Lipopolysaccharide, IFN-gamma, and IFN-beta induce expression of the thiol-sensitive ART2.1 Ecto-ADP-ribosyltransferase in murine macrophages

Nicotinamide adenosine dinucleotide (NAD) can act as a modulator of multiple immune and inflammatory responses when released into extracellular compartments. These actions of extracellular NAD are largely mediated by a family of mammalian ecto-ADP-ribosyltransferases (ARTs) that covalently modify target extracellular or cell surface proteins by transferring ADP-ribose to arginine or cysteine residues. In this study, we report that bone marrow-derived macrophages (BMDM) from BALB/c mice lack constitutive expression of any of the six murine ecto-ART subtypes, but selectively up-regulate ART2.1 in response to multiple proinflammatory mediators including agonists for TLR and type I and type II IFN. Stimulation of BMDM with LPS, IFN-beta, or IFN-gamma induced high expression of ART2.1, but not ART2.2, as a GPI-anchored cell surface ectoenzyme. ART2.1 expression in response to LPS was potentiated by inhibition of ERK1/2 signaling, but inhibited by blockade of the NF-kappaB, PI3K, and JAK-STAT pathways or the presence of neutralizing anti-IFN-beta. The catalytic function of the induced cell surface ART2.1 was strictly dependent on the presence of extracellular thiol-reducing cofactors, suggesting that in vivo activity of ART2.1-expressing macrophages may be potentiated in hypoxic or ischemic compartments. Consistent with the mutated art2a gene in C57BL/6 mice, LPS- or IFN-stimulated BMDM from this strain lacked expression of cell surface ART2 activity in the presence or absence of extracellular thiol reductants. Collectively, these studies identify ART2.1 as a new candidate for linking autocrine/paracrine activation of inflammatory macrophages to the release of NAD, a critical intracellular metabolite.     

IL-4 and IFN-gamma up-regulate substance P receptor expression in murine peritoneal macrophages

While the ability of macrophages to express authentic substance P receptors (i.e., NK-1 receptors) has been inferred from radioreceptor binding assays and functional assays and, most recently, by identification of NK-1 receptor mRNA expression, we know little about NK-1 expression at the protein level or what host factors might up-regulate expression of this receptor. In the present study we demonstrate that the cytokines IL-4 and IFN-gamma can increase the expression of NK-1 receptors on murine peritoneal macrophages. Specifically, we show that IL-4 and IFN-gamma can elicit increases in the level of mRNA encoding the NK-1 receptor by up to 12- and 13-fold, respectively. Furthermore, these cytokines can significantly increase the expression of the NK-1 receptor protein as measured by Western blot and FACS analysis using specific Abs developed in our laboratory. In addition, we have demonstrated the ability of both IL-4 and IFN-gamma to enhance the ability of macrophages to bind substance P as measured by radiolabeled binding assay. The observation that the level of expression of this receptor protein can be enhanced by cytokines that promote either cell-mediated (Th1) or humoral (Th2) immune responses supports the idea that this receptor can be induced during either type of immune response. As such, these results may point to a more ubiquitous role for substance P in the generation of optimal immune responses than previously appreciated.     

Taxol increases steady-state levels of lipopolysaccharide-inducible genes and protein-tyrosine phosphorylation in murine macrophages.

Taxol, a microtubule stabilizing agent, exhibits promise in the treatment of breast and ovarian tumors. Recently, this novel drug has been shown to activate murine macrophages to express TNF-alpha and to down-regulate TNF-alpha receptors, activities shared by bacterial LPS. Our study sought to determine if taxol could regulate gene expression in murine macrophages and to examine further the ability of taxol to generate an LPS-like signal. Toward this end, the ability of taxol to induce TNF-alpha mRNA and five other genes (IL-1 beta, IP-10, D3, D7, and D8) associated with LPS-activation of macrophages was examined by Northern blot analysis. Taxol alone (1-30 microM) induced murine C3H/OuJ macrophages to secrete bioactive TNF-alpha and express increased levels of each of the six genes under investigation. The magnitude and the kinetics of induction of each gene closely resembled that seen with Escherichia coli K235 LPS. Macrophages from LPS-hyporesponsive C3H/HeJ mice, however, failed to induce detectably any of the genes in response to taxol, despite being sensitive to the microtubule stabilizing effects of taxol as determined by immunofluorescence microscopy. The gene induction activity of taxol was in marked contrast to an alternative macrophage activator, heat killed Staphylococcus aureus, which induced a distinct gene profile in C3H/OuJ macrophages and which was equally active in C3H/OuJ and C3H/HeJ macrophages. These data are consistent with an ability of taxol to generate an LPS-like signal, possibly through a common signaling intermediate. As a first step toward identifying signal responses shared by taxol and LPS, we have shown that taxol, as shown previously for LPS, rapidly induces the tyrosine phosphorylation of a 41- and 42-kDa protein.     

IFN-gamma mediates increased glucocorticoid receptor expression in murine macrophages.

Exposure of the murine macrophage cell line, RAW 264.7, to murine rIFN-gamma resulted in a significant increase in the number of glucocorticoid receptors (GcR). A doubling in the number of GcR was observed as early as 24 h after rIFN-gamma treatment, and receptor number was maximal by 36 h after rIFN-gamma treatment and represented approximately a fourfold increase. Scatchard analysis indicated that a twofold increase in GcR affinity was concomitant with the rIFN-gamma-induced increase in GcR number in RAW 264.7 cells. Increased GcR numbers were induced after exposure of RAW 264.7 cells to as little as 0.1 U/ml rIFN-gamma, and optimal expression was observed at 5 U/ml. Treatment of peritoneal exudate macrophages from C3H/OuJ mice and the LPS hyporesponsive mouse strain, C3H/HeJ, with rIFN-gamma induced an approximately twofold increase in the GcR with no concomitant change in receptor affinity. These results suggest that IFN-gamma may be essential not only for macrophage activation, but also for increasing macrophage sensitivity to feedback inhibition by glucocorticoids by increasing the number and/or affinity of available GcR.     

Maleylated-BSA suppresses IFN-gamma-mediated Ia expression in murine peritoneal macrophages

Maleylated bovine serum albumin (maleyl-BSA) and other polyanionic polymers that are recognized by cell surface receptors on macrophages have been shown to induce chemotaxis, protease secretion, and tumoricidal function in this cell type. In this paper the effect of maleyl-BSA on Ia antigen expression has been evaluated. In a fashion similar to LPS, maleyl-BSA suppressed IFN-gamma-induced expression of Ia in a time- and dose-dependent manner. Also like LPS, maleyl-BSA stimulated the production and secretion of substantial amounts of PGE2 over a 24-hr period. This did not, however, appear to be the primary mechanism by which expression of Ia was suppressed, because co-treatment of the cells with indomethacin, which totally inhibited the production of PGE2, only minimally affected the suppressive activity. Surprisingly, the suppressive activity of both maleyl-BSA and LPS could be largely abrogated by co-treatment of the cells with cyclohexamide during the time period when Ia expression was sensitive to suppression. This effect was selective in that PGE2- or dibutyryl cyclic AMP-induced suppression of Ia expression was not affected by cyclohexamide treatment. The data support the concept that there are multiple molecular mechanisms involved in the negative regulation of IFN-gamma-induced Ia expression in macrophages. Such mechanisms may include, in addition to the synthesis of PGE2 and consequent elevation in intracellular levels of cyclic AMP, one or more proteins made early after treatment with either maleyl-BSA or LPS. Thus the function of some of these early gene products may be to regulate expression of functional genes such as that encoding Ia antigen.     

The effect of LPS on expression of the early "competence" genes JE and KC in murine peritoneal macrophages

The expression of early "competence" genes has been examined in murine peritoneal macrophages treated with bacterial lipopolysaccharide (LPS). This set of genes (e.g., c-myc, c-fos, r-fos, JE, and KC) were first described in BALB/c 3T3 cells treated with platelet-derived growth factor. We have previously reported that LPS induces the rapid and transient expression of both c-myc and c-fos in macrophages. In the present report, we present evidence demonstrating that the mRNA for JE and KC are also induced in macrophages after treatment of LPS. The r-fos gene was not detectably induced by LPS under the experimental conditions used in this study. The induction of JE and KC were dependent upon the dose of LPS and exhibited different time courses. mRNA for both KC and JE was induced within 30 min from the initiation of treatment. Although mRNA for JE continued to accumulate for up to 24 hr, mRNA for KC was optimally seen after 60 min and had disappeared by 4 hr. c-fos, JE, and KC mRNA were all inducible by a variety of structurally diverse but functionally similar agents (e.g., heat killed Listeria monocytogenes, maleyl-bovine serum albumin, and fucoidan). Interferon-gamma, a potent but functionally distinct stimulus of macrophage activation, did not effect the expression of JE or KC mRNA. The expression of mRNA for c-fos could be readily induced by treatment of macrophages with phorbol myristate acetate (PMA) alone and that for JE by PMA plus the inophore A23187; mRNA for KC was largely unaffected by these agents. These results suggest that expression of the c-fos and JE genes are regulated by products of polyphosphoinositide hydrolysis. The difference between c-fos or JE and KC raises the possibility that LPS may stimulate at least two independent routes of early gene expression. LPS does not promote macrophage proliferative activity alone, and in fact inhibits the proliferative response to the macrophage growth factor colony-stimulating factor 1. Taken together these findings suggest that the products of these genes may function in the acquisition of competence for highly differentiated functions in addition to that for cell division.     

Amphotericin B inhibits the serum-induced expression of tissue transglutaminase in murine peritoneal macrophages

Culture of mouse resident peritoneal macrophages (PM) in serum-containing medium causes a rapid and marked induction of the enzyme tissue transglutaminase (tissue TGase). Coculture of PM with amphotericin B (AmpB) inhibited the serum-induced expression and accumulation of tissue TGase. The AmpB-mediated inhibition of tissue TGase was specific and was due to inhibition of enzyme synthesis. The serum-dependent induction of tissue TGase was inhibited in a dose-dependent fashion, and a complete inhibition was observed at 1.5 microgram/ml dose of AmpB. The inhibition was reversible; however, the time of recovery depended on the dose and time of exposure of the cells to AmpB. The present studies suggest that AmpB-mediated inhibition of tissue TGase is due to inhibition of the uptake of serum retinoids by PM.     

Citral and eugenol modulate DNA damage and pro-inflammatory mediator genes in murine peritoneal macrophages

Citral and eugenol have been broadly studied because of their anti-inflammatory, antioxidant and antiparasitic potentials. In this study, the effects of citral (25, 50 and 100 µg/mL) and eugenol (0.31, 0.62, 1.24 and 2.48 µg/mL) on the expression (RT-PCR) of the pro-inflammatory mediator genes NF-κB1, COX-2 and TNF-α were evaluated in mouse peritoneal macrophages with or without activation by a bacterial lipopolysaccharide (LPS). Additionally, the genotoxic potentials of two compounds and their capacities to modulate the DNA damage induced by doxorubicin (DXR) were investigated using the comet assay. The data revealed that neither citral nor eugenol changed COX-2, NF-κB1 or TNF-α expression in resting macrophages. However, in LPS-activated cells, citral induced the hypoexpression of COX-2 (100 µg/mL) and TNF-α (50 and 100 µg/mL). Hypoexpression of TNF-α was also detected after cellular exposure to eugenol at the highest concentration (2.48 µg/mL). Both compounds exhibited genotoxic potential (citral at 50 and 100 µg/mL and eugenol at all concentrations) but also showed chemopreventive effects, in various treatment protocols. Both citral and eugenol might modulate inflammatory processes and DXR-induced DNA damage, but the use of these compounds must be viewed with caution because they are also able to induce primary DNA lesions.     

Inhibitory activity of constitutive nitric oxide on the expression of alpha/beta interferon genes in murine peritoneal macrophages.

We investigated the role of the constitutive nitric oxide (NO) in the expression of interferon (IFN) genes in mouse peritoneal macrophages (PM). The treatment of PM with L-arginine-N(G)-amine (AA), a potent inhibitor of NO-producing enzymes, resulted in a marked accumulation of IFN-alpha4 mRNA and, to a minor extent, of IFN-beta mRNA. In contrast, the expression of IFN-gamma mRNA, as well as tumor necrosis factor alpha and interleukin-6 mRNA, was not affected. Furthermore, a remarkable increase in the expression of the IFN regulating factor 1 (IRF-1), but not of IRF-2, mRNA was detected in AA-treated PM. To investigate whether the AA-induced activation of the IFN system correlates with the production and antiviral activity of IFN, the extent of encephalomyocarditis virus (EMCV) replication was monitored in AA-treated PM with respect to control cultures. AA treatment strongly inhibited, in a dose-dependent manner, EMCV yields in PM. Likewise, similar results were obtained by the addition of the NO-scavenger carboxyphenyl-tetramethylimidazoline-oxyl-oxide. In addition, inhibition of NO synthesis by N(G)-mono-methyl-L-arginine in PM strongly decreased virus replication in coculture of PM and EMCV-infected L929 cells, whereas no antiviral effect was observed in L929 cells alone. Moreover, the AA-mediated antiviral activity was abrogated in the presence of antibody to IFN-alpha/beta, whereas antibody to IFN-gamma was completely ineffective. Taken together, these results indicate that low levels of NO, constitutively released by resting PM, negatively regulate the expression and activity of IFN-alpha/beta in PM. We suggest that NO acts as a homeostatic agent in the regulation of IFN pathway expression in macrophages.     

Protein kinase C inhibitors block the activation of macrophages by IFN-beta but not by IFN-gamma

We investigated the role of protein kinase C (PK-C) in the activation of cytotoxic peritoneal murine macrophages (M phi) by IFN-gamma or by IFN-beta. Two potent inhibitors of PK-C, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H-7) and retinal, were used. We found that both drugs inhibited in a dose-dependent manner the activation of cytotoxicity induced by IFN-beta, suggesting the requirement for intact PK-C activity in this process. In contrast, neither H-7 nor retinal inhibited the activation of cytotoxic M phi by IFN-gamma, indicating that IFN-gamma acts through a PK-C-independent pathway. The effectiveness of both drugs in inhibiting PK-C in intact M phi was evaluated by measuring the inhibition of induction of c-fos mRNA by L-alpha-1-oleoyl-2-acetoyl-sn-3-glycerol, a process that has been shown to be dependent on PK-C activation. We have found a strict correlation in the dose-dependent inhibition by both drugs of c-fos mRNA induction and activation of M phi by IFN-beta. These results indicate that different pathways of activation are triggered by IFN-gamma and IFN-beta, the former being independent from and the latter dependent on intact PK-C activity.     

Protein expression changes induced in murine peritoneal macrophages by Group B Streptococcus

Protein expression changes induced in thioglycolate‐elicited peritoneal murine macrophages (MΦ) by infection with type III Group B Streptococcus (GBS) are described. Proteins from control MΦ and MΦ incubated 2 h with live or heat‐inactivated GBS were separated by 2‐DE. Proteins whose expression was significantly different in infected MΦ, as compared with control cells, were identified by MS/MS analysis. Changes in the expression level of proteins involved in both positive and negative modulation of phagocytic functions, stress response and cell death were induced in MΦ by GBS infection. In particular, expression of enzymes playing a key role in production of reactive oxygen species was lowered in GBS‐infected MΦ. Significant alterations in the expression of some metabolic enzymes were also observed, most of the glycolytic and of the pentose‐cycle enzymes being down‐regulated in MΦ infected with live GBS. Finally, evidence was obtained that GBS infection affects the expression of enzymes or enzyme subunits involved in ATP synthesis and in adenine nucleotides interconversion processes.     

Direct evidence for an intracellular role for IFN-gamma. Microinjection of human IFN-gamma induces Ia expression on murine macrophages

An intracellular action for IFN-gamma was detected by using microinjection technology. Human IFN-gamma (huIFN-gamma) does not ordinarily act on murine cells because it fails to bind to murine cell surface receptors. However, when huIFN-gamma was microinjected into murine macrophages, a time and dose-dependent induction of Ia was detected by autoradiography on the surface of injected and neighboring cells. These results imply a direct role for internalized IFN-gamma and show that huIFN-gamma, although it fails to be recognized by murine cell surface receptors, can act internally on murine cells. The effect on Ia gene expression induced by microinjected huIFN-gamma was in part indirect: granulocyte/macrophage-CSF (GM-CSF) was released by IFN-gamma-injected macrophages, and this secondary mediator appeared to induce Ia on neighboring cells, inasmuch as anti-GM-CSF blocked Ia induction. Anti-GM-CSF also partially blocked Ia induction by extracellular murine IFN-gamma on murine macrophages. Thus, at least some of the Ia induction attributed to IFN-gamma was mediated by GM-CSF.     

Persistent expression of Ia-antigen on a subpopulation of murine resident peritoneal macrophages

The stability of Ia-antigen expression on murine resident peritoneal macrophages was assessed during the course of in vitro culture. Contrary to published findings with radioimmunoassays and immunofluorescence assays, the cultured cells bore Ia-antigen, as shown by their rosetting with sheep erythrocytes coupled with anti-Ia.2 monoclonal antibody. In support of this finding, cultured cells presented the copolymer of glutamine, alanine, and tyrosine (GAT) to GAT-primed T lymphocytes in an Ia-dependent manner. Thus, functional Ia antigen is present on cultured macrophages. Disappearance of the antigen after fixation of macrophages with either glutaraldehyde or paraformaldehyde, a routine procedure in the radioimmunoassays and immunofluorescence assays, explains its presumed absence on cultured cells.