Unopsonized Zymosan Research Articles

Non-invasive and accurate readout of superoxide anion in biological systems by near-infrared light

Infectious and inflammatory diseases involve superoxide anion (O2•–) production. Real-time and non-invasive evaluation of O2•– in intact biological systems has been a significant challenge in biology and medicine. Here, I report that an advanced near-infrared chemiluminescent probe, MCLA-800, enables reliable non-invasive optical readout of O2•–ex vivo and in vivo. MCLA-800 allowed highly selective and sensitive monitoring of O2•– in undiluted human whole blood ex vivo. For the first time, the use of MCLA-800 revealed two reproducible types of O2•– production in response to stimulation by unopsonized zymosan particles of Saccharomyces cerevisiae, that is, slow response (S-type) and fast response (F-type), specific to each individual. O2•– production was synchronized with myeloperoxidase (MPO) activation in the former type but not in the latter. Moreover, as new findings, MCLA-800 chemiluminescence demonstrated that the chemiluminescence intensity–time properties of formyl-methionyl-leucyl-phenylalanine (fMLP)- or phorbol 12-myristate 13-acetate (PMA)-induced O2•– production and MPO activity were independent of S- and F-type zymosan-induced MCLA-800 chemiluminescence whole blood and that PMA-induced MPO activation synchronized with PMA-induced O2•– production in S- and F-type zymosan-induced MCLA-800 chemiluminescence whole blood, but fMLP-induced MPO activation did not synchronize with fMLP-induced O2•– production in both of S- and F-type blood. Furthermore, MCLA-800 spatiotemporally allowed non-invasive and clear in vivo imaging of O2•– in animal models of acute dermatitis and focal arthritis. Therefore, MCLA-800 could be possibly applied in various advanced diagnostic techniques.

Lipopolysaccharide-mediated enhancement of zymosan phagocytosis by RAW 264.7 macrophages is independent of opsonins, laminarin, mannan, and complement receptor 3

BackgroundFungal and bacterial coinfections are common in surgical settings; however, little is known about the effects of polymicrobial interactions on the cellular mechanisms involved in innate immune recognition and phagocytosis. Materials and methodsZymosan particles, cell wall derivatives of the yeast Saccharomyces cerevisiae, are used to model fungal interactions with host immune cells since they display carbohydrates, including beta-glucan, that are characteristic of fungal pathogens. Using in vitro cell culture, RAW 264.7 macrophages were challenged with zymosan, and phagocytosis determined via light microscopy. The effects of different concentrations of lipopolysaccharide (LPS) on zymosan phagocytosis were assessed. In addition, the transfer of supernatant from LPS-treated cells to naïve cells, the effects of soluble carbohydrates laminarin, mannan, or galactomannan, and the impact of complement receptor 3 (CR3) inhibition on phagocytosis were also determined. ResultsLPS enhanced phagocytosis of zymosan in a dose-dependent manner. Transfer of supernatants from LPS-primed cells to naïve cells had no effect on phagocytosis. Laminarin inhibited zymosan phagocytosis in naïve cells but not in LPS-primed cells. Neither mannan, galactomannan, nor CR3 inhibition had a significant effect on ingestion of unopsonized zymosan in naïve or LPS-treated cells. ConclusionsZymosan recognition by naïve cells is inhibited by laminarin, but not mannan, galactomannan, or CR3 inhibition. LPS enhancement of phagocytosis is laminarin insensitive and not mediated by supernatant factors or zymosan engagement by the mannose or CR3 receptors. Our data suggest alternative mechanisms of zymosan recognition in the presence and absence of LPS.

Acute-phase concentrations of soluble fibrinogen inhibit neutrophil adhesion under flow conditions in vitro through interactions with ICAM-1 and MAC-1 (CD11b/CD18)

Immobilized fibrinogen and fibrin facilitate leukocyte adhesion, as they are potent ligands for leukocyte MAC-1 (CD11b/CD18). However, fibrinogen in its soluble form also binds to MAC-1, albeit with low affinity. The level of soluble fibrinogen is increased during chronic and acute inflammation, but the function of this increase is unknown. To study the effect of soluble fibrinogen in concentrations found in severe acute inflammation on leukocyte adhesion. Isolated leukocytes and soluble fibrinogen were studied in various in vitro settings under static and under flow conditions. Soluble fibrinogen functioned as a natural antagonist of neutrophil functions that are dependent on MAC-1, such as the respiratory burst induced by unopsonized zymosan and adhesion to ICAM-1 and heparin. In addition, soluble fibrinogen inhibited lymphocyte function-associated antigen 1-dependent lymphocyte binding to ICAM-1 through a direct interaction with ICAM-1. Soluble fibrinogen reduced MAC-1-dependent binding of interleukin-8-activated neutrophils to ICAM-1-expressing cells under flow conditions. Importantly soluble fibrinogen in acute-phase concentrations (4-10 mg mL(-1) ) dose-dependently reduced neutrophil firm adhesion to tumor necrosis factor-α-activated endothelium to 40% under flow conditions. We propose a model in which the increased circulating concentrations of soluble fibrinogen found during the acute-phase response can act as a natural antagonist of leukocyte recruitment, and therefore might contribute to the resolution of inflammation.

Immunostimulatory Application of a Novel Polysaccharide from Tinospora cordifolia for Treatment of Human Malignancies

Conventional drug discovery programs involve a considerable amount of time and resources, which often precludes success in many cases. We rely heavily on ethnobotany and evochemistry to identify potential drug candidates. We have isolated and characterized an α-D-glucan (RR1), comprised of (1–4) linked back bone and (1–6) linked branches with a molecular mass of 550 kDa from the medicinal plant Tinospora cordifolia. RR1 activates natural killer (331%), T -(102%) and B-cells (30%) at 100µg/ml concentration. Immune activation by RR1 in lymphocytes elicited the synthesis of cytokines and chemokines, often altering the ratio and onset of pro- and anti-inflammatory cytokines. The cytokine profile demonstrated the Th1 pathway of T-helper cell differentiation essential for cell-mediated immunity with a self-regulatory mechanism for the control of its overproduction. RR1 inhibited the phagocytosis of unopsonized zymosan A bioparticles in a dose-dependent manner in macrophages. RR1 activated NF-κB in a time- and dose-dependent manner and this modulation is associated with degradation of I-κB-α thus facilitating the translocation of NF-κB into the nucleus. RR1-induced NF-κB activity peaked at 8h with I-κB alpha degradation occurring at 1h of stimulation. RR1-induced NF-κB activation occurred through TLR6 signaling as evidenced by the synthesis of IL-8 in TLR6-transfected HEK293 cells. RR1 treatment yielded significantly improved survival in mice with Ehrlich ascites tumor grafts compared to saline control with the 10mg/kg RR1 + 2mg/kg doxorubicin group showing the maximum survival. These results indicated the potential use of RR1 as an adjuvant for cancer chemotherapy.

Modulation of peritoneal macrophage activity by the saturation state of the fatty acid moiety of phosphatidylcholine

To determine the effects of saturated and unsaturated fatty acids in phosphatidylcholine (PC) on macrophage activity, peritoneal lavage cells were cultured in the presence of phosphatidylcholine rich in saturated or unsaturated fatty acids (sat PC and unsat PC, respectively), both used at concentrations of 32 and 64 microM. The treatment of peritoneal macrophages with 64 microM unsat PC increased the production of hydrogen peroxide by 48.3% compared to control (148.3 +/- 16.3 vs 100.0 +/- 1.8%, N = 15), and both doses of unsat PC increased adhesion capacity by nearly 50%. Moreover, 64 microM unsat PC decreased neutral red uptake by lysosomes by 32.5% compared to the untreated group (67.5 +/- 6.8 vs 100.0 +/- 5.5%, N = 15), while both 32 and 64 microM unsat PC decreased the production of lipopolysaccharide-elicited nitric oxide by 30.4% (13.5 +/- 2.6 vs 19.4 +/- 2.5 microM) and 46.4% (10.4 +/- 3.1 vs 19.4 +/- 2.5 microM), respectively. Unsat PC did not affect anion production in non-stimulated cells or phagocytosis of unopsonized zymosan particles. A different result pattern was obtained for macrophages treated with sat PC. Phorbol 12-miristate 13-acetate-elicited superoxide production and neutral red uptake were decreased by nearly 25% by 32 and 64 microM sat PC, respectively. Sat PC did not affect nitric oxide or hydrogen peroxide production, adhesion capacity or zymosan phagocytosis. Thus, PC modifies macrophage activity, but this effect depends on cell activation state, fatty acid saturation and esterification to PC molecule and PC concentration. Taken together, these results indicate that the fatty acid moiety of PC modulates macrophage activity and, consequently, is likely to affect immune system regulation in vivo.

Enhanced generation of reactive oxygen species in monocytes from patients with common variable immunodeficiency.

Monocyte and macrophage dysfunction may be important for both immunopathogenesis and clinical manifestations in subgroups of patients with primary hypogammaglobulinaemia. In the present study we examined the ability to generate reactive oxygen species (ROS) in isolated monocytes from these patients by two different methods: superoxide dismutase (SOD) inhibitable cytochrome c reduction by O2- and nitroblue tetrazolium (NBT) reduction. Monocyte from patients with common variable immunodeficiency (CVI) demonstrated significantly enhanced ROS generation both unstimulated and stimulated (unopsonized zymosan and phorbol myristate acetate (PMA)). The enhanced oxidative burst response in CVI patients was found both with and without serum containing medium. Furthermore, serum from CVI patients did significantly enhance the oxidative burst response in monocytes from healthy blood donors compared with the effect of control serum. The enhanced ROS generation in CVI patients was significantly correlated with elevated serum levels of neopterin, reduced numbers of CD4+ lymphocytes in peripheral blood and occurrence of splenomegaly. In contrast to the CVI group, monocytes from patients with X-linked agammaglobulinaemia (XLA) did not show enhanced ROS generation. The increased oxidative burst response in monocytes from CVI patients most probably reflects in vivo activation of these cells. Our observations indicate the presence of a subgroup of CVI patients characterized by chronic immune activation particularly of monocytes. The enhanced ROS generation might be involved in immunopathogenesis (e.g. T cell dysfunction) and in the pathogenesis of clinical manifestations (e.g. malignancies and autoimmune disorders) in these patients.

Natural history and early diagnosis of LAD-1/variant syndrome

AbstractThe syndrome of leukocyte adhesion deficiency (LAD) combined with a severe Glanzmann-type bleeding disorder has been recognized as a separate disease entity. The variability in clinical and cell biological terms has remained largely unclear. We present data on 9 cases from 7 unrelated families, with 3 patients being actively followed for more than 12 years. The disease entity, designated LAD-1/variant syndrome, presents early in life and consists of nonpussing infections from bacterial and fungal origin, as well as a severe bleeding tendency. This is compatible with 2 major blood cell types contributing to the clinical symptoms (ie, granulocytes and platelets). In granulocytes of the patients, we found adhesion and chemotaxis defects, as well as a defect in NADPH oxidase activity triggered by unopsonized zymosan. This last test can be used as a screening test for the syndrome. Many proteins and genes involved in adhesion and signaling, including small GTPases such as Rap1 and Rap2 as well as the major Rap activity-regulating molecules, were normally present. Moreover, Rap1 activation was intact in patients' blood cells. Defining the primary defect awaits genetic linkage analysis, which may be greatly helped by a more precise understanding and awareness of the disease combined with the early identification of affected patients.

Mechanism of Immune System Activation by (1,4)-α-D-glucan Isolated from Tinospora cordifolia in Macrophages.

We have characterized and reported the immunostimulating properties of a novel polysaccharide - (1,4)-α-D-glucan (RR1)- isolated from the medicinal plant Tinospora cordifolia [23]. This novel glucan is water soluble and having (1, 4)-α-D-glycosidic linkages in the main chain and (1, 6)-α-D-glycosidic linked side chains at an interval of 6, 7 glucose units. The signaling mechanism of the novel (1,4)-a-D-glucan (RR1) was investigated in macrophages to evaluate its immunostimulating properties. When RAW264.7 macrophages were incubated with RR1 at 4°C, the novel glucan inhibited the phagocytosis of unopsonized zymosan A bioparticles in a dose-dependent manner. RR1 also inhibited the binding and internalization of opsonized zymosan A bioparticles, although at a lower level than laminarin. Incubation of macrophages with anti-CD11b mAb followed by RR1 failed to show any inhibitory effect on RR1-induced TNF-α synthesis confirming that complement receptor 3 (CR3) is not involved in the opsonic binding and internalization of RR1 in macrophages unlike zymosan A. The anti-CD11b mAb has significant inhibitory effect on the zymosan A-induced tumor necrosis factor (TNF)-α synthesis. RR1 induced TNF-α synthesis in macrophages in a dose-dependent manner which can be completely inhibited by the NF-κB inhibitor caffeic acid phenethyl ester (CAPE) or curcumin. RR1 activated NF-κB in a time- and dose-dependent manner and this modulation of nuclear NF-κB activity is associated with the degradation of I-κB a thus facilitating the translocation of NF-κB into the nucleus. RR1-induced NF-κB activity peaks at 8 h of RR1 stimulation while I-κB a degradation occurred within 1 h of stimulation. RR1-induced NF-κB activation occurred through TLR6 signaling as evidenced by the synthesis of IL-8 in TLR6-transfected HEK293 cells. These results show that the novel (1,4)-α-D glucan from Tinospora cordifolia activates the immune system through the activation of macrophages that occurs through TLR6 signaling, NF-κB translocation and cytokine production. (Supported by Miami Children's Hospital Foundation research funds).

Mechanism of macrophage activation by (1,4)-α- d-glucan isolated from Tinospora cordifolia

The signaling mechanism of the novel (1,4)-α- d-glucan (RR1) isolated from the medicinal plant Tinospora cordifolia was investigated in macrophages to evaluate its immunostimulating properties. When RAW264.7 macrophages were incubated with RR1 at 4 °C, the novel glucan inhibited the phagocytosis of unopsonized zymosan A bioparticles in a dose-dependent manner. RR1 also inhibited the binding and internalization of opsonized zymosan A bioparticles, although at a lower level than laminarin. Incubation of macrophages with anti-CD11b mAb followed by RR1 failed to show any inhibitory effect on RR1-induced TNF-α synthesis confirming that complement receptor 3 (CR3) is not involved in the opsonic binding and internalization of RR1 in macrophages unlike zymosan A. The anti-CD11b mAb has significant inhibitory effect on the zymosan A-induced tumor necrosis factor (TNF)-α synthesis. RR1 induced TNF-α synthesis in macrophages in a dose-dependent manner which can be completely inhibited by the NF-κB inhibitor caffeic acid phenethyl ester (CAPE) or curcumin. RR1 activated NF-κB in a time- and dose-dependent manner and this modulation of nuclear NF-κB activity is associated with the degradation of I-κB α thus facilitating the translocation of NF-κB into the nucleus. RR1-induced NF-κB activity peaks at 8 h of RR1 stimulation while I-κB α degradation occurred within 1 h of stimulation. RR1-induced NF-κB activation occurred through TLR6 signaling as evidenced by the synthesis of IL-8 in TLR6-transfected HEK293 cells. These results show that the novel (1,4)-α- d-glucan from Tinospora cordifolia activates the immune system through the activation of macrophages that occurs through TLR6 signaling, NF-κB translocation and cytokine production.

HUVEC take up opsonized zymosan particles and secrete cytokines IL-6 and IL-8 in vitro

Uptake of zymosan A particles by human umbilical vein endothelial cells (HUVEC) and its effect on cellular cytokine and oxygen radical production was examined. HUVEC took up more serum-opsonized than -unopsonized zymosan as demonstrated by flow cytometry with fluorescence-labeled particles. The former uptake was inhibited in the presence of anti-C3c antibodies and thus complement-mediated. It probably occurred via CR1 (CD35), although participation of other receptors cannot be ruled out. Scanning electron microscopy indicated that HUVEC with fully internalized zymosan particles were damaged. Prolonged incubation of both serum-opsonized and -unopsonized zymosan particles with HUVEC induced increased secretion of the proinflammatory cytokines IL-6 and IL-8 to the cell culture supernatants, but had no effect on production of oxygen radicals. The results confirm previous reports that EC can internalize yeast and other pathogens and points to complement as a mechanism of uptake, but illustrates that the cells may be damaged in the process. Moreover, EC may participate in the anti-infection defense effort by secreting proinflammatory and chemotactic cytokines in response to the contact with pathogens.

Modulation of haem oxygenase-1 expression by nitric oxide and leukotrienes in zymosan-activated macrophages.

Phagocytosis of unopsonized zymosan by RAW 264.7 macrophages upregulated protein expression of haem oxygenase-1 (HO-1), inducible nitric oxide synthase (iNOS) and cyclo-oxygenase-2 (COX-2) in a time- and concentration-dependent manner. In the presence of zymosan, exogenous prostaglandin E(2) (PGE(2)) did not exert significant effects on the expression of these three enzymes. In contrast, exogenous leukotriene B(4) (LTB(4)) and LTC(4) in the nanomolar range inhibited HO-1 and iNOS expression, as well as nitrite accumulation. The COX inhibitors indomethacin and NS398 weakly inhibited HO-1 expression but had no effect on iNOS and COX-2 expression or nitrite. In contrast, the 5-lipoxygenase (5-LO) inhibitor ZM 230,487 significantly decreased HO-1, iNOS and nitrite, which were not affected by zileuton. Dexamethasone showed an inhibitory effect on HO-1 expression induced by zymosan. ZM 230,487 but not zileuton, inhibited the shift due to nuclear factor-kappaB (NF-kappaB), whereas they did not modify activator protein-1 (AP-1) binding. Our results suggest that inhibition of NF-kappaB binding could mediate the effects of ZM 230,487 on the modulation of HO-1 and iNOS protein expression. NOS inhibition by L-N(G)-nitroarginine methyl ester (L-NAME) or 1400 W abolished nitrite production and strongly reduced HO-1 expression. These results show an induction of HO-1 protein expression by zymosan phagocytosis in macrophages, with a positive modulatory role for endogenous NO and a negative regulation by exogenous LTs, likely dependent on the reduction of iNOS expression and NO production.

Opsonophagocytosis versus lectinophagocytosis in human milk macrophages.

Some important immunoprotective effects of human breast milk have been attributed to the presence of macrophages. We investigated the generation of superoxide anion (O2-) by monocytes and human milk macrophages after stimulation with opsonized and unopsonized zymosan in the absence and presence of mannose as an inhibitor to investigate lectinophagocytic and opsonophagocytic properties. Peripheral blood monocytes generated more O2- than human milk macrophages (417,4 + 79,1 nmol O2-/mg protein vs. 216,1 +/-15,1 nmol O2-/mg protein, p<0,05) after stimulation with opsonized zymosan. When unopsonized zymosan was used as a serum-independent stimulus monocytes generated slightly less O2- in comparison to human milk macrophages (150,8 +/- 34,5 nmol/mg protein vs. 176,1 +/- 18 nmol O2-/mg protein, p<0,05). These findings demonstrate that the proportion of opsonin-independent phagocytosis in human milk macrophages is higher than in monocytes (82% vs. 36%). When mannose was used as an inhibitor a significantly higher reduction of O2- generation occurred in human milk macrophages compared to monocytes stimulated with opsonized zymosan, whereas no difference was found when unopsonized zymosan was used. These results indicate that human milk macrophages are stimulated to a greater extent by opsonin-independent mechanisms than blood borne monocytes. As the colostrum and the intestinal environment of the neonate offers only a little amount of opsonins like complement and immunoglobulin G, such a differentiation to lectinophagocytic properties could bear a great advantage for protective functions of human milk macrophages.

Phagocytic and macropinocytic activity in MARCKS-deficient macrophages and fibroblasts.

Macrophages express high levels of the myristoylated, alanine-rich, C kinase substrate (MARCKS), an actin cross-linking protein. To investigate a possible role of MARCKS in macrophage function, fetal liver-derived macrophages were generated from wild-type and MARCKS knockout mouse embryos. No differences between the wild-type and MARCKS-deficient macrophages with respect to morphology (Wright's stain) or actin distribution (staining with rhodamine-phalloidin, under basal conditions or after treatment with phorbol esters, lipopolysaccharide, or both) were observed. We then evaluated phagocytosis mediated by different receptors: Fc receptors tested with IgG-coated sheep red blood cells, complement C3b receptors tested with C3b-coated yeast, mannose receptors tested with unopsonized zymosan, and nonspecific phagocytosis tested with latex beads. We also studied fluid phase endocytosis in macrophages and mouse embryo fibroblasts by using FITC-dextran to quantitate this process. In most cases, there were no differences between the cells derived from wild-type and MARCKS-deficient mice. However, a minor but significant and reproducible difference in rates of zymosan phagocytosis at 45-60 min was observed, with lower rates of phagocytosis in the MARCKS-deficient cells. Our data indicate that MARCKS deficiency may lead to slightly decreased rates of zymosan phagocytosis.

Effect of Cytotoxic Necrotizing Factor-1 on Actin Cytoskeleton in Human Monocytes: Role in the Regulation of Integrin-Dependent Phagocytosis

Cytotoxic necrotizing factor-1 (CNF1) is isolated from pathogenic strains of Escherichia coli and catalyzes the activation of Rho GTPases by the deamidation of a glutamine residue. This toxin induces stress fiber formation, cell spreading, and membrane folding and promotes phagocytosis competence in epithelial cells. We show that CNF1 induces morphologic changes in monocytic cells: polarized-like shape in THP-1 cells, lamellipodia, and cell spreading in adherent monocytes. CNF1 also increased filamentous actin (F-actin) content in a time- and dose-dependent manner. In addition, the toxin profoundly reorganized the actin cytoskeleton: redistribution of F-actin in polarized deformations of THP-1 cells and disorganization of microfilament network in monocytes. We also studied the effects of CNF1 on phagocytosis. It markedly impaired the ingestion of unopsonized zymosan involving CR type 3. However, CNF1 had no effect on the uptake of iC3b-coated zymosan or IgG-mediated phagocytosis of SRBC. In addition, CNF1 induced clustering of CR3 and Fc gammaRII (CD32) but selectively impaired the colocalization of CR3 with F-actin. It is likely that CNF1-induced reorganization of actin cytoskeleton down-modulates integrin activation-dependent phagocytosis by preventing the codistribution of CR3 with F-actin. CNF1 may control some features of integrin-dependent phagocytosis in myeloid cells through its action on Rho GTP binding proteins and cytoskeletal organization.

Increased adhesion of peripheral blood neutrophils from patients with localized juvenile periodontitis.

Adhesion of peripheral blood neutrophils from 5 patients with localized juvenile periodontitis (LJP) and age- and gender-matched healthy controls was measured using a semi-automated 96-well microtiter plate assay method. Both unstimulated and formyl-methionyl-leucyl-phenylalanine (FMLP, 10-1000 nM)-stimulated neutrophils from LJP patients showed in general higher adhesion than did their controls. After 15-60 min incubation with 100 and 1000 nM FMLP the numbers of adherent cells were significantly (p < 0.05), 2.1-2.6-fold higher in LJP patients than in controls. Neutrophils from these LJP patients showed also enhanced respiratory burst activity in response to unopsonized zymosan stimulation. To test whether a decrease in intracellular diacylglycerol (DAG) kinase activity could account for the increased neutrophil adhesion of LJP patients normal neutrophils were treated with R59949 (10 microM), a DAG-kinase inhibitor. Both unstimulated and FMLP-stimulated normal neutrophils showed significantly (p < 0.05) enhanced adhesion after R59949-treatment. Taken together, our data indicate that neutrophils from the 5 LJP patients investigated here exhibit 2 parallel hyperactivities, namely increased adhesion and enhanced production of reactive oxygen species. Furthermore, our present and previous (Hurttia et al., J Periodont Res 1997; 32: 401-407) results suggest that the observed neutrophil functional abnormalities in some LJP patients may be associated with decreased cellular DAG-kinase activity. It is proposed that the hyperadherent and -active neutrophils may promote the development of LJP by causing tissue damage in the periodontium.

Increased adhesion of peripheral blood neutrophils from patients with localized juvenile periodontitis

Adhesion of peripheral blood neutrophils from 5 patients with localized juvenile periodontitis (LJP) and age‐ and gender‐matched healthy controls was measured using a semi‐automated 96‐well microtiter plate assay method. Both unstimulated and formyl‐methionyl‐leucyl‐phenylalanine (FMLP, 10‐1000 nM)‐stimulated neutrophils from LJP patients showed in general higher adhesion than did their controls. After 15‐60 min incubation with 100 and 1000 nM FMLP the numbers of adherent cells were significantly (p&lt;0.05), 2.1‐2.6‐fold higher in LJP patients than in controls. Neutrophils from these LJP patients showed also enhanced respiratory burst activity in response to unopsonized zymosan stimulation. To test whether a decrease in intracellular diacylglycerol (DAG) kinase activity could account for the increased neutrophil adhesion of LJP patients normal neutrophils were treated with R59949 (10 μm), a DAG‐kinase inhibitor. Both unstimulated and FMLP‐stimulated normal neutrophils showed significantly (p&lt;0.05) enhanced adhesion after R59949‐treatment. Taken together, our data indicate that neutrophils from the 5 LJP patients investigated here exhibit 2 parallel hyperactivities, namely increased adhesion and enhanced production of reactive oxygen species. Furthermore, our present and previous (Hurttia et al., J Periodont Res 1997; 32: 401‐407) results suggest that the observed neutrophil functional abnormalities in some LJP patients may be associated with decreased cellular DAG‐kinase activity. It is proposed that the hyperadherent and ‐active neutrophils may promote the development of LJP by causing tissue damage in the periodontium.

Inhalation of Toluene Diisocyanate Is Associated with Increased Production of Nitric Oxide by Rat Bronchoalveolar Lavage Cells

Isocyanates are used commercially, particularly in the manufacture of polyurethane coatings and foam. These compounds can pose an occupational health hazard since there is a risk of respiratory disease following isocyanate exposure. The purpose of the present study was to investigate whether a single, sublethal isocyanate inhalation is associated with increased production of the free radical nitric oxide (NO). Mature male Sprague–Dawley rats were exposed to air or toluene diisocyanate (TDI; 2 ppm) for 4 hr. Indices of pulmonary function were assessed before and after exposure to TDI fumes. At 20 hr postexposure, bronchoalveolar lavage cells (BALC) and fluid were harvested. NO synthase (NOS)-dependent reactive species production by alveolar macrophages was assessed by determiningNω-nitro-l-arginine methyl ester-inhibitable chemiluminescence following stimulation with unopsonized zymosan. Northern blot analysis was used to index inducible NOS mRNA levels in BALC, while nitrite and nitrate (NOx) levels were measured to determine NOxlevels in the lavage fluid and the production of NO by cultured adherent BALC was indexed by measuring nitrite levels. Exposure to aerosolized TDI was associated with an increase in the number of alveolar macrophages, lymphocytes, and polymorphonuclear leukocytes harvested by bronchoalveolar lavage, relative to that from air-exposed rats. NOxlevels in the lavage fluid and NOS-dependent production of reactive species by alveolar macrophages were increased following TDI exposure. In addition, inducible NO production by BALC (i.e., mRNA levels and nitrite levels in BALC conditioned media) was elevated following TDI treatment. These findings indicate that pulmonary inflammatory responses induced by TDI exposure are associated with increases in inducible NO production. Therefore, the potential role of NO in the initial pulmonary response to TDI exposure warrants further investigation.

P-selectin regulates platelet-activating factor synthesis and phagocytosis by monocytes.

Adhesion molecules on endothelial cells or platelets may regulate localization and activation of leukocytes at sites of tissue injury, infection, or thrombosis. In these studies, we found that human peripheral blood monocytes adhered specifically to immobilized P-selectin (CD62P), Chinese hamster ovary cells transfected with a cDNA for P-selectin, or endothelial cells stimulated to express P-selectin on the cell surface. P-selectin did not directly stimulate synthesis of the lipid autoacoid platelet-activating factor (PAF); however, incubation on immobilized P-selectin primed monocytes for increased synthesis of PAF in response to opsonized zymosan particles. P-selectin did not stimulate increased surface expression of integrin CD11b/CD18 and did not enhance binding of iC3b-coated erythrocytes, a CD11b/CD18-mediated functional response. P-selectin increased PAF production by monocytes incubated with unopsonized zymosan particles that stimulate this response by interaction with the beta-glucan receptor. Further, phagocytosis of unopsonized zymosan particles, another response triggered by the beta-glucan receptor, was increased following the adherence of monocytes to P-selectin. These data suggested that P-selectin primed monocytes for increased PAF synthesis through regulation of the beta-glucan receptor or regulation of signal transduction mechanisms that are linked to the receptor. P-selectin expressed on endothelial cells or platelets may serve both to localize monocytes at sites of vascular inflammation or thrombosis and to prime the cells for subsequent responses that augment inflammation.

Effects of Dietary Lipid Manipulation upon Inflammatory Mediator Production by Murine Macrophages

This study investigated the effects of feeding mice lipids with different fatty acid compositions upon the ability of stimulated macrophages to produce inflammatory mediators. Weanling mice were fed for 8 weeks on a low-fat (LF; 2.5% by weight) diet or on diets containing 20% by weight of hydrogenated coconut oil (HCO), olive oil (OO), safflower oil (SO), or menhaden (fish) oil (MO). Thioglycollate-elicited peritoneal macrophages were isolated. Macrophages isolated from MO-fed mice produced less PGE2, 6-keto-PGF1a, TXB2, and interleukin-6 in response to lipopolysaccharide (LPS) stimulation than those from mice fed each of the other diets. Macrophages from mice fed the OO, SO, or MO diets produced less tumor necrosis factor a in response to LPS stimulation than those from mice fed the LF or HCO diets. There was no effect of dietary lipid manipulation upon the production of interleukin-1 by LPS-stimulated macrophages. Macrophages from mice fed the MO diet produced more superoxide and hydrogen peroxide in response to phorbol ester stimulation than those from mice fed each of the other diets. In response to unopsonized zymosan, macrophages from mice fed the SO or MO diets produced more hydrogen peroxide than macrophages from mice fed the other diets. LPS-stimulated nitric oxide production was greater from macrophages from OO-, SO-, or MO- fed mice than from those fed the LF or HCO diets. Thus, the nature of the lipid consumed in the diet has significant effects upon the production of a variety of inflammatory mediators by macrophages. The most potent effect is caused by fish oil consumption. Possible mechanisms by which dietary fatty acids, particularly the n-3 polyunsaturated fatty acids found in fish oils, could affect mediator production by macrophages are described. The clinical relevance of such effects is discussed.

P-selectin interacts with a beta 2-integrin to enhance phagocytosis.

P-selectin is an adhesion molecule for myeloid cells that seems to be essential for the development of cellular inflammatory responses. We show that adhesion of neutrophils to purified and recombinant P-selectin enhances the phagocytosis of unopsonized zymosan particles as judged by the number of cells ingesting particles (30.2 +/- 5.8 vs 14.5 +/- 4.0, p = 0.002) and the number of particles ingested per cell (percentage increase 58.3 +/- 4.4%. p = 0.0002). The enhanced phagocytosis was inhibited by Abs to CD18 or CD11b, suggesting that P-selectin alters beta 2-integrin function. The enhancement was only seen in the presence of cations allowing the integrin to assume a particular extracellular conformation. Furthermore, P-selectin, although not altering the total expression of CD18 on neutrophils, significantly increased the binding of mAb 24, which detects an activation-dependent epitope. Our results support a signaling role for P-selectin in influencing beta 2-integrin function.