The efficacy of a commercial beta-glucan preparation, EcoActiva, on stimulating respiratory burst activity of head-kidney macrophages from pink snapper (Pagrus auratus), Sparidae.

This study investigated the in vitro effects of a commercial beta-glucan preparation, EcoActiva, on the respiratory burst activity of head-kidney macrophages isolated from pink snapper (Pagrus auratus), a marine fish cultured in Australia. Macrophages incubated with EcoActiva displayed morphological characteristics of activation, and were stimulated to produce superoxide. Pre-incubation with low levels of EcoActiva significantly increased the response to phorbol myristate acetate (PMA) and lipopolysaccharide (LPS), indicating that EcoActiva could prime these macrophages. Co-culturing macrophages with both LPS and PMA, or EcoActiva and PMA, increased burst activity compared with the response to PMA alone, however, this increase was additive and not synergistic. These results suggest that EcoActiva is able to stimulate non-specific immunity in snapper through increased respiratory burst activity of macrophages, an important component of the host defence network.     

Chemiluminescence response of β-glucan stimulated leukocytes isolated from different tissues and peritoneal cavity of Dicentrarchus labrax

The respiratory burst of leukocytes isolated from sea bass (Dicentrarchus labrax) pronephros, peritoneal cavity (P.C.), spleen and blood, was measured by a chemiluminescence (CL) assay after stimulation with β-glucan. The CL response by P.C. and pronephros leukocytes was significantly higher than that expressed by a similar number of cells separated from spleen and blood. This probably reflects the observation that the proportion of macrophages and neutrophils was highest in the populations of leukocytes from peritoneal cavity and pronephros. Comparative observations showed a higher degree of yeast phagocytosis by leukocytes taken from peritoneal cavity than the pronephros. Moreover phagocytic index evaluated by microscopical observations, indicated that peritoneal macrophages internalised more yeast cells than neutrophils (identified by the peroxidase reaction). Scanning electron microscopy observations were also carried out.Inhibition experiments by a myeloperoxidase inhibitor sodium azide, iodonium-diphenyl-chloride which inhibits NADPH-oxidase, and exogenous superoxide dismutase, which catalyses O−2 dismutation to H₂O₂, supported the correlation between CL and respiratory burst. Treatment with ouabain and DNP suggested that in this response, Ca⁺⁺ pump channels and calmodulin are involved in a metabolic energy-dependent pathway.     

Molecular cloning of rock bream (Oplegnathus fasciatus) tumor necrosis factor-α and its effect on the respiratory burst activity of phagocytes

Rock bream (Oplegnathus fasciatus) tumor necrosis factor-α (rbTNF-α) gene was cloned, recombinantly produced, and the effect of the recombinant rbTNF-α on the respiratory burst activity of rock bream phagocytes was analyzed. Structurally, genomic DNA of rbTNF-α was comprised with four exons and three introns, and deduced amino acid sequence of its cDNA possessed the TNF family signature, a transmembrane domain, a protease cleavage site, and two cysteine residues, which are the typical characteristics of TNF-α gene in mammals and fish. The chemiluminescent (CL) response of rock bream phagocytes was significantly enhanced by pre-incubation with recombinant rbTNF-α, when opsonized zymosan was used as a stimulant of the respiratory burst. However, CL enhancing effect of the recombinant rbTNF-α was very weak when the respiratory burst activity of phagocytes was triggered with phorbol-12-myristate-13-acetate (PMA) instead of zymosan. These results suggest that rock bream TNF-α might have an ability to prime the respiratory burst activity of phagocytes against receptor-mediated phagocytosis inducing stimulants, such as zymosan, but have little ability against stimulants not accompanying receptor-mediated phagocytosis.     

Rat macrophage treatment with lipopolysaccharide leads to a reduction in respiratory burst product secretion and a decrease in NADPH oxidase affinity

The effect of LPS on the respiratory burst in resident rat peritoneal macrophages has been examined. Rat macrophages secreted high levels of both O2- and H2O2 in response to triggering with phorbol esters, opsonized zymosan, and immune complexes. After culture in vitro with LPS these macrophages exhibited a marked diminution in their capacity to secrete high levels of respiratory burst products. The LPS-mediated loss of secretory activity was apparent after 2 hr of exposure to LPS and was inhibitable by polymyxin B in a dose-dependent fashion. The effect was not selective for any triggering agent type as inhibition of secretory activity occurred after triggering with PMA, zymosan and immune complexes. PGE2 added at levels secreted by the macrophages in response to LPS also inhibited respiratory burst product secretion. In addition, indomethacin prevented the LPS-mediated inhibition of secretion. Because the inhibition of secretion was common to all triggering agents tested, this suggested that the basis for the impaired secretion was at a level other than the receptor for the triggering agent. Both LPS and PGE2 treatment of the macrophages increased the Km of the oxidase for NADPH (1.7- to 2.3-fold) without affecting significantly the Vmax of the enzyme. These data suggest that stimulation of rat peritoneal macrophages by LPS results in an impaired ability to secrete respiratory burst products as a result of a PGE2-mediated decrease in NADPH oxidase affinity and that this alteration is independent of alterations in tumoricidal activity.     

The mutagenicity testing of tertiary-butyl alcohol, tertiary-butyl acetate™ and methyl tertiary-butyl ether in Salmonella typhimurium

Tertiary-Butyl alcohol (TBA), tertiary-butyl acetate™ (TBAc™) and methyl tertiary-butyl ether (MTBE) are chemicals to which the general public may be exposed either directly or as a result of their metabolism. There is little evidence that they are genotoxic; however, an earlier publication reported that significant results were obtained in Salmonella typhimurium TA102 mutagenicity tests with both TBA and MTBE. We now present results of testing these chemicals and TBAc™ against S. typhimurium strains in two laboratories. The emphasis was placed on testing with S. typhimurium TA102 and the use of both dimethyl sulphoxide and water as vehicles. Dose levels up to 5000 μg/plate were used and incubations were conducted in both the presence and absence of liver S9 prepared from male rats treated with either Arochlor 1254 or phenobarbital-β-naphthoflavone. The experiments were replicated, but in none of them was a significant mutagenic response observed, thus the current evidence indicates the TBA, TBAc™ and MTBE are not mutagenic in bacteria.     

Investigation of factors influencing the ability ofRenibacterium salmoninarumto stimulate rainbow trout macrophage respiratory burst activity

The early stages of contact betweenRenibacterium salmoninarumand rainbow trout macrophages were investigated. LiveR. salmoninarumelicited a respiratory burst, which was enhanced by heat-killing the microorganism. This phenomenon, though, was not observed using UV killed bacteria. Both responses were enhanced when a combination of LPS and TNFαwas used to activate the macrophages prior to contact withR. salmoninarum. Further studies demonstrated that both compounds synergised to enhance O₂⁻production, and that this was correlated with the ability to kill the pathogen. Opsonisation ofR. salmoninarumwith serum factors also increased the respiratory burst, but no difference was found between normal serum and heat-inactivated serum.     

Phorbol ester-stimulated superoxide production by murine bone marrow-derived macrophages requires preexposure to cytokines

Murine resident peritoneal macrophages (RPM) generate superoxide (O2-) in response to stimulation with PMA or zymosan. Murine bone marrow-derived macrophages (BMM) generate O2- in response to zymosan but not PMA. However, the ability to generate O2- in response to PMA could be induced in BMM by pre-exposing the cells to certain cytokines, including granulocyte-macrophage CSF (GM-CSF), tumor necrosis factor-alpha (TNF-alpha), IFN-gamma, and, to a lesser extent, IL-1 alpha. Bacterial LPS also induced the ability to respond to PMA. These same agents were also shown to prime RPM for enhanced PMA-induced respiratory burst. In contrast to GM-CSF, CSF-1 did not enhance the ability of BMM or RPM to generate O2- in response to PMA. Pretreatment with GM-CSF or TNF-alpha did not significantly affect the zymosan-induced release of O2- by BMM. These results suggest that unprimed BMM have a deficiency in the PMA-dependent signaling pathway that is corrected by exposure to selected cytokines. The results also raise the possibility that the basal ability of tissue macrophages to generate a respiratory burst in response to PMA may be a reflection of in vivo exposure to cytokines.     

Differential effects of bacterial lipopolysaccharides upon neutrophil function

Lipopolysaccharide (LPS) is a potent inflammatory agent which augments neutrophil sensitivity to subsequent inflammatory stimuli. In this study, the effects of structurally different LPS types upon neutrophil effector functions were examined. Rough LPS types, which have lost the O-polysaccharide moiety, were found to act more rapidly than smooth LPS types in stimulating neutrophil β₂ integrin activity and fMLP-induced respiratory burst. These findings suggest an involvement of the O-polysaccharide region of LPS in regulating neutrophil responsiveness to different LPS chemotypes with important implications for the mechanisms underlying regulation of the inflammatory response in conditions associated with elevation of LPS in plasma, e.g. septic shock or acute respiratory distress syndrome.     

鰤诺卡氏菌对大口黑鲈头肾巨噬细胞的侵染过程

【背景】鱼类诺卡氏菌病潜伏期和病程较长,感染率和死亡率较高,给水产养殖业带来较大的经济损失,其病原鰤诺卡氏菌(Nocardia seriolae)是胞内寄生菌,侵入细胞后引起慢性感染是主要的致病机制。【目的】构建鰤诺卡氏菌侵染大口黑鲈(Micropterus salmoides)头肾巨噬细胞体外模型,观察鰤诺卡氏菌侵染巨噬细胞的过程并探究鰤诺卡氏菌对巨噬细胞的凋亡作用。【方法】采用密度梯度离心法分离巨噬细胞,通过特异性染色和PCR扩增巨噬细胞表达基因mpeg1对细胞进行鉴定,并通过CCK-8法和氧呼吸暴发活性测定检测巨噬细胞的活性;通过倒置荧光显微镜和流式细胞术观察侵染过程中细菌与细胞的形态与数量变化;通过双荧光流式细胞术检测、乳酸脱氢酶(lactate dehydrogenase, LDH)释放试验及线粒体膜电位检测,探究鰤诺卡氏菌对巨噬细胞的凋亡作用。【结果】从大口黑鲈头肾分离获得纯度高的巨噬细胞,经染色和PCR法鉴定为巨噬细胞;筛选出最优的体外培养条件为1640培养基+1%青霉素链霉素+1%胎牛血清。在脂多糖刺激后,巨噬细胞的氧呼吸暴发能力显著提高(P<0.05)。GFP-鰤诺卡氏菌侵染细胞2 h后细菌被细胞吞噬,4 h细胞变圆且贴壁率降低,6 h细菌大量繁殖并包围细胞,8 h后细胞大量死亡。凋亡相关实验结果表明,侵染初期巨噬细胞凋亡率增加,LDH释放增加,线粒体膜电位下降;随着侵染时间延长,细胞凋亡率下降、LDH释放量及线粒体膜电位下降减少,说明鰤诺卡氏菌对巨噬细胞起先促进后抑制凋亡的作用。【结论】通过密度梯度离心法成功分离大口黑鲈头肾巨噬细胞,并通过鰤诺卡氏菌侵染细胞后初步摸清鰤诺卡细菌在细胞水平的致病机理,建立了鰤诺卡氏菌侵染大口黑鲈头肾巨噬细胞的体外模型;证实了鰤诺卡氏菌可侵染巨噬细胞并抑制细胞凋亡,从而达到在巨噬细胞内存活,为进一步开展鰤诺卡氏菌与巨噬细胞相互作用并阐明鰤诺卡氏菌的致病机制奠定了研究基础。     

Roles of phospholipase D in phorbol myristate acetate‐stimulated neutrophil respiratory burst

The phorbol myristate acetate (PMA) stimulated nutrophil respiratory burst has been considered to simply involve the activation of protein kinase C (PKC). However, the PLD activity was also increased by 10‐fold in human neutrophils stimulated with 100 nM PMA. Unexpectedly, U73122, an inhibitor of phospholipase C, was found to significantly inhibit PMA‐stimulated respiratory burst in human neutrophils. U73122 at the concentrations, which were sufficient to inhibit the respiratory burst completely, caused partial inhibition of the PLD activity but no inhibition on PKC translocation and activation, suggesting that PLD activity is also required in PMA‐stimulated respiratory burst. Using 1‐butanol, a PLD substrate, to block phosphatidic acid (PA) generation, the PMA‐stimulated neutrophil respiratory burst was also partially inhibited, further indicating that PLD activation, possibly its hydrolytic product PA and diacylglycerol (DAG), is involved in PMA‐stimulated respiratory burst. Since GF109203X, an inhibitor of PKC that could completely inhibit the respiratory burst in PMA‐stimulated neutrophils, also caused certain suppression of PLD activation, it may suggest that PLD activation in PMA‐stimulated neutrophils might be, to some extent, PKC dependent. To further study whether PLD contributes to the PMA stimulated respiratory burst through itself or its hydrolytic product, 1,2‐dioctanoyl‐sn‐glycerol, an analogue of DAG , was used to prime cells at low concentration, and it reversed the inhibition of PMA‐stimulated respiratory burst by U73122. The results indicate that U73122 may act as an inhibitor of PLD, and PLD activation is required in PMA‐stimulated respiratory burst.     

Leishmania donovani: Superoxide dismutase level in infected macrophages

Superoxide dismutase (SOD), a metal containing enzyme is present in parasiteLeishmania donovani as well as in host macrophages both resident and activated in a detectable amount, although the level is much higher in the latter case. It is observed that at any particular protein concentration, the SOD activity is highest in the case of parasite infected macrophages and lowest in the case of normal resident macrophages; the SOD activity of thioglycolate activated macrophages lies in between the two. It is also noticed that formalin-killedLeishmania donovani neither attach to macrophages nor do they increase the SOD activity of the host. Thus, the processes, e.g. attachment of the parasite to the host membrane, subsequent membrane perturbation and thus activation of membrane bound enzyme NADPH oxidase leading to respiratory burst, may be responsible for an enormous increase in the SOD level in macrophages during infection. Moreover, the chemical nature of the SOD found in infected macrophages has been investigated by using an inhibitor, e.g. NaCN, which specifically inhibits Cu–Zn SOD but not Fe–SOD. A considerable inhibition of SOD activity by NaCN in infected macrophages confirms the chemical nature of the increased SOD to be of Cu–Zn type, usually found in host. Presumably, Cu–Zn SOD or host SOD plays a protective role at the time of parasite infection although the role of parasitic SOD or some other mechanisms for the survival of the parasite within the toxic phagolysosome environment, of the macrophage cannot be ruled out.     

Respiratory burst responses of rat macrophages to microsporidian spores.

This study investigated the respiratory burst responses of rat resident peritoneal macrophages and of peritoneal macrophages stimulated 5 days previously with viable spores of the fish infecting microsporidian Microgemma caulleryi. Nitric oxide production by resident macrophages and prestimulated macrophages in response to viable microsporidian spores was significantly lower than in response to Escherichia coli lipopolysaccharide (LPS) (nitrite concentration in medium 57 +/- 1 microM for resident macrophages stimulated with LPS versus 31 +/- 1 microM for resident macrophages stimulated with microsporidian spores and 36 +/- 4 microM for M. caulleryi prestimulated macrophages; P < 0.05). Extracellular release of reactive oxygen species (ROS) by resident macrophages in response to microsporidian spores was similar to that in response to Kluyveromyces lactis yeast cells and to that in response to phorbol myristate (a stimulator of protein C kinase). Intracellular ROS production by resident macrophages in response to microsporidian spores was similar to that produced in response to yeast cells. Both extracellular ROS production and intracellular ROS production (in response to all stimuli) were significantly lower after in vivo prestimulation of macrophages with microsporidian spores. These results demonstrate that microsporidian spores of species other than those that habitually infect mammals are capable of modulating the respiratory burst of rat peritoneal macrophages. Such modulation may contribute to avoidance by the microsporidian of cytotoxic responses associated with the respiratory burst.     

Apolipoprotein CI enhances the biological response to LPS via the CD14/TLR4 pathway by LPS-binding elements in both its N- and C-terminal helix

Timely sensing of lipopolysaccharide (LPS) is critical for the host to fight invading Gram-negative bacteria. We recently showed that apolipoprotein CI (apoCI) (apoCI_1–57) avidly binds to LPS, involving an LPS-binding motif (apoCI_48–54), and thereby enhances the LPS-induced inflammatory response. Our current aim was to further elucidate the structure and function relationship of apoCI with respect to its LPS-modulating characteristics and to unravel the mechanism by which apoCI enhances the biological activity of LPS. We designed and generated N- and C-terminal apoCI-derived peptides containing varying numbers of alternating cationic/hydrophobic motifs. ApoCI_1–38, apoCI_1–30, and apoCI_35–57 were able to bind LPS, whereas apoCI_1–23 and apoCI_46–57 did not bind LPS. In line with their LPS-binding characteristics, apoCI_1–38, apoCI_1–30, and apoCI_35–57 prolonged the serum residence of ¹²⁵I-LPS by reducing its association with the liver. Accordingly, both apoCI_1–30 and apoCI_35–57 enhanced the LPS-induced TNFα response in vitro (RAW 264.7 macrophages) and in vivo (C57Bl/6 mice). Additional in vitro studies showed that the stimulating effect of apoCI on the LPS response resembles that of LPS-binding protein (LBP) and depends on CD14/ Toll-like receptor 4 signaling. We conclude that apoCI contains structural elements in both its N-terminal and C-terminal helix to bind LPS and to enhance the proinflammatory response toward LPS via a mechanism similar to LBP.     

Priming of the respiratory burst of bone marrow-derived macrophages is associated with an increase in protein kinase C content.

The biochemical mechanism(s) underlying the priming of the macrophage for an enhanced PMA-induced respiratory burst is not understood. Because the cellular receptor for PMA is thought to be protein kinase C (PKC), we have investigated the effects of priming agents on cellular PKC levels. Sonicates from unprimed bone marrow-derived macrophages (BMM) were found to contain PKC activity (309 +/- 51 pmol 32P-incorporated/mg/min; mean +/- SE, n = 17) as measured by the phospholipid-, diacylglycerol-, and calcium-dependent phosphorylation of histone. Exposure of BMM to priming agents such as TNF-alpha, LPS, and granulocyte/macrophage-CSF resulted in a significant increase in both histone-phosphorylating activity and levels of immunoreactive PKC protein in these cells. A minimum of 6-h exposure, with an increasing effect up to 48 h, was required for a detectable increase in PKC level. The activity from primed BMM, like that of the untreated cells, was predominantly cytosolic. The kinetics and concentration dependence of the priming agent-induced increase in the PKC content of BMM closely paralleled the enhancing effects of these agents on the PMA-stimulated respiratory burst. Furthermore, CSF-1, a cytokine that does not prime BMM, failed to increase PKC activity. We propose that the exposure of BMM to priming agents leads to an increase in the expression of a stimulatory isozyme(s) of PKC, resulting in an enhanced ability to mount a respiratory burst in response to stimulation with PMA.     

Denitrosylation of S-nitrosylated OGT is triggered in LPS-stimulated innate immune response

O-linked N-acetylglucosaminyltransferase (OGT)-mediated protein O-GlcNAcylation has been revealing various aspects of functional significance in biological processes, such as cellular signaling and activation of immune system. We found that OGT is maintained as S-nitrosylated form in resting cells, and its denitrosylation is triggered in innate immune response of lipopolysaccharide (LPS)-treated macrophage cells. S-nitrosylation of OGT strongly inhibits its catalytic activity up to more than 80% of native OGT, and denitrosylation of OGT leads to protein hyper-O-GlcNAcylation. Furthermore, blockage of increased protein O-GlcNAcylation results in significant loss of nitric oxide and cytokine production. We propose that denitrosylation of S-nitrosylated OGT is a direct mechanism for upregulation of OGT activity by which immune defense is critically controlled in LPS-stimulated innate immune response.     

Studies on the inactivation of superoxide dismutase activity by nitric oxide from rat peritoneal macrophages

Rat peritoneal macrophages stimulated with lipopolysaccharide (LPS) and Phorbol myristate acetate (PMA) generated increased levels of superoxide anions (O2ú-) by 122% as compared to those stimulated with PMA alone. However, Nitric oxide (NO) synthase inhibitors-n-monomethyl arginine (nMMA) or spermine-HCI lowered the enhanced levels of O2ú- released by LPS treated macrophages. The Superoxide dismutase (SOD) activity in LPS treated macrophages was 51% lower than that observed in resident cells. NO synthase inhibitors prevented the loss of SOD activity in LPS treated cells. Exogenously added SOD during sensitization of cells with LPS also inactivated the enzyme. This inactivation of SOD is inhibited by Nitric oxide synthase inhibitors. PMA alone did not affect SOD activity. NO synthase inhibitors also did not affect PMA activated superoxide anion generation in macrophages. These studies indicate that nitric oxide generated by LPS treated macrophages can inactivate SOD activity.     

The in vitro anti-platelet,antioxidant and cellular immunity activity of <Emphasis Type="Italic">Phellinus gilvus</Emphasis> fractional extracts

The in vitro anti-platelet and antioxidant activities of various solvent extracts from Phellinus gilvus (PG), and the effects of hot water extract from PG (PGW) on murine cellular immunity were investigated. Chloroform extract (CE), methanol extract (ME) and butanol extract (BE) from PG could significantly inhibit platelet aggregation induced by thrombin. Ethyl acetate extract (EAE), BE, ME from PG had significant 2,2-diphenyl-1-picrylhydrazyl (DPPH) scavenging activity compared with the control, and the EAE showed the highest effect with IC₅₀ values of 13.34 μg/ml, which is higher than that of ascorbic acid (40 μg/ml). In addition, EAE displayed the inhibition of xanthine oxidase (XO) activity with IC₅₀ value of 2.45 μg/ml. As to the cellular immunity activity, PGW could enhance both the lipopolysaccharide (LPS)-induced B lymphocyte proliferation and concanavalin A (Con A)-induced T lymphocyte proliferation in vitro. The phagocytosis of both peritoneal macrophages and RAW264.7 macrophage cells were also increased by the addition of PGW. Moreover, PGW was found to inhibit the nitric oxide (NO) production of RAW264.7 macrophages induced by LPS in a concentration-dependant manner.     

Detecting genotoxic effects of potential clastogens: An in vivo study using the transgenic lacZ plasmid and the Muta™Mouse model

In the present paper the capacity of the pUR288 plasmid mouse model and the Muta™Mouse model to detect the clastogens bleomycin, m-AMSA, o-AMSA and camptothecin, was investigated. Ethylnitrosourea (ENU) served as a positive control, methylcellulose as a negative control. Only bleomycin induced a slight but significant increase in lacZ mutant frequency (MF) in bone marrow of pUR288 plasmid mice. Exposure to the other compounds did not result in an increase in the MF in bone marrow and liver in both mouse models. For the Muta™Mouse this result was expected, for the plasmid mouse an increase in MF after clastogen exposure was expected. The positive control ENU induced statistically significant increases in MF compared with the negative control in both models and in both tissues analyzed. Hybridisation of DNA of mutant colonies derived from plasmid mice with labelled total mouse DNA (Hybridisation Assay) demonstrated an increase in the percentage of colonies hybridised with total mouse DNA as compared with the negative control, which suggests that there was indeed a biological response associated with treatment. The latter results indicate that the plasmid mouse assay may still be a promising model for the detection of clastogens.     

Innate immune response and disease resistance in Carassius auratus by triherbal solvent extracts

This study reports the effect of aqueous, ethanol and methanol triherbal solvent extract from Azadirachta indica, Ocimum sanctum and Curcuma longa on innate immune mechanisms such as phagocytosis activity, respiratory burst activity, alternative complement activity and lysozyme activity and disease resistance in goldfish (Carassius auratus) against Aeromonas hydrophila. Fish were intraperitoneally injected with different doses of 0, 5, 50 and 100 mg kg⁻¹ body weight of each triherbal solvent extracts. The functional immunity in terms of percentage mortality and Relative Percent Survival (RPS) and innate immune response was assessed on week 1, 2 and 4 by challenging with live A. hydrophila (1 × 10⁷ cells ml⁻¹). All the chosen innate immune parameters were enhanced in the ethanol and methanol triherbal solvent extract treatment after week 2. However, the aqueous triherbal extract was enhanced only after week 4. The ethanol and methanol triherbal solvent extracts administration preceding the challenge with live A. hydrophila decreased the percentage mortality in the experimental groups with the consequence increase in RPS values. The study indicates that all the doses of ethanol or methanol triberbal solvent extracts could be positively influence the immune response and protect the heath status of goldfish against A. hydrophila infection.     

Activation of Olfactory Receptors on Mouse Pulmonary Macrophages Promotes Monocyte Chemotactic Protein-1 Production

Background

Emerging evidence suggests that non-olfactory tissues and cells can express olfactory receptors (ORs), however, the exact function of ectopic OR expression remains unknown. We have previously shown in mouse models that a unique cooperation between interferon-γ (IFN-γ) and lipopolysaccharide (LPS) drives the activation of pulmonary macrophages and leads to the induction of pathogenic responses in the respiratory tract. Further, through gene array studies, we have shown that activation of macrophages by these molecules results in the selective expression of a number of ORs. In this study, we validated the expression of these ORs in mouse airway and pulmonary macrophages in response to IFN-γ and LPS (γ/LPS) stimulation, and further explored the effect of odorant stimulation on macrophage function.

Methodology/Principal Findings

OR expression in airway and pulmonary macrophages in response to IFN-γ, LPS or γ/LPS treatments was assessed by microarray and validated by q-PCR. OR expression (e.g. OR622) on macrophages was confirmed by visualization in immunofluoresence assays. Functional responses to odorants were assessed by quantifying inflammatory cytokine and chemokine expression using q-PCR and cell migration was assessed by a modified Boyden chamber migration assay. Our results demonstrate that eight ORs are expressed at basal levels in both airway and pulmonary macrophages, and that γ/LPS stimulation cooperatively increased this expression. Pulmonary macrophages exposed to the combined treatment of γ/LPS+octanal (an odorant) exhibited a 3-fold increase in MCP-1 protein production, compared to cells treated with γ/LPS alone. Supernatants from γ/LPS+octanal exposed macrophages also increased macrophage migration in vitro.

Conclusions/Significance

Eight different ORs are expressed at basal levels in pulmonary macrophages and expression is upregulated by the synergistic action of γ/LPS. Octanal stimulation further increased MCP-1 production and the motility of macrophages. Our results suggest that ORs may mediate macrophage function by regulating MCP-1 production and cell migration.