Deacylated lipopolysaccharide inhibits plasminogen activator inhibitor-1, prostacyclin, and prostaglandin E2 induction by lipopolysaccharide but not by tumor necrosis factor-alpha

Bacterial LPS and TNF induce vascular endothelial cells to express a variety of response molecules. LPS that is partially deacylated (dLPS) by a human neutrophil enzyme blocks the ability of LPS, but not TNF, to augment one of these responses, the expression of endothelial cell surface molecules that promote neutrophil adherence (J. Exp. Med. 1987; 165:1393-1402). We show that dLPS can inhibit the ability of LPS, but not TNF, to elicit the expression of plasminogen activator inhibitor-1 (PAI-1), prostacyclin, and PGE2 by human umbilical vein endothelial cells. dLPS also prevented the accumulation of specific PAI-1 mRNA in response to LPS, but not to TNF. Neither the LPS- or TNF-induced expression of PAI-1 nor the dLPS inhibition of the LPS response was mediated by prostanoids. These results indicate that dLPS can specifically block a variety of endothelial cell responses to LPS and provide support for the hypotheses 1) that dLPS and LPS may interact with a common target molecule on or in endothelial cells, and 2) that dLPS, produced by enzymatic deacylation of LPS in vivo, could inhibit endothelial cell stimulation by LPS and thereby limit the host inflammatory response to invasive gram-negative bacteria.     

The CD11/CD18 (beta2) integrins modulate neutrophil caspase activation and survival following TNF-alpha or endotoxin induced transendothelial migration

Neutrophils (PMN) are short-lived cells but their survival is often prolonged in inflammation. The beta2 (CD11/CD18) integrins are involved in PMN migration into inflammation but their role in PMN survival is not well understood. We investigated the role of beta2 integrins in PMN caspase activation, a key enzyme cascade in apoptosis. After 20 h, caspase activation (Western blotting) was markedly decreased in PMN cultured on fibrinogen, a ligand for Mac-1 (CD11b/CD18), but not on fibronectin or albumin. In the presence of TNF-alpha or endotoxin (LPS), blockade of CD18 (beta2 chain) with mAb markedly increased caspase activation in PMN on fibrinogen. PMN which migrated through endothelium in vitro in response to TNF-alpha, LPS, IL-1alpha, IL-8 or C5a contained 58% fewer active caspase positive PMN after 20 h than non-migrated PMN remaining on the endothelium. When beta2 (CD18) integrin or lymphocyte function antigen (LFA)-1 (CD11a) plus Mac1 (CD11b) were blocked by mAb (intact or Fab'), the proportion of migrated PMN (but not of non-migrated PMN) with active caspases was significantly increased (2-4-fold) and this was associated with accelerated PMN apoptosis and death. Thus, engagement of ligands on extracellular matrix and endothelium by the beta2 integrins Mac-1 and LFA-1 plays a role in delaying apoptosis in PMN recruited in response to LPS and TNF-alpha. Inhibition of beta2 integrin function may not only inhibit PMN infiltration, but also accelerate PMN clearance from inflamed tissue.     

An immobile subset of plasma membrane CD11b/CD18 (Mac-1) is involved in phagocytosis of targets recognized by multiple receptors

CD11b/CD18 is a heterodimeric leukocyte surface receptor which functions in both C3bi-ligand binding and homotypic and heterotypic cell adherence. We have examined the effect of several anti-CD11b/18 mAb on phagocytosis of IgG (EIgG) or complement (EC4b) opsonized erythrocytes by polymorphonuclear leukocytes (PMN) and monocytes. F(ab')2 of two mAb (IB4, an anti-beta-chain mAb and Mo-1 an anti-alpha-chain mAb), inhibited both phagocytosis of EIgG and phorbol ester-stimulated phagocytosis of EC4b by PMN and monocytes. These F(ab')2 inhibited the binding of EIgG to monocytes, but they had no effect on binding of EIgG to PMN, or EC4b to either phagocyte. In addition, IB4 inhibited phorbol-ester stimulated phagocytosis of sheep E opsonized with C component 3bi (EC3bi) without inhibiting rosetting of these same targets. These data separate the anti-phagocytic effect of these mAb from effects on phagocyte-target adherence. When PMN were adherent to an anti-CD11b/CD18 F(ab')2-coated surface, EC3bi binding was abolished, but phagocytosis of EIgG or EC4b was unaffected. Subsequent addition of fluid- phase IB4 or Mo-1 F(ab')2 inhibited phagocytosis of EIgG or EC4b by the adherent cells. This suggested that the CD11b/CD18 involved in C3bi rosetting were mobile in the membrane, whereas those involved in phagocytosis of EIgG or EC4b were not. Cytochalasin treatment of PMN during adherence to F(ab')2-coated plates decreased both apical expression of CD11b/18 and subsequent ingestion of EIgG by 70%, suggesting that microfilaments are important in maintaining immobile CD11b/18 on the apical PMN surface. We conclude that there are functionally distinct populations of CD11b/CD18 on monocytes and PMN: one involved in C3bi rosetting and another involved in the process of phagocytosis mediated via several different receptors. CD11b/18 is not required for optimal target binding in all cases, but is always required for ingestion. As with several other integrins, the CD11b/18 molecules involved in phagocytosis have a functional association with the cell cytoskeleton.     

Lipopolysaccharide-induced stimulation of CD11b/CD18 expression on neutrophils. Evidence of specific receptor-based response and inhibition by lipid A-based antagonists.

Gram-negative bacterial septicemia is a common clinical syndrome resulting, in part, from the activation of phagocytic leukocytes by LPS. By using flow cytometry, we have characterized LPS-induced expression of the beta 2 integrin CD11b/CD18. After exposure to Salmonella minnesota R595 LPS, expression of neutrophil CD11b/CD18 is rapidly upregulated, beginning within 5 min and achieving a peak fluorescence (typically two- to threefold over base line) by 30 min. The increase in CD11b/CD18 expression was similar in kinetics and magnitude to that produced by FMLP, PMA, and human rTNF-alpha. Concentrations of LPS necessary to stimulate a response were as low as 1 ng/ml of R595 LPS; a maximal response was observed between 30 and 100 ng/ml. The upregulation of CD11b/CD18 due to LPS was not interrupted by protein synthesis inhibitors. A group of glucosamine disaccharide lipid A-like molecules: Rhodobacter sphaeroides lipid A, lipid IVA, KDO2IVA, and deacylated LPS were able to block the stimulatory effect of LPS. This inhibition was specific for the actions of LPS as stimulation of polymorphonuclear leukocytes (PMN) by FMLP, human rTNF alpha, PMA, and rewarming were not altered by the disaccharide inhibitors. PMN which were exposed to the specific disaccharide LPS antagonists and then washed, were refractory to stimulation by LPS. The monosaccharide lipid A precursor lipid X also blocked stimulation of neutrophils by LPS, although with a 100-fold reduction in potency. Unlike the disaccharide inhibitors, PMN exposed to lipid X were still responsive to LPS stimulation after washing. The PMN response to LPS was less sensitive in the absence of serum, although upregulation of CD11b/CD18 could still be seen using higher concentrations of LPS. Monoclonal antibody directed against CD14 (clone 3C10), also specifically inhibited LPS induced PMN CD11b/CD18 expression both in the presence and absence of serum. These findings support the hypothesis that LPS stimulates neutrophils by interacting with specific cellular receptors.     

Effects of Porphyromonas gingivalis culture products on human polymorphonuclear leukocyte function

Abstract Porphyromonas gingivalis culture supernate was found to induce hemotypic agglutination of human polymorphonuclear leukocytes (PMN). Pretreatment of PMN with P. gingivalis supernate inhibited both the rate and the degree of aglutination induced by the secretagogues PMA and FMLP. Lipopolysaccaharide from P. gingivalis upregulated the CR3 (Mac-1, CD11b) receptors of PMN. Treatment of glass-adherent PMN with P. gingivalis supernate did not alter their phagocytic capacity fot P. gingivalis cells but when PMN were treated in suspension the cells adhered less well to glass and phagocytosis of those PMN that did adhere was reduced. P. gingivalis supernate treatment of PMN induced lysozyme release but the amount released during phagocytosis when supernate was present did not change. Neither P. gingivalis supernate nor LPS were cytotoxic for PMN. The data suggest that P. gingivalis factors could interfere with PMN elimination of this organism at the site of infection by inappropriately stimulating PMN, depressing phagocytosis and causing enhanced CR3 expression. The consequent agglutinatin or enhanced adherence could also lead to decreased phagocytic capacity of the adherant or agglutinated cells.     

Effects of Porphyromonas gingivalis culture products on human polymorphonuclear leukocyte function

Porphyromonas gingivalis culture supernate was found to induce homotypic agglutination of human polymorphonuclear leukocytes (PMN). Pretreatment of PMN with P. gingivalis supernate inhibited both the rate and the degree of agglutination induced by the secretagogues PMA and FMLP. Lipopolysaccharide from P. gingivalis upregulated the CR3 (Mac-1, CD11b) receptors on PMN. Treatment of glass-adherent PMN with P. gingivalis supernate did not alter their phagocytic capacity for P. gingivalis cells but when PMN were pretreated in suspension the cells adhered less well to glass and phagocytosis of those PMN that did adhere was reduced. P. gingivalis supernate treatment of PMN induced lysozyme release but the amount released during phagocytosis when supernate was present did not change. Neither P. gingivalis supernate nor LPS were cytotoxic for PMN. The data suggest that P. gingivalis factors could interfere with PMN elimination of this organism at the site of infection by inappropriately stimulating PMN, depressing phagocytosis and causing enhanced CR3 expression. The consequent agglutination or enhanced adherence could also lead to decreased phagocytic capacity of the adherent or agglutinated cells.     

CD18-dependent and -independent mechanisms of neutrophil emigration in the pulmonary and systemic microcirculation of rabbits

Neutrophil (PMN) migration in the systemic and pulmonary circulation of rabbits was compared by using different inflammatory stimuli to determine the role of the leukocyte adhesion complex, CD11/CD18, in each of these vascular beds. The adhesion complex was blocked by administering the anti-CD18 mAb 60.3. The data show that mAb 60.3 blocks PMN emigration into inflammatory foci in the abdominal wall produced by implanting sponges containing either hydrochloric acid, Streptococcus pneumoniae, Escherichia coli endotoxin, or PMA. mAb 60.3 also inhibited PMN emigration in response to peritoneal instillation of S. pneumoniae. The effect of mAb 60.3 on PMN emigration in the lungs varied depending upon the stimulus. PMN failed to migrate into the PMA-induced pneumonia; however, mAb 60.3 pretreatment only partially inhibited endotoxin-induced pneumonia and did not inhibit S. pneumoniae or hydrochloric acid-induced pneumonias. PMN lavaged from the alveolar spaces in the Streptococcal pneumonia had similar quantities of mAb 60.3 bound to their surfaces as the circulating PMN. We conclude that the CD11/CD18 complex mediates PMN adherence in the systemic circulation. However, PMN adherence in the pulmonary circulation may occur by either CD18-dependent or -independent mechanisms that are specific to the inciting stimulus.     

Spatial distribution of the beta2 integrin (CD11b/CD18) and L-selectin (CD62L) adherence receptors on human neutrophils by Conventional Optical Scanning Microscopy (COSM)

Receptors such as CD62L and CD11b/CD18, are transmembrane glycoproteins which regulate leukocyte adhesive phenotype. Flow cytometry (FCM) makes it possible to assess a characterization of the cell activation level by receptor quantifying, but that technique does not integrate other factors of adherence regulation, such as spatial distribution and molecular conformation. Our study consisted in exploring the main adherence receptors on Polymorphonuclear Neutrophils (PMN) that were simultaneously analyzed by FCM and Conventional Optical Scanning Microscopy (COSM). FCM analysis showed that TNFalpha induce a decrease in CD62L expression and an increase in beta2 integrins. COSM analysis distinguished three stages of cellular distribution of CD11b/CD18 within resting PMN: most of them (about 80%) had homogeneous distribution (heterogeneous spots distributed over the entire cell surface), for 10-15% of the cells, there was a crown distribution around the widest cell diameter and in less that 10% of them receptor distribution was polarized. CD62L was in the form of heterogeneous spots distributed in a circle on the surface on non-stimulated PMN. PMN stimulation by TNFalpha was associated to a randomized clustering involving both selectin and beta2 integrin. Three-dimensional analysis elicited data not shown by quantitative cytometry. For a single averaged value of the density determined by FMC, various spatial distributions of adherence receptors are found on the surface of non-stimulated PMN. The characterization of the leukocyte adhesive phenotype has to integrate adherence receptors density as well as their spatial distribution.     

Thermoregulatory responses of rats to conventional preparations of lipopolysaccharide are caused by lipopolysaccharide per se-- not by lipoprotein contaminants

LPS preparations cause a variety of body temperature (T(b)) responses: monophasic fever, different phases of polyphasic fever, and hypothermia. Conventional (c) LPS preparations contain highly active lipoprotein contaminants (endotoxin proteins). Whereas LPS signals predominantly via the Toll-like receptor (TLR) 4, endotoxin proteins signal via TLR2. Several TLR2-dependent responses of immunocytes to cLPS in vitro are triggered by endotoxin proteins and not by LPS itself. We tested whether any T(b) response to cLPS from Escherichia coli 055:B5 is triggered by non-TLR4-signaling contaminants. A decontaminated (d) LPS preparation (free of endotoxin proteins) was produced by subjecting cLPS to phenol-water reextraction. The presence of non-TLR4-signaling contaminants in cLPS (and their absence in dLPS) was confirmed by showing that cLPS (but not dLPS) induced IL-1beta expression in the spleen and increased serum levels of TNF-alpha and IL-1beta of C3H/HeJ mice; these mice bear a nonfunctional TLR4. Yet, both cLPS and dLPS caused cytokine responses in C3H/HeOuJ mice; these mice bear a fully functional TLR4. We then studied the T(b) responses to cLPS and dLPS in Wistar rats preimplanted with jugular catheters. At a neutral ambient temperature (30 degrees C), a low (0.1 microg/kg iv) dose of cLPS caused a monophasic fever, whereas a moderate (10 microg/kg iv) dose produced a polyphasic fever. In the cold (20 degrees C), a high (500 microg/kg iv) dose of cLPS caused hypothermia. All T(b) responses to dLPS were identical to those of cLPS. We conclude that all known T(b) responses to LPS preparations are triggered by LPS per se and not by non-TLR4-signaling contaminants of such preparations.     

Expression and polarization of intercellular adhesion molecule-1 on human intestinal epithelia: consequences for CD11b/CD18-mediated interactions with neutrophils.

BACKGROUND: Epithelial dysfunction and patient symptoms in inflammatory intestinal diseases such as ulcerative colitis and Crohn's disease correlate with migration of neutrophils (PMN) across the intestinal epithelium. In vitro modeling of PMN transepithelial migration has revealed distinct differences from transendothelial migration. By using polarized monolayers of human intestinal epithelia (T84), PMN transepithelial migration has been shown to be dependent on the leukocyte integrin CD11b/CD18 (Mac-1), but not on CD11a/CD18 (LFA-1). Since intercellular adhesion molecule-I (ICAM-1) is an important endothelial counterreceptor for these integrins, its expression in intestinal epithelia and role in PMN-intestinal epithelial interactions was investigated. MATERIALS AND METHODS: A panel of antibodies against different domains of ICAM-1, polarized monolayers of human intestinal epithelia (T84), and natural human colonic epithelia were used to examine the polarity of epithelial ICAM-1 surface expression and the functional role of ICAM-1 in neutrophil-intestinal epithelial adhesive interactions. RESULTS: While no surface expression of ICAM-1 was detected on unstimulated T84 cells, interferon-gamma (IFN gamma) elicited a marked expression of ICAM-1 that selectively polarized to the apical epithelial membrane. Similarly, apically restricted surface expression of ICAM-1 was detected in natural human colonic epithelium only in association with active inflammation. With or without IFN gamma pre-exposure, physiologically directed (basolateral-to-apical) transepithelial migration of PMN was unaffected by blocking monoclonal antibodies (mAbs) to ICAM-1. In contrast, PMN migration across IFN gamma-stimulated monolayers in the reverse (apical-to-basolateral) direction was inhibited by anti-ICAM-1 antibodies. Adhesion studies revealed that T84 cells adhered selectively to purified CD11b/CD18 and such adherence, with or without IFN gamma pre-exposure, was unaffected by ICAM-1 mAb. Similarly, freshly isolated epithelial cells from inflamed human intestine bound to CD11b/CD18 in an ICAM-1-independent fashion. CONCLUSIONS: These data indicate that ICAM-1 is strictly polarized in intestinal epithelia and does not represent a counterreceptor for neutrophil CD11b/CD18 during physiologically directed transmigration, but may facilitate apical membrane-PMN interactions after the arrival of PMN in the intestinal lumen.     

Deacylated lipopolysaccharides inhibit biofilm formation by Gram-negative bacteria

The extracellular polysaccharides of Vibrio vulnificus play different roles during biofilm development. Among them, the effect of lipopolysaccharide (LPS), which is crucial for bacterial adherence to surfaces during the initial stage of biofilm formation, on the formation process was examined using various types of LPS extracts. Exogenously added LPS strongly inhibited biofilm formation in a dose-dependent manner. In addition, the exogenous addition of a deacylated form of LPS (dLPS) also inhibited biofilm formation. However, an LPS fraction extracted from a mutant not able to produce O-antigen polysaccharides (O-Ag) did not have an inhibitory effect. Furthermore, biofilm formation by several Gram-negative bacteria was inhibited by dLPS addition. In contrast, biofilm formation by Gram-positive bacteria was not influenced by dLPS but was affected by lipoteichoic acid. Therefore, this study demonstrates that O-Ag in LPS is important for inhibiting biofilm formation and may serve an efficient anti-biofilm agent specific for Gram-negative bacteria.     

CD11b/CD18-dependent interactions of neutrophils with intestinal epithelium are mediated by fucosylated proteoglycans

CD11b/CD18-mediated adhesive interactions play a key role in regulating polymorphonuclear leukocytes (PMN)) migration across intestinal epithelium. However, the identity of epithelial ligands for migrating PMN remains obscure. In this study we investigated the role of carbohydrates in mediating adhesive interactions between T84 intestinal epithelial cells and CD11b/CD18 purified from PMN. Fucoidin, heparin/heparin sulfate, N-acetyl-D-glucosamine, mannose-6-phosphate, and laminarin were found to inhibit adhesion of T84 cells to CD11b/CD18. The most potent inhibitory effects were observed with fucoidin (50% inhibition at 1-5 x 10(-8) M). Binding assays demonstrated that fucoidin directly bound to CD11b/CD18 in a divalent cation- and sulfation-dependent fashion that was blocked by anti-CD11b mAbs. Experiments employing CD11b/CD18 as a probe to blot T84 cell fucosylated proteins purified via fucose-specific lectin column revealed several candidate CD11b/CD18 binding proteins with molecular masses of 95, 50, 30, 25, and 20 kDa. Fucosidase treatment of T84 cells resulted in significantly reduced cell adhesion to CD11b/CD18, while no inhibition was observed after neuraminidase treatment. Finally, significant inhibition of T84 cell adhesion to CD11b/CD18 was observed after blocking cell proteoglycan synthesis with p-nitrophenyl-beta-D-xylopyranoside. These findings implicate epithelial cell surface proteoglycans decorated with sulfated fucose moieties as ligands for CD11b/CD18 during PMN migration across mucosal surfaces.     

Indirect enhancement of neutrophil activity and adhesion to cultured human umbilical vein endothelial cells by isoprostanes (iPF2alpha-III and iPE2-III).

Isoprostanes are metabolites of arachidonic acid found in blood under various conditions of oxidative stress. Because arachidonic acid derivatives are major mediators of inflammation, we investigated the potential inflammatory effects of iPF2alpha-III (previously 8-isoPGF2alpha) and iPE2-III (8-isoPGE2) on human polymorphonuclear granulocytes (PMN), as well as on human umbilical vein endothelial cells (HUVECs). The early activation marker CD11b on PMN and the adhesion molecules ICAM-1, E-selectin, and P-selectin on HUVECs were quantified by flow cytometry. Levels of the cytokines interleukin (IL)-6 and IL-8 were measured in the culture supernatant by enzyme-linked immunosorbent assay. Furthermore, adhesion of PMN to HUVECs was assessed. Neither isoprostane showed any direct stimulatory effects on PMN or HUVECs at concentrations of 0.1 or 1 microM: there was no acute elevation in expression of CD11b or P-selectin and no change of ICAM-1 or E-selectin after 4 or 24 h of incubation, respectively. The levels of interleukin IL-6 and IL-8 were also unaltered. However, PMN adhesion was significantly enhanced both after 4 and 24 h of incubation of HUVECs with iPF2alpha-III, and CD11b expression on PMN was elevated by contact of these cells with the supernatant of pre-exposed HUVECs. Neither of these actions were inhibited by an endothelin receptor antagonist (bosentan) or a combined thromboxane A2/isoprostane-receptor antagonist (SQ29548). Thus, although not having a direct pro-inflammatory potential, isoprostanes might indirectly accentuate PMN stimulation. This seems to occur via a receptor-independent mechanism, perhaps the production of an active metabolite of isoprostanes by endothelial cells.     

Impairment of HIV polymorphonuclear leukocyte transmigration across T84 cell monolayers: an alternative mechanisms for increased intestinal bacterial infections in AIDS?

Our objective was to study the influence of HIV infection of polymorphonuclear leukocytes (PMN) on transepithelial migration. To date, reports of functional PMN chemotaxis in AIDS are contradictory. This is the first attempt to assess this function via an in vitro model allowing transmigration of neutrophils through an intestinal epithelial barrier. PMN were isolated from 45 HIV-infected patients and 45 healthy volunteers. PMN transmigration across T84 epithelial cells was initiated by applying either various concentrations of formyl-met-leu-phe peptide (f-MLP) or interleukin-8 and assayed by quantification of myeloperoxidase activity. CD11b, CD18, and CD47 expression on PMN was compared before and after transepithelial migration by flow cytometry analysis. CD11b expression was studied by electron microscopy. Apoptosis of transmigrated HIV PMN and control PMN was investigated by morphology and DNA fragmentation characterization. Compared to control PMN, HIV PMN exhibited a decrease in transepithelial migration that directly correlated with CD4+ counts. Basal and transepithelial migration-mediated expression of CD11b, CD18, and CD47 were unmodified in HIV PMN compared to control PMN. Electron microscopy labeling confirmed no difference in CD11b expression on HIV and control PMN. The index of apoptosis in transmigrated HIV PMN and control PMN was identical. These data provide evidence of a defect in the f-MLP-induced chemotaxis of PMN from HIV-infected patients across an intestinal epithelial barrier. This defective migration is not due to a quantitative modification of CD11b, CD18 and CD47 on HIV PMN suggesting a more subtle alteration. The impairment in the transmigration function may contribute in vivo to an increased susceptibility to intestinal bacterial infection in HIV-infected patients.     

Adhesomes: specific granules containing receptors for laminin, C3bi/fibrinogen, fibronectin, and vitronectin in human polymorphonuclear leukocytes and monocytes

We have localized several major extracellular matrix protein receptors in the specific granules of human polymorphonuclear (PMN) and monocytic leukocytes using double label immunoelectron microscopy (IEM) with ultrathin frozen sections and colloidal-gold conjugates. Rabbit antibodies to 67-kD human laminin receptor (LNR) were located on the inner surface of the specific granule membrane and within its internal matrix. LNR antigens co-distributed with lactoferrin, a marker of specific granules, but did not co-localize with elastase in azurophilic granules of PMNs. Further, CD11b/CD18 (leukocyte receptor for C3bi, fibrinogen, endothelial cells, and endotoxin), mammalian fibronectin receptor (FNR), and vitronectin receptor (VNR) antigens were also co- localized with LNR in PMN specific granules. A similar type of granule was found in monocytes which stained for LNR, FNR, VNR, CD18, and lysozyme. Activation of PMNs with either PMA, f-met-leu-phe (fMLP), tumor necrosis factor (TNF), or monocytic leukocytes with lipopolysaccharide (LPS), induced fusion of specific granules with the cell membrane and expression of both LNR and CD18 antigens on the outer cell surface. Further, stimulation led to augmented PMN adhesion on LN substrata, and six- to eightfold increases in specific binding of soluble LN that was inhibited by LNR antibody. These results indicate that four types of extracellular matrix receptors are located in leukocyte specific granules, and suggest that up-regulation of these receptors during inflammation may mediate leukocyte adhesion and extravasation. We have thus termed leukocyte specific granules adhesomes.     

Blockade of class IA phosphoinositide 3-kinase in neutrophils prevents NADPH oxidase activation- and adhesion-dependent inflammation

We examined the role of class IA phosphoinositide 3-kinase (PI3K) in the regulation of activation of NADPH oxidase in PMNs and the mechanism of PMN-dependent lung inflammation and microvessel injury induced by the pro-inflammatory cytokine TNF-alpha. TNF-alpha stimulation of PMNs resulted in superoxide production that was dependent on CD11b/CD18-mediated PMN adhesion. Additionally, TNF-alpha induced the association of CD11b/CD18 with the NADPH oxidase subunit Nox2 (gp91(phox)) and phosphorylation of p47(phox), indicating the CD11b/CD18 dependence of NADPH oxidase activation. Transduction of wild-type PMNs with Deltap85 protein, a dominant-negative form of the class IA PI3K regulatory subunit, p85alpha, fused to HIV-TAT (TAT-Deltap85) prevented (i) CD11b/CD18-dependent PMN adhesion, (ii) interaction of CD11b/CD18 with Nox2 and phosphorylation of p47(phox), and (iii) PMN oxidant production. Furthermore, studies in mice showed that i.v. infusion of TAT-Deltap85 significantly reduced the recruitment of PMNs in lungs and increase in lung microvascular permeability induced by TNF-alpha. We conclude that class IA PI3K serves as a nodal point regulating CD11b/CD18-integrin-dependent PMN adhesion and activation of NADPH oxidase, and leads to oxidant production at sites of PMN adhesion, and the resultant lung microvascular injury in mice.     

Leptin indirectly activates human neutrophils via induction of TNF-alpha

Leptin, the satiety hormone, appears to act as a link between nutritional status and immune function. It has been shown to elicit a number of immunoregulatory effects, including the promotion of T cell proliferative responses, and the induction of proinflammatory cytokines. Leptin deficiency is associated with an increased susceptibility to infection. As polymorphonuclear neutrophils (PMN) play a major role in innate immunity and host defense against infection, this study evaluated the influence of leptin on PMN activation. The presence of leptin receptor in human PMN was determined both at mRNA and protein levels, and the effect of leptin on PMN activation, as assessed by CD11b expression, was evaluated using flow cytometry. In contrast to monocytes, which express both the short and long forms of the leptin receptor (Ob-Ra and Ob-Rb, respectively), PMN expressed only Ob-Ra. Leptin up-regulated the expression of CD11b, an early marker of PMN activation, on PMN in whole blood, yet it had no effect on purified PMN, even those treated by submaximal doses of TNF-alpha or PMA. The kinetics of leptin-induced activation in whole blood were consistent with an indirect effect mediated by monocytes, and 71% of the leptin-stimulatory effect on PMN was blocked by a TNF-alpha inhibitor. Leptin-mediated induction of CD11b expression was observed when purified PMN were coincubated with purified monocytes. In conclusion, although leptin activates PMN, it does so indirectly via TNF-alpha release from monocytes. These findings provide an additional link among the obesity-derived hormone leptin, innate immune function, and infectious disease.     

Cross-linking of beta2 integrins caused diminished responses of neutrophils to priming agents like lipopolysaccharide or tumor necrosis factor-alpha: possible involvement of tyrosine kinase Syk

Neutrophils up-regulate beta2 integrins like CD11b/CD18 in response to lipopolysaccharide (LPS). Up-regulation of beta2 integrins causes neutrophils to adhere to surfaces, and to release superoxide anion (O2-). When neutrophils are exposed to LPS plus plasma under conditions not favorable for adherence (absence of Mg2+), the cells do not spontaneously release O2-, but instead they are primed for enhanced release of O2- after subsequent triggering by fMLP. In the presence of Mg2+, neutrophils adhere in response to LPS but fMLP-triggered O2- release by LPS-primed neutrophils is diminished. To understand why adherence interferes with the response of neutrophils to N-formyl-methionyl-leucyl-phenylalanine (fMLP), beta2 integrins were cross-linked by mouse monoclonal antibodies that had been immobilized by surface-bound anti-mouse antibody. When unprimed neutrophils were trapped on the surface by these cross-linked monoclonal antibodies, O2- release was triggered, and priming by LPS for fMLP-triggered O2- release was diminished, indicating that this cross-linking of beta2 integrins mimicked adherence. Alkaline phosphatase is up-regulated by LPS or tumor necrosis factor-alpha, and this response was also diminished by the cross-linking antibodies. The diminished alkaline phosphatase up-regulation was reversed by genistein, a general inhibitor of tyrosine kinases, and by piceatannol, an inhibitor for Syk kinase. Piceatannol also inhibited the phosphorylation of Syk caused by cross-linking of beta2 integrins. These results suggested that adherence-induced triggering and Syk kinase activation might be responsible for the diminished response of LPS-primed neutrophils to fMLP when neutrophils were adherent.     

Neutrophil adherence to endothelium is enhanced via adenosine A1 receptors and inhibited via adenosine A2 receptors.

We have recently demonstrated that human neutrophils (PMN) possess two different classes of adenosine receptors (A1 and A2) that, when occupied, promote chemotaxis and inhibit the generation of reactive oxygen species (e.g., O2- and H2O2), respectively. We have previously demonstrated that adenosine protects endothelial cells (EC) from injury by stimulated neutrophils (PMN) both by diminishing generation of H2O2 and inhibiting adherence of PMN to EC. We therefore determined whether occupancy of A1 or A2 adenosine receptors regulated adherence of PMN to EC. At concentrations similar to those required to inhibit release of O2- by ligation of A2 receptors, both adenosine (IC50 = 56 nM) and 5'N-ethylcarboxamidoadenosine (NECA, IC50 = 8 nM), the most potent A2 agonist, inhibited adherence to EC by stimulated PMN (FMLP, 0.1 microM). In direct contrast, the specific A1 agonists N6-phenylisopropyladenosine and N6-cyclopentyladenosine (CPA) promoted PMN adherence to EC at concentrations of 1-100 nM. To further investigate the mechanisms by which adenosine receptor agonists affected the adherence of stimulated PMN we examined the effect of NECA (A2) and CPA (A1) on the adherence of PMN to fibrinogen (a ligand for the beta 2 integrin CD11b/CD18) and to gelatin. In a dose-dependent manner (IC50 = 2 nM), NECA inhibited the adherence of FMLP-treated PMN to fibrinogen- but not gelatin-coated plates. In contrast, CPA (A1) promoted adherence of stimulated PMN to gelatin-(EC50 = 13 pM) but not fibrinogen-coated plates. Theophylline (10 microM), an adenosine receptor antagonist, reversed the inhibition by NECA (0.3 microM) of stimulated neutrophil adherence to fibrinogen. These observations not only confirm the presence of A1 and A2 receptors on PMN but also suggest two opposing roles for adenosine in inflammation. Occupancy of A1 receptors promotes neutrophil adherence to endothelium and chemotaxis (a proinflammatory role) whereas occupancy of A2 receptors inhibits adherence and generation of toxic oxygen metabolites (an antiinflammatory role).