Chemiluminescence response and adherence of neutrophils to cultured endothelial cells–influence of immunoglobulin G

The effect of different concentrations (0.87, 4.35, 8.7, 17.5, 25 and 35 mg/mL) of intravenous immunoglobulin G (Endobulin®) on neutrophil–endothelial cell interaction was studied using an in vitro model of human umbilical cord vein endothelial cells and human neutrophils. Because adherence of neutrophils to endothelial cells is an essential component in inflammatory processes leading to endothelial cell injury the influence of immunoglobulin G on adherence has been investigated. A second aim of the present study was to determine changes in chemiluminescence response of neutrophils during adherence to endothelial cells. Production of oxygen-derived metabolites, measured by chemiluminescence response of neutrophils, decreased significantly in the presence of 8.7 mg immunoglobulin/mL test during coincubation of neutrophils and endothelial cells (p < 0.025). The adherence of neutrophils to endothelial cells was significantly decreased at a concentration of 8.7 mg immunoglobulin/mL test (p < 0.025). The present results indicate that this preparation of immunoglobulin G might exert a protective effect on neutrophil–endothelial cell interaction by decreasing adherence of neutrophils to endothelial cells and by scavenging reactive oxygen metabolites. Therefore, the current investigation points to a probable protective effect of immunoglobulin G in oxidative diseases, such as the adult respiratory distress syndrome.     

The role of neutrophil membrane glycoprotein 150 (Gp-150) in neutrophil-mediated endothelial cell injury in vitro

In this study we examined the importance of neutrophil adherence in neutrophil-mediated endothelial cell injury. Phorbol myristate acetate (PMA)-activated neutrophils from a patient with a congenital defect in neutrophil adherence (Gp-150 deficiency) and PMA-activated normal neutrophils pretreated with monoclonal antibody (MoAb) 60.3 were used. Both Gp-150-deficient and MoAb 60.3-treated normal neutrophils failed to adhere to cultured human umbilical vein endothelial cell (HEC) monolayers when activated by PMA (adherence less than 10% with patient and MoAb 60.3-treated cells compared with 53 +/- 3% with normal cells). The addition of PMA-activated normal neutrophils to 51Cr-labeled HEC monolayers failed to induce significant 51Cr release but did produce marked HEC detachment (percentage of detachment 50 +/- 3 at 6 hr). In marked contrast, PMA-activated Gp-150-deficient neutrophils failed to induce significant HEC detachment (percentage of detachment zero (0) at 6 hr). Moreover, the addition of MoAb 60.3 to normal neutrophils inhibited neutrophil-mediated HEC detachment in a time- and dose-dependent fashion. Non-lytic HEC detachment was determined to be largely oxygen radical independent, because PMA-activated chronic granulomatous disease neutrophils and PMA-activated normal neutrophils produced similar disruption of HEC monolayers. Soybean trypsin inhibitor, a chloromethylketone elastase inhibitor, and autologous serum all failed to inhibit neutrophil-mediated HEC detachment. From these studies there is no evidence that nonlytic HEC detachment by PMA-activated neutrophils is mediated by the neutrophil-derived proteases, elastase and cathepsin G. Neutrophil-mediated HEC detachment also required intact neutrophils, because postsecretory medium from PMA-activated normal neutrophils and a suspension of frozen-thawed PMA-activated normal neutrophils were without effect. These in vitro studies indicate that the neutrophil cell surface glycoprotein Gp-150 is required for nonlytic HEC detachment by intact PMA-activated neutrophils.     

Simultaneous measurement of endothelial cell damage,elastase release and chemiluminescence response during interaction between polymorphonuclear leukocytes and endothelial cells

Using cultured human umbilical cord vein endothelial cells and human blood neutrophils, the interaction between neutrophils and endothelial cells, in vitro, was studied. The aim of the study was to examine whether a respiratory burst stimulation by neutrophils would be observed by neutrophil/endothelial cell interaction and whether the respiratory burst stimulation of neutrophils by endothelial cells could be enhanced by lipopolysaccharide stimulation of neutrophils. The second aim was whether such an effect, or secretion of elastase, could cause an endothelial cell damage in vitro. Chemiluminescence as an indicator of oxygen-derived metabolites produced by neutrophils, elastase release by neutrophils, and endothelial cell damage, based on¹¹¹ In-oxine release from labelled endothelial cells, were measured simultaneously. The present investigation demonstrates that neutrophils can be directly stimulated by endothelial cells. A further amplification of this process following lipopolysaccharide priming up to 10 ng/ml blood could be demonstrated. A slight endothelial cell damage occurs following neutrophil stimulation, although elastase secretion does not increase during interaction between neutrophils and endothelial cells. These results raise the possibility that oxygen-derived metabolites rather than elastase contribute to an endothelial cell damage which might occur in conditions such as endotoxin-induced adult respiratory distress syndrome.     

Involvement of the CD11b/CD18 integrin, but not of the endothelial cell adhesion molecules ELAM-1 and ICAM-1 in tumor necrosis factor-alpha-induced neutrophil toxicity.

TNF-alpha can incite neutrophil-mediated endothelial cell damage and neutrophil H2O2 release. Both effects require adherent neutrophils. Using specific mAb, we showed in this in vitro study that the CD18 beta 2-chain and the CD11b alpha M-chain of the CD11/CD18 integrin heterodimer have a major role in both TNF-alpha-induced neutrophil-mediated detachment of human umbilical vein endothelial cells and H2O2 release by TNF-alpha-activated human neutrophils. In contrast to anti-CD18 mAb, which consistently prevented neutrophil activation, anti-CD11a mAb and two of three anti-CD11b mAb did not reduce endothelial cell detachment and neutrophil H2O2 release, although they decreased neutrophil adhesion to human umbilical vein endothelial cells. mAb 904, directed against the bacterial LPS binding region of CD11b, reduced endothelial cell detachment for about 40% and neutrophil H2O2 release for more than 50%, demonstrating that CD11b/CD18 is engaged in TNF-induced neutrophil activation. Dependence on CD11b/CD18 could not be overcome by CD18-independent anchoring of neutrophils via PHA. Additionally, neither induction of increased expression of the endothelial cell adhesion molecules ICAM-1 and ELAM-1, nor subsequent addition of specific mAb, influenced endothelial cell injury or H2O2 release by TNF-activated neutrophils. Interaction with ICAM-1 and ELAM-1 therefore appears not to induce additional activation of TNF-stimulated neutrophils. These studies suggest that a specific, CD11b/CD18-mediated signal, instead of adherence only, triggers toxicity of TNF-activated neutrophils.     

HMGB1 contributes to glomerular endothelial cell injury in ANCA‐associated vasculitis through enhancing endothelium–neutrophil interactions

Our previous studies demonstrated that high mobility group box‐1 (HMGB1), a typical damage‐associated molecular pattern (DAMP) protein, is associated with the disease activity of antineutrophil cytoplasmic antibody (ANCA)‐associated vasculitis (AAV). Moreover, HMGB1 participates in ANCA‐induced neutrophil activation. The current study aimed to investigate whether HMGB1 regulated the interaction between neutrophils and glomerular endothelial cells (GEnC) in the presence of ANCA. Correlation analysis on HMGB1 levels in AAV patients and soluble intercellular cell adhesion molecule‐1 (sICAM‐1) levels or vascular endothelial growth factor (VEGF) levels, which are markers of endothelial cell activation, was performed. The effect of HMGB1 on neutrophil migration towards GEnC, respiratory burst and degranulation of neutrophils in coculture conditions with GEnC was measured. The activation of neutrophils, the activation and injury of GEnC, and the consequent pathogenic role of injured GEnC were evaluated. Plasma levels of HMGB1 correlated with sICAM‐1 and VEGF (r = 0.73, P < 0.01; r = 0.41, P = 0.04) in AAV patients. HMGB1 increased neutrophil migration towards GEnC, as well as respiratory burst and degranulation of neutrophils in the presence of ANCA in the coculture system. In the presence of robust neutrophil activation, GEnC were further activated and injured in the coculture system of GEnC and neutrophils. In addition, injured GEnC could produce TF‐positive leuco‐endothelial microparticles and endothelin‐1 (ET‐1), while NF‐κB was phosphorylated (S529) in the injured GEnC. Plasma levels of HMGB1 correlated with endothelial cell activation in AAV patients. HMGB1 amplified neutrophil activation and the activation and injury of GEnC in the presence of ANCA.     

Effect of prostaglandin E1 on chemiluminescence response and adherence of human polymorphonuclear leukocytes to human cultured endothelial cells of prostaglandin E1 treated polytraumatized patients

We investigated the effect of prostaglandin E1 on human polymorphonuclear leukocytes, in vivo. Polymorphonuclear leukocytes of a prostaglandin E1 and placebo study group were harvested and their function, as production of oxygen-derived metabolites and adherence to human cultured endothelial cells, was compared. Additionally, data obtained from polymorphonuclear leukocytes of a prostaglandin E1 and placebo group were compared with data obtained from polymorphonuclear leukocytes from 28 blood donors, who served as a control group. Production of oxygen-derived metabolites by polymorphonuclear leukocytes during contact with endothelial cells was measured by chemiluminescence. Chemiluminescence was significantly (p < 0.01) increased in the placebo group in comparison to the control group decreasing to values of control group after 6 d (post-trauma). Chemiluminescence response was not significantly suppressed in patients treated with prostaglandin E1 in comparison to the placebo group. Adherence of polymorphonuclear leukocytes (placebo group) to endothelial cells was significantly increased (p < 0.01) within the first 6 d post-trauma Following day 6, values were in the same range as values for the control group. Adherence was not significantly suppressed in patients treated with prostaglandin E1 in comparison to the placebo group. In conclusion, prostaglandin E1 at a dose of 20 ng/kg bw/min does not influence production of oxygenderived metabolites and adherence in polytraumatized patients in comparison to a placebo group. Additionally, production of oxygen-derived metabolites by polymorphonuclear leukocytes in response to endothelial cells is shown and it is evident that endothelial cells might influence production of oxygen derived metabolites by polymorphonuclear leukocytes.     

Neutrophil-endothelial interactions: Modulation of neutrophil activation responses by endothelial cells

There is controversy concerning whether intravascular activation of neutrophils during acute inflammation injures contiguous endothelial cells in vivo. Several physiologic defense mechanisms tend to limit such injury. In this paper we have examined evidence for one of these putative protective mechanisms: endothelial cell modulation of the activation responses of neutrophils during adherence and diapedesis. In vitro, endothelial cells co-incubated with neutrophils inhibit the release of superoxide anion when stimulated by receptor-mediated activators. The possible mechanisms include contact-linked down-regulation of neutrophil activation, the release from endothelial cells of soluble mediators which attenuate neutrophil activation responses, and the presence of free radical scavengers in endothelial cells which are active at the interface between endothelial cells and adherent neutrophils. There may be a broad spectrum of mechanisms by which intercellular interactions protect the lining cells of the vascular lumen from 'inadvertent' destruction by phagocytes which become activated while in an intravascular location.     

Potential role for mast cell tryptase in recruitment of inflammatory cells to endothelium

Recent research suggests that activation of protease-activated receptors (PARs) on the surface of endothelial and epithelial cells may play a role in general mechanisms of inflammation. We hypothesized that mast cell tryptase activation of endothelial cell PAR-2 is coupled to increased calcium-independent PLA₂ (iPLA₂) activity and increased platelet-activating factor (PAF) production that may play a role in inflammatory cell recruitment at sites of vascular injury. Stimulation of human coronary artery endothelial cells (HCAEC) with 20 ng/ml tryptase increased iPLA₂ activity, arachidonic acid release, and PAF production. These tryptase-stimulated responses were inhibited by pretreatment with the iPLA₂-selective inhibitor bromoenol lactone (BEL; 5 µM, 10 min). Similar patterns of increased iPLA₂ activity and PAF production were also seen when HCAEC were treated with SLIGKV, which represents the tethered ligand sequence for the human PAR-2 once the receptor is cleaved by tryptase. Tryptase stimulation also increased cell surface expression of P-selectin, decreased electrical resistance, and increased neutrophil adherence to the endothelial cell monolayer. The tryptase-stimulated increases in both cell surface P-selectin expression and neutrophil adhesion were also inhibited with BEL pretreatment. We conclude that tryptase stimulation of HCAEC contributes importantly to early inflammatory events after vascular injury by activation of iPLA₂, leading to arachidonic acid release, PAF production, cell surface P-selectin expression, and increased neutrophil adherence. atherosclerosis; endothelial cells     

The acute response of neutrophil function to a bout of judo training

Intensive exercise training decreases neutrophil functions in athletes. However, no studies to date have investigated the effect of irregular‐interval training, such as is associated with judo training programmes, on neutrophil functions. The purpose of this study was to examine such effects. Thirty‐seven male college judoists participated in this study. Neutrophil oxidative burst activity, phagocytic activity and expression of CD11b and CD16 per cell were measured by ?ow cytometry before and after judo training. Total neutrophil counts increased signi?cantly from 2.98 ± 0.82 to 7.95 ± 1.80 × 10³/µL (p < 0.001). The proportion of neutrophils producing reactive oxygen species (ROS) was increased signi?cantly (p < 0.001). On the other hand, the phagocytic activity decreased after training, as shown by a decrease in the amount of ingested opsonized zymosan per cell (p < 0.001), possibly as a compensatory effect for the increased numbers of ROS‐producing neutrophils. Expression of CD11b and CD16 per cell decreased by 20% and 30%, respectively, after judo training. In conclusion, judo training induced a decrease in phagocytic activity through the lowered expression of CD11b and CD16 on the surface of neutrophils, and increased the oxidative burst activity of neutrophils. Copyright © 2003 John Wiley & Sons, Ltd.     

Breath Condensate Hydrogen Peroxide Correlates with Both Airway Cytology and Epithelial Lining Fluid Ascorbic Acid Concentration in the Horse

The relationship between hydrogen peroxide (H²O²) concentration in expired breath condensate (EBC) and cytology of the respiratory tract obtained from tracheal wash (TW) or bronchoalveolar lavage (BAL), and epithelial lining fluid (ELF) antioxidant status is unknown. To examine this we analysed the concentration of H²O² in breath condensate from healthy horses and horses affected by recurrent airway obstruction (RAO), a condition considered to be an animal model of human asthma. The degree of airway inflammation was determined by assessing TW inflammation as mucus, cell density and neutrophil scores, and by BAL cytology. ELF antioxidant status was determined by measurement of ascorbic acid, dehydroascorbate, reduced and oxidised glutathione, uric acid and α-tocopherol concentrations. RAO-affected horses with marked airway inflammation had significantly higher concentrations of breath condensate H²O² than control horses and RAO-affected horses in the absence of inflammation (2.0±0.5?μmol/l, 0.4±0.2?μmol/l and 0.9±0.2?μmol/l H²O², respectively; p<0.0001). The concentration of breath condensate H²O² was related inversely to the concentration of ascorbic acid in ELF (r=-0.80; p<0.0001) and correlated positively with TW inflammation score (r=0.76, p<0.0001) and BAL neutrophil count (r=0.80, p<0.0001). We conclude that the concentration of H²O² in breath condensate influences the ELF ascorbic acid concentration and provides a non-invasive diagnostic indicator of the severity of neutrophilic airway inflammation.     

Roles of beta 2 integrins of rat neutrophils in complement- and oxygen radical-mediated acute inflammatory injury.

The roles of beta 2 integrin molecules in neutrophil accumulation and tissue injury have been examined by the use of antibodies that are reactive with human CD11b and CD18 and cross-react with the homologous epitopes on rat neutrophils. Adherence to rat pulmonary artery endothelial cells by human neutrophils and endothelial cell killing by phorbol ester-activated human neutrophils required CD11b, CD11c, and CD18. Companion adherence studies between rat neutrophils and endothelial cells revealed a requirement for both CD11b and CD18. Neither anti-CD11b nor anti-CD18 depressed in vitro responses (O2- generation and chemotactic migration) of rat neutrophils. The accumulation of neutrophils in glycogen-induced peritoneal exudates was diminished substantially in rats treated with either anti-CD18 or anti-CD11b. In oxidant-mediated acute lung injury induced by rapid intravascular infusion of cobra venom factor, treatment of rats with either anti-CD18 or anti-CD11b significantly attenuated injury as assessed by increases in vascular permeability and hemorrhage. These protective effects correlated morphologically with diminished adhesion of neutrophils to interstitial intrapulmonary capillary endothelial cells. In studies of immune complex (BSA-anti-BSA)-induced alveolitis and dermal vasculitis, anti-CD18 had protective effects at all doses of anti-BSA employed. The protective effects of anti-CD18 correlated with diminished neutrophil accumulation in tissues at lower doses of anti-BSA. Although anti-CD11b was not effective under the same experimental conditions, intratracheal administration of this antibody conveyed protection against immune complex-induced lung injury, suggesting that both CD11b and CD18 are required for the full expression of injury. The current studies also demonstrated that when surface-bound IgG immune complexes were treated with fresh rat serum, the increment in O2- and TNF alpha generated by alveolar macrophages was suppressed by anti-CD18, but not by anti-CD11b, suggesting a heretofore unrecognized role for CD18 in the O2- and TNF-alpha responses of alveolar macrophages. Thus, neutrophil beta 2 integrins play a requisite role for the full expression of complement-dependent and oxygen radical-mediated injury of the lung and dermal vasculature.     

Neutrophils and oxygen-induced lung injury: a case of when a few is still too many

The role of neutrophils in acute oxidative lung injury in preterm babies is presently unclear, with some investigators maintaining they contribute to tissue injury while others believe they do not. The aim of the present study was to determine whether neutropenia, induced by a specific neutrophil antibody, influenced the time course or extent of oxygen-induced injury of the immature lung. Preterm guinea pigs, delivered by caesarean section at 65 days' gestation (term=68 days), were injected intraperitoneally with either control serum (CS) or neutrophil antiserum (NAS; 200 μl/100 g body weight) once daily for 5 days. Pups were exposed to 95% oxygen for the first 72 h, and then allowed to recover in 21% oxygen for the subsequent 48 h. Groups of treated animals were also maintained in 21% oxygen for 5 days. Lungs were examined by bronchoalveolar lavage (BAL) at 72 h or 120 h. In CS-treated pups, exposure to 95% oxygen increased both the number of circulating neutrophils and those recovered by BAL at both 72 h and 120 h. Protein concentration in BAL fluid, an index of lung microvascular permeability, and BAL elastase and β-glucuronidase activities, indices of neutrophil activation, were significantly increased in pups exposed to 95% oxygen. Pups exposed to 95% oxygen and treated with NAS showed a decrease in numbers of circulating neutrophils (72 h, 9.53 vs 0.66 x 10⁵/ml, P<0.0005; 120 h, 4.9 vs 0.08 x 10⁵/ml, P<0.0005) and BAL fluid neutrophils (72 h, 3.1 vs 0.7 x 10⁵/ml, P<0.05; 120 h, 12.4 vs 3.8 x 10⁵/ml, P<0.05). BAL protein concentration, neutrophil elastase and β-glucuronidase activities in hyperoxia-exposed pups were similar following treatment with either CS or NAS. Although the number of circulating neutrophils were markedly depleted and expansion of the alveolar neutrophil pool was restricted in NAS-treated pups, the neutrophils recruited to the lung were activated and could have contributed to the increase in microvascular permeability in hyperoxia-exposed pups.     

Polymorphonuclear leucocyte (PMN) inhibitory factor prevents PMN-dependent endothelial cell injury by an anti-adhesive mechanism

Neutrophil inhibitory factor (NIF), a 41-kD glycoprotein isolated from the canine hookworm, inhibits CD11b/CD18-dependent neutrophil adhesion by binding to CD11b. We studied the effects of NIF on neutrophil-dependent endothelial cell injury using bovine pulmonary microvessel endothelial cells grown on microporous filters. Endothelial injury was determined as an increase in the transendothelial ¹²⁵I-albumin clearance rate (a measure of transendothelial permeability). Layering of neutrophils on the endothelial cell monolayer (ratio of 10 neutrophils: 1 endothelial cell) followed by activation of neutrophils with 500 nM of phorbol 12-myristate 13-acetate (PMA) increased transendothelial permeability of albumin by 3- to 4-fold over control monolayers. Pretreatment of neutrophils with NIF at concentrations of 100 nM and above prevented the increased permeability. Pretreatment of neutrophils with the anti-CD18 monoclonal antibody (mAb) IB4 similarly prevented the increase of permeability. Pretreatment of neutrophils with OKM-1, a control isotype-matched mAb directed against an irrelevant epitope on CD11b mAb, did not affect the neutrophil-dependent increase in permeability. NIF reduced the adhesion of neutrophils at concentrations of ≥100 nM and this effect was abolished by an anti-NIF polyclonal Ab. However, NIF did not prevent the generation of superoxide anions following PMA-induced activation of neutrophils layered on endothelial cell. These findings indicate that NIF inhibits the neutrophil-dependent endothelial injury by preventing CD11b/CD18-mediated neutrophil adhesion, but without altering the oxidant generating capacity of neutrophils interacting with the endothelial cell monolayer. J. Cell. Physiol. 171:212–216, 1997. © 1997 Wiley-Liss, Inc.     

Thrombin-induced adherence of neutrophils to cultured endothelial monolayers: increased endothelial adhesiveness

We examined the effects of alpha-thrombin on the adherence of neutrophils to endothelial cell monolayers. Endothelial cells derived from the ovine pulmonary artery and ovine neutrophils were used. Thrombin (10(-8) M) resulted in a time-dependent increase in neutrophil adherence to the endothelium. The response was concentration-dependent with a maximal response at 10(-8) M. Thrombin did not induce neutrophil adherence either to plastic or to endothelial cell-derived matrix. The adherence response was inhibited in the presence of alpha-thrombin that had been inactivated with anti-thrombin III (1U:1U) or with hirudin (1 U/ml). However, the addition of either anti-thrombin III or hirudin simultaneously with alpha-thrombin to the cultured endothelial monolayers did not prevent neutrophil adherence. The monoclonal antibody MoAb 60.3, which precipitates a complex of four neutrophil surface glycoproteins (CDw18) was used to further characterize the reaction. MoAb 60.3 decreased the thrombin-induced adherence of neutrophils to the endothelial monolayer. Addition of 10(-8) M thrombin to the endothelial monolayer for 60 min, followed by washing the endothelium with fresh medium, caused resting neutrophils to adhere to the endothelial monolayers. MoAb 60.3 decreased neutrophil adherence to the washed endothelium. The factor(s) responsible for adherence was partially transferable. Medium obtained from incubating endothelial monolayers with thrombin (10(-8) M) for 60 min, adding hirudin to the medium to inactivate thrombin, and transferring it to untreated endothelial monolayers, elicited neutrophil adherence. The response was less than that obtained with thrombin alone (22.9 +/- 2.3% vs. 12.9 +/- 3.3%). The results indicate that the catalytic site of the thrombin molecule is responsible for the adherent activity. Thrombin elicits a rapid activation of endothelial cells with a response that involves the expression of endothelial adhesion sites and sites that interact with the neutrophil CDw18 adhesive glycoprotein complex. In addition, soluble transferable factor(s) which are generated by the endothelium also contribute to thrombin-induced neutrophil adherence.     

Neutrophils are a key component of the antitumor efficacy of topical chemotherapy with ingenol-3-angelate

Harnessing neutrophils for the eradication of cancer cells remains an attractive but still controversial notion. In this study, we provide evidence that neutrophils are required to prevent relapse of skin tumors following topical treatment with a new anticancer agent, ingenol-3-angelate (PEP005). Topical PEP005 treatment induces primary necrosis of tumor cells, potently activates protein kinase C, and was associated with an acute T cell-independent inflammatory response characterized by a pronounced neutrophil infiltrate. In Foxn1(nu) mice depleted of neutrophils and in CD18-deficient mice (in which neutrophil extravasation is severely impaired) PEP005 treatment was associated with a >70% increase in tumor relapse rates. NK cell or monocyte/macrophage deficiency had no effect on relapse rates. Both in vitro and in mice, PEP005 induced MIP-2/IL-8, TNF-alpha, and IL-1beta, all mediators of neutrophil recruitment and activation. In vitro, PEP005 activated human endothelial cells resulting in neutrophil adhesion and also induced human neutrophils to generate tumoricidal-reactive oxygen intermediates. Treatment of tumors with PEP005 significantly elevated the level of anticancer Abs, which were able to promote neutrophil-mediated Ab-dependent cellular cytotoxicity (ADCC) in vitro. PEP005 treatment of tumors grown in SCID mice was also associated with >70% increase in tumor relapse rates. Taken together, these data suggest a central role for neutrophil-mediated ADCC in preventing relapse. PEP005-mediated cure of tumors therefore appears to involve initial chemoablation followed by a neutrophil-dependent ADCC-mediated eradication of residual disease, illustrating that neutrophils can be induced to mediate important anticancer activity with specific chemotherapeutic agents.     

Deferoxamine reduces and nitric oxide synthase inhibition increases neutrophil-mediated myotube injury

We tested the contribution of reactive oxygen species (ROS), reactive nitrogen species (RNS) and the 2 integrin CD18 to neutrophil-mediated myotube injury. Human myotubes were cultured with human neutrophils in the presence or absence of inhibitors directed against ROS, RNS, and CD18. Muscle injury was assessed by a ⁵¹Cr release assay. The inclusion of superoxide dismutase (50–500 U/ml) in the culture medium did not affect myotube injury. A significant protective effect was provided by including catalase (600–2400 U/ml), deferoxamine (1–2 mM), or anti-CD18 antibody (10 g/ml) in the culture medium. S-Ethylisothiourea (500–1000 M), an inhibitor of nitric oxide synthase (NOS), significantly increased myotube injury and reduced nitric oxide (NO) in cultures consisting of only myotubes. In conclusion, neutrophil-mediated skeletal muscle injury appears to be largely dependent on CD18-mediated neutrophil adhesion and iron-dependent hydroxyl radical production. In addition, skeletal muscle NOS activity may protect skeletal muscle against the injury caused by neutrophils.This project was supported by The University of Toledo DeArce Memorial Fund and the National Institutes of Health AR47599-01     

Isolation of Human Umbilical Vein Endothelial Cells and Their Use in the Study of Neutrophil Transmigration Under Flow Conditions

Neutrophils are the most abundant type of white blood cell. They form an essential part of the innate immune system¹. During acute inflammation, neutrophils are the first inflammatory cells to migrate to the site of injury. Recruitment of neutrophils to an injury site is a stepwise process that includes first, dilation of blood vessels to increase blood flow; second, microvascular structural changes and escape of plasma proteins from the bloodstream; third, rolling, adhesion and transmigration of the neutrophil across the endothelium; and fourth accumulation of neutrophils at the site of injury^2,3. A wide array of in vivo and in vitro methods has evolved to enable the study of these processes⁴. This method focuses on neutrophil transmigration across human endothelial cells.One popular method for examining the molecular processes involved in neutrophil transmigration utilizes human neutrophils interacting with primary human umbilical vein endothelial cells (HUVEC)⁵. Neutrophil isolation has been described visually elsewhere⁶; thus this article will show the method for isolation of HUVEC. Once isolated and grown to confluence, endothelial cells are activated resulting in the upregulation of adhesion and activation molecules. For example, activation of endothelial cells with cytokines like TNF-α results in increased E-selectin and IL-8 expression⁷. E-selectin mediates capture and rolling of neutrophils and IL-8 mediates activation and firm adhesion of neutrophils. After adhesion neutrophils transmigrate. Transmigration can occur paracellularly (through endothelial cell junctions) or transcellularly (through the endothelial cell itself). In most cases, these interactions occur under flow conditions found in the vasculature^7,8.The parallel plate flow chamber is a widely used system that mimics the hydrodynamic shear stresses found in vivo and enables the study of neutrophil recruitment under flow condition in vitro^9,10. Several companies produce parallel plate flow chambers and each have advantages and disadvantages. If fluorescent imaging is needed, glass or an optically similar polymer needs to be used. Endothelial cells do not grow well on glass.Here we present an easy and rapid method for phase-contrast, DIC and fluorescent imaging of neutrophil transmigration using a low volume ibidi channel slide made of a polymer that supports the rapid adhesion and growth of human endothelial cells and has optical qualities that are comparable to glass. In this method, endothelial cells were grown and stimulated in an ibidi μslide. Neutrophils were introduced under flow conditions and transmigration was assessed. Fluorescent imaging of the junctions enabled real-time determination of the extent of paracellular versus transcellular transmigration.     

Deposition of reactive oxygen metabolites onto and within living tumor cells during neutrophil-mediated antibody-dependent cellular cytotoxicity

In this study we test the hypothesis that reactive oxygen metabolites are delivered from neutrophils to simultaneously both the cell surface and cytosol of opsonized YAC erythroleukemic target cells. Using 5′ (or 6′) carboxyl-2′,7′-dichlorodihy-drofluorescein (H₂-CDCF) diacetate as starting material, we synthesized its succinimidyl ester derivative. H₂-CDCF-conjugated IgG prepared from the succinimidyl ester derivative was used to opsonize targets. In vitro studies have shown that H₂-CDCF becomes fluorescent upon exposure to reactive oxygen metabolites, including hydrogen peroxide. Using video intensified epifluorescence microscopy, we observed that reactive oxygen metabolites are deposited on tumor cell membranes during neutrophil-mediated antibody-dependent cellular cytotoxicity (ADCC). This deposition process is catalase sensitive. The role of reactive oxygen metabolites produced by neutrophils in triggering the oxidation of H₂-CDCF is further supported by the observation that neutrophils from chronic granulomatous disease (CGD) patients did not affect target fluorescence. YAC tumor cells were also labeled with dihydrorhodamine 123 or dihydrotetramethylrosamine. The oxidized forms of these reagents were found within the cytoplasm of YAC cells. During ADCC normal neutrophils, but not neutrophils obtained from CGD patients, triggered the oxidation of dihydrorhodamine 123 and dihydrotetramethyl-rosamine within tumor cells. Using two-color automated epifluorescence micros-copy, we could not detect temporal intermediates with fluorescence in only one compartment, i.e., either solely on the plasma membrane or in the cytoplasm. These observations suggest that reactive oxygen metabolites cross target membranes (<12) sec. These studies show that reactive oxygen metabolites are deposited both onto and into tumor cells during ADCC, wherein both compartments could become vulnerable to oxidant-mediated damage. © 1993 Wiley-Liss, Inc.     

The response of trout and zebrafish embryos to low and high boron concentrations is U-shaped

Fish in the embryo-larval stage of development have been shown to be sensitive to boron (B) at both ends of the dose-response curve (1,2). The present study evaluated the health effects of low and high B concentrations on rainbow trout (Oncorhynchus mykiss), a cold water species, and zebrafish (Danio rerio), a warm water species. Rainbow trout embryos were incubated from day 1 until 2 wk posthatch in Type 1 ASTM ultrapure-grade water (12.5°C) supplemented with only B (0-500 μM) as boric acid, or together with CaCO₃ (0–2 mM) to increase water hardness. Embryonic growth was stimulated by B in a dose-dependent manner at all Ca concentrations (p < 0.001). Chronic exposures below 9 μmol B/L impaired embryonic growth and above 10 mmol B/L caused death (p < 0.001). Thus, the safe range of exposure for the rainbow trout was between the adverse effect concentrations of 9 μmol B/L and 10 mmol B/L. Zebrafish were maintained for 6 mo in ultrapure water containing <0.2 μmol B/L to determine the effect of low-level exposure. High-level exposure was assessed by exposing zygotes, derived from parents maintained at 46 μmol B/L, to graded concentrations of boric acid up to a concentration of 75 mmol B/L from fertilization until they were free feeding (96 h). Fertilization occurred, but zygotes failed to survive when water contained <0.2 umol B/L (p < 0.001). Death occurred at and above 9.2 mmol B/L. Thus, the safe range of B exposure for zebrafish was between the adverse effect concentrations of 0.2 μmol B/L and 9.2 mmol B/L. The dose-response for both species was thus U-shaped. Part of this work was previously published in abstract form and presented at Experimental Biology 97, April 6–9, New Orleans, LA (Eckhert, C. [1997] Embryonic trout growth and boron exposure,FASEB J. 11, A406 [abstract]).