha (A/D Bgl; shown previously to be as active as IFN-beta in several other murine systems) acted in a similar antagonistic fashion to IFN-gamma-induced Ia induction. The down-regulation of Ia expression by IFN-beta is dose-dependent over a concentration range up to 100 U/ml. Time-course experiments indicated that for IFN-beta to down-regulate IFN-gamma-induced Ia, it had to be present either before stimulation with IFN-gamma or during the first 24 hr of simultaneous stimulation. Further experiments in which a highly specific antibody against IFN-alpha/beta was added to the cultures confirmed the findings of the time-course experiments. Inhibitors of the arachidonic acid pathway failed to reverse the effect of IFN-beta to reduce Ia antigen expression, which suggests that this inhibition is not prostaglandin mediated. Thus, these findings support a role for type I IFN as naturally occurring substances that negatively regulate the expression of class II molecules.     

Acetylbritannilatone suppresses NO and PGE2 synthesis in RAW 264.7 macrophages through the inhibition of iNOS and COX-2 gene expression

In order to elucidate the mechanism of anti-inflammatory effect of 1-o-acetylbritannilatone (ABL) isolated from Inula Britannica-F, we investigated ABL for its ability to inhibit the inflammatory factor production in RAW 264.7 macrophages. The studies showed that ABL not only inhibited LPS/IFN-gamma-mediated nitric oxide (NO) production and inducible nitric synthase (iNOS) expression, but also decreased LPS/IFN-gamma-induced prostaglandin E2 (PGE2) production and cyclo-oxygenase-2 (COX-2) expression in a concentration-dependent manner. EMSA demonstrated that ABL inhibited effectively the association of NF-kappaB, which is necessary for the expression of iNOS and COX-2, with its binding motif in the promoter of target genes. These data suggest that ABL suppress NO and PGE2 synthesis in RAW 264.7 macrophages through the inhibition of iNOS and COX-2 gene expression, respectively. The anti-inflammatory effect of ABL involves blocking the binding of NF-kappaB to the promoter in the target genes and inhibiting the expression of iNOS and COX-2.     

Differential effects of prostaglandins on macrophage activation induced by calcium ionophore A23187 or IFN-gamma.

Calcium ionophore A23187 can mimic IFN-gamma-induced macrophage activation for intracellular Leishmania killing and secretion of L-arginine-derived nitrite. Because the effects of ionophore are not restricted to calcium mobilization but also involve alterations of phospholipid metabolism, we have examined the role of PGE2 in the activation process. Macrophages exposed to A23187 or IFN-gamma in the presence of LPS and FCS secreted significant amounts of PGE2 independently of the presence of L-arginine in the incubation medium. The addition of the cyclooxygenase inhibitor indomethacin or omission of FCS abrogated PGE2 secretion but had little effect on nitrite production or intracellular killing. The addition of exogenous PGE2, of agents increasing PGE2 production such as arachidonic acid and colchicine, or of an analogue of cAMP, dibutyryl cAMP inhibited A23187 + LPS-induced activation whereas that mediated by IFN-gamma + LPS remained unimpaired. Our results indicate that PGE2 can modulate activation induced by A23187 but not by IFN-gamma, probably by a process involving cAMP. Conceivably, ionophore can mimic IFN-gamma for the induction of activation but lacks the capacity to help maintain the activated state because of its inability to desensitize macrophages to negative regulation by PGE2, as suggested previously for IFN-gamma-dependent activation.     

Differential effect of antigen-nonspecific T-cell factors and lipopolysaccharide on the Ia antigens and surface immunoglobulins of BALB/c lymphoma cell lines

In order to study the mechanism of B-cell differentiation using B lymphoid tumor cells as models, we investigated the effects of antigen-nonspecific T-cell factors in combination with lipopolysaccharide (LPS) on the expression of surface markers on B lymphoid cell lines. This study demonstrated that culture supernatant from concanavalin A-activated spleen cells (CAS) gave 2- to 3.5-fold enhancement of the expression of Ia antigens. The effect of CAS was dose dependent and as little as 2% CAS gave maximum enhancement of Ia antigen expression. The CAS effect was due to concanavalin A-activated cell products and was not due to the concanavalin A. The effects of allogeneic effect factor (AEF) on Ia antigens were similar to those of CAS. In contrast to CAS and AEF, LPS did not affect the expression of Ia antigens on ×16C 8.5. LPS enhanced 1.5- to 3-fold the expression of sIgM on this cell line. The expression of sIgM was minimally affected by T-cell factors; CAS induced 20 to 70% enhancement of sIgM expression while AEF induced no significant effects. This study showed that antigen-nonspecific factors (CAS and AEF) influenced mainly Ia expression on the B-cell lymphoma, ×16C 8.5, while LPS selectively affected sIgM expression. Therefore, it was concluded that the mechanisms by which B cells are activated by T-cell factors and mitogens are different.     

Modulation of macrophage Ia-expression by lipopolysaccharide. I. Induction of Ia expression in vivo

Experiments were performed to analyze the modulation of macrophage Ia expression and biosynthesis by Salmonella minnesota-derived lipopolysaccharide (LPS) in vivo. The i.p. injection of LPS into LPS-responder mice caused a dramatic increase in the Ia expression of the peritoneal macrophage population harvested 1 wk after injection. As little as 1 ng of lipid-rich Re595 LPS per mouse caused a significant I-Ak increase, and 1 microgram was optimal; wild-type S. minnesota LPS was less active. No I-Ak induction by LPS was observed in the LPS-nonresponder strain C3H/HeJ. LPS-induced macrophages showed a 6- to 16-fold increase in I-Ak expression by radioimmunoassay (RIA), a 3- to 10-fold increase in the proportion of I-Ak-positive cells, and a 10- to 15-fold increase in I-Ak biosynthetic capacity. The magnitude of this induction by LPS was comparable to increases observed after injection of live Listeria monocytogenes. The kinetics of I-Ak induction by LPS and by L. monocytogenes were different: LPS caused an initial decrease in I-Ak expression 1 day after injection, and I-Ak induction by LPS occurred more slowly and maintained heightened expression longer. Several H-2 gene products (H-2Kk, I-Ak, and I-Ek) were augmented in LPS-induced macrophages. In keeping with increased I-A and I-E expression, LPS-induced macrophages were more effective than normal macrophages in presenting antigen to T lymphocytes. We suggest that the modulation of macrophage Ia expression is one important mechanism contributing to the immunoregulatory activity of LPS.     

Involvement of protein kinase C in competence induction of macrophages to generate T suppressor cells.

We have previously described an Ia-expressing macrophage hybridoma clone, termed clone 59, which attains the ability to induce Ts cells after activation with murine rIFN-gamma. In this report, we show that a protein kinase C (PKC) activator, PMA (10 ng/ml) can replace IFN-gamma in inducing this form of macrophage competence. IFN-gamma-induced cellular competence was abrogated specifically by a PKC inhibitor but not by inhibitors that have specificity for cyclic nucleotide-dependent protein kinases. Furthermore, PGE2 known to induce protein kinase A in murine macrophages also failed to induce competence. In contrast, the ability to induce Th responses was neither dependent on IFN-gamma nor inhibited by prior treatment with protein kinase inhibitors. Furthermore, PKC depletion of macrophages by treatment with high doses (100 ng/ml) of PMA abrogated their ability to induce Ts cells. In addition, PKC-depleted macrophages failed to regain the ability to stimulate Ts cells after further treatment with IFN-gamma. The ability of IFN-gamma to modulate macrophage-mediated induction of Ts cells does not clearly correlate with an increased Ia expression as inducible expression of Ia was not consistently abrogated by PKC inhibitor treatment. In addition, PKC inhibitors failed to prevent the production of the cytokines IL-1 and IL-6. However, incubation of IFN-gamma or PMA-treated macrophages with antibodies recognizing the putative IJ ligand blocked the ability to induce Ts cells, suggesting the expression of these determinants on accessory cells is responsible for Ts induction.     

Upregulation of iNOS by COX-2 in muscularis resident macrophage of rat intestine stimulated with LPS

We investigated the effect of lipopolysaccharide (LPS) on the induction of inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2) in muscularis resident macrophages of rat intestine in situ. When the tissue was incubated with LPS for 4 h, mRNA levels of iNOS and COX-2 were increased. The majority of iNOS and COX-2 proteins appeared to be localized to the dense network of muscularis resident macrophages immunoreactive to ED2. LPS treatment also increased the production of nitric oxide (NO), PGE(2), and PGI(2). The increased expression of iNOS mRNA by LPS was suppressed by indomethacin but not by N(G)-monomethyl-L-arginine (L-NMMA). The increased expression of COX-2 mRNA by LPS was affected neither by indomethacin nor by L-NMMA. Muscle contractility stimulated by 3 microM carbachol was significantly inhibited in the LPS-treated muscle, which was restored by treatment of the tissue with L-NMMA, aminoguanidine, indomethacin, or NS-398. Together, these findings show that LPS increases iNOS expression and stimulates NO production in muscularis resident macrophages to inhibit smooth muscle contraction. LPS-induced iNOS gene expression may be mediated by autocrine regulation of PGs through the induction of COX-2 gene expression.     

Attenuation of MHC class II expression in macrophages infected with Mycobacterium bovis bacillus Calmette-Guérin involves class II transactivator and depends on the Nramp1 gene.

The natural resistance associated macrophage protein 1 (Nramp1) gene determines the ability of murine macrophages to control infection with a group of intracellular pathogens, including Salmonella typhimurium, Leishmania donovani, and Mycobacterium bovis bacillus Calmette-Guérin (BCG). The expression of the resistant allele of the Nramp1 gene in murine macrophages is associated with a more efficient expression of several macrophage activation-associated genes, including class II MHC loci. In this study, we investigated the molecular mechanisms involved in IFN-gamma-induced MHC class II expression in three types of macrophages: those expressing a wild-type allele of the Nramp1 gene (B10R and 129/Mphi), those carrying a susceptible form of the Nramp1 gene (B10S), and those derived from 129-Nramp1-knockout mice (129/Nramp1-KO). Previously, we published results showing that Ia protein expression is significantly higher in the IFN-gamma-induced B10R macrophages, compared with its susceptible counterpart. In this paper, we also show that the higher expression of Ia protein in B10R cells is associated with higher I-Abeta mRNA expression, which correlates with a higher level of IFN-gamma-induced phosphorylation of the STAT1-alpha protein and subsequently with elevated expression of class II transactivator (CIITA) mRNA, compared with B10S. Furthermore, we demonstrate that the infection of macrophages with M. bovis BCG results in a down-regulation of CIITA mRNA expression and, consequently, in the inhibition of Ia induction. Therefore, our data explain, at least in part, the molecular mechanism involved in the inhibition of I-Abeta gene expression in M. bovis BCG-infected macrophages activated with IFN-gamma.     

Regulation of constitutive and lymphokine-induced Ia expression by murine alpha-fetoprotein

alpha-Fetoprotein (AFP) has been shown to suppress a variety of immune responses in vitro. The immunosuppressive properties of AFP can be partly attributed to the ability of this protein to decrease the cell surface expression of Ia antigens on macrophages. The experiments described in this report define more precisely the regulatory effects of AFP on Ia expression. Using the "dendritic-like" cell line P388 AD2 and bone marrow-derived macrophages we have shown that AFP can suppress the constitutive expression of cell surface Ia antigens. This decrease is detectable on the cell surface 24 hr after the addition of AFP. In further experiments we also examined the effect of AFP on lymphokine-induced Ia expression. Our results show that AFP has no suppressive influence on the inductive phase of lymphokine-induced Ia antigen expression but can decrease elevated levels of Ia antigen subsequent to their induction.