Immunologic release of neutrophil chemotactic activity from human lung tissue

The release of heat-stable neutrophil chemotactic activity (NCA) has been detected after challenge of isolated human lung tissue with anti-IgE. The major NCA released (NCAL) had similar physicochemical properties to the NCA detected in the circulation of asthmatic subjects after bronchial challenge with specific antigen (NCAAG). NCAL and NCAAG (1) had molecular weights of approximately 600,000 daltons as estimated by Sephacryl S-300 gel-filtration chromatography; (2) both eluted from DEAE-Sephacel (pH 7.8) between 0.1 and 0.2 molar NaCl; (3) had isoelectric points of between 6.5 and 6.8 as determined by chromatofocusing on Polybuffer Exchanger 94. In contrast to NCAAG, lung-derived neutrophil chemotactic activity appeared to be more heterogeneous after gel-filtration and anion-exchange chromatography. The release of NCA was complete by 15 min and there was no evidence of further release up to 12 hr. These observations indicate that high-molecular-weight NCA released from human lung tissue has similar properties to NCAAG and would support the view that NCAAG originates from lung tissue after antigen bronchial challenge in asthmatic subjects.     

Bradykinin stimulates interleukin-8 production by human lung fibroblasts.

Bradykinin (BK) is a potent inflammatory mediator that is generated from kininogens by the actions of plasma and tissue kallikreins. Lung fibroblasts have the potential to participate in the inflammatory responses by releasing proinflammatory cytokines in response to a variety of stimuli. We postulated that human lung fibroblasts might produce interleukin-8 (IL-8) in response to BK stimulation. The present study showed that BK stimulated human lung fibroblasts to produce IL-8 in a dose- and time-dependent manner. Furthermore, Northern blot analysis showed that BK increased IL-8 mRNA expression. The stimulatory effect of BK on IL-8 production was detected at the concentration of 10 nm, and the maximal stimulation was achieved with 100 to 1000 nm. Phorbol 12-myristate 13-acetate pretreatment diminished the ability of BK to stimulate IL-8 production. In addition, GF109203X, a selective protein kinase C inhibitor, blocked BK-induced IL-8 production. These observations suggest that the stimulatory effect of BK on IL-8 production by lung fibroblasts is, at least partially, mediated through protein kinase C. These data suggest that BK may be involved in the inflammatory reaction leading to interstitial lung disorders through stimulating IL-8 production by lung fibroblasts.     

Antigen-induced neutrophil chemotactic activity from sensitized lung

We have used the model of ovalbumin-sensitized guinea pigs to define the source of antigen-derived, high-molecular-weight neutrophil chemotactic activity (NCA). Incubating sensitized lung fragments with specific antigen (ovalbumin) but not irrelevant antigen (bovine serum albumin) or buffer resulted in the release of high-molecular-weight NCA and histamine, suggesting a lung mast cell origin for NCA. High-molecular-weight NCA accounted for greater than 90% of the NCA observed after antigen-lung incubation. The importance of high-molecular-weight NCA in recruitment of neutrophilic leukocytes to the site of allergic inflammatory reactions is emphasized.     

Heterogeneity of human neutrophil and monocyte chemotactic responsiveness

Immunologic Research -     

Peroxynitrite enhances interleukin-10 reduction in the release of neutrophil chemotactic activity

Peroxynitrite, formed by nitric oxide and superoxide, has been shown to nitrate and reduce the function of proinflammatory proteins such as interleukin (IL)-8, monocyte chemoattractant protein-1, and eotaxin, but in contrast, to enhance the function of the anti-inflammatory cytokine IL-10 in reducing IL-1 release from blood monocytes. However, the effect of nitrated IL-10 on release of proinflammatory cytokines from lung epithelial cells is unknown. We hypothesized that peroxynitrite would enhance the capacity of human IL-10 to reduce inflammatory mediators released by epithelial cells. To test this hypothesis, recombinant human IL-10 was evaluated for its capacity to attenuate the release of neutrophil chemotactic activity and IL-8 from a human epithelial cell line in response to IL-1 beta and tumor necrosis factor-alpha. Neutrophil chemotactic activity and IL-8 in lung epithelial culture supernatant fluids were significantly lower after culture with nitrated human IL-10 compared with non-nitrated human IL-10 controls (P < 0.05). Consistent with these results, nitrated human IL-10 attenuated IL-8 mRNA expression more than non-nitrated human IL-10 controls (P < 0.05). These data demonstrate that peroxynitrite exposed human IL-10 has enhanced anti-inflammatory activity and suggest that nitration may play a critical role in the regulation of inflammation within the lower respiratory tract.     

Enhanced basophil histamine release and neutrophil chemotactic activity predispose grain dust-induced airway obstruction.

BACKGROUND: The pathogenic mechanism of grain dust (GD)-induced occupational asthma (OA) remains unclear. OBJECTIVE: To understand further the mechanism of GD-induced OA. METHODS: Fifteen employees working in a same GD industry, complaining of work-related respiratory symptoms, were enrolled and were divided into two groups according to the GD-bronchoprovocation test (BPT) result: six positive responders were grouped as group III, nine negative responders as group II and five healthy controls as group I. Serum GD-specific immunoglobulin (Ig)E (sIgE), specific IgG (sIgG) and specific IgG4 (sIgG4) antibodies were detected by enzyme-linked immunosorbent assay. Basophil histamine release was measured by the autofluorometric method, and changes of serum neutrophil chemotactic activity were observed by the Boyden chamber method. RESULTS: For clinical parameters such as degree of airway hyperresponsiveness to methacholine, duration of respiratory symptoms, exposure duration, and prevalences of serum sIgE, sIgG and sIgG4 antibodies, there were no significant differences between group II and III (P > 0.05, respectively). Serum neutrophil chemotactic activity increased significantly at 30 min and decreased at 240 min after the GD-BPT in group III subjects (P < 0.05, respectively), while no significant changes were noted in group II subjects (P > 0.05). Basophil histamine release induced by GD was significantly higher in group III than those of group I or group II (P < 0.05, respectively), while minimal release of anti-IgG4 antibodies was noted in all three groups. CONCLUSIONS: These results suggest that enhanced basophil histamine release and serum neutrophil chemotactic activity might contribute to the development of GD-induced occupational asthma.     

Human mast cell tryptase stimulates the release of an IL-8-dependent neutrophil chemotactic activity from human umbilical vein endothelial cells (HUVEC)

Tryptase, the major product of human mast cell activation, is a potent stimulus of vascular leakage and neutrophil accumulation in vivo in animal studies, but the mechanisms of action remain unclear. Using HUVEC cultures we have sought to investigate the potential of tryptase to alter monolayer permeability or induce the release of neutrophil chemotactic activity. Tryptase (1-100 mU/ml) failed to alter the permeability of endothelial cell monolayers as assessed by albumin flux over 1 h. However, supernatants from endothelial cells treated with tryptase (1-50 mU/ml) for a 24-h period induced neutrophil migration across Transwell filters, with maximal migration observed at 10 mU/ml tryptase. Pretreatment of tryptase with the protease inhibitor leupeptin abolished the chemotactic activity, indicating a dependence on the catalytic site. Moreover, this effect was abolished by addition of an IL-8 neutralizing antibody, suggesting that IL-8 release makes an important contribution to the chemotactic activity. The interaction of mast cell tryptase with endothelial cells could be important in stimulating the ingress of neutrophils following mast cell activation in inflammatory disease.     

Exercise-induced asthma and the generation of neutrophil chemotactic activity

Heat-stable neutrophil chemotactic activity (HS NCA) has been demonstrated in serum of subjects with asthma after exercise and after allergen inhalation challenge. Heat-labile neutrophil chemotactic activity (HL NCA) has been investigated only after allergen inhalation challenge. In this study, we have measured HS NCA and HL NCA after exercise of 22 adult patients with asthma, 13 of whom had exercise-induced asthma (EIA). In the 13 patients, the effect of pharmacologic pretreatment on the generation of HS NCA and EIA was evaluated in a double-blind study with inhalation of either disodium cromoglycate, terbutaline, or budesonide 15 minutes before exercise. Additionally, the effect of 4 weeks of treatment with budesonide aerosol was evaluated in an open study. A significant increase (p less than 0.01) in HS NCA was found in the patients with EIA with peak activities 15 minutes after exercise. In patients without EIA, the activity of HS NCA was variable. No HL NCA was detectable after exercise. EIA was inhibited by disodium chromoglycate, terbutaline, and 4 weeks of treatment with budesonide. The generation of HS NCA was more or less inhibited by all three drugs with 4 weeks of treatment with budesonide as the most potent regimen. No late-phase asthmatic reactions to exercise were found. It is concluded that only HS NCA is generated after exercise of subjects with asthma and that this production is controlled by antiasthmatic drugs. However, the generation of HS NCA occurs irrespective of EIA.     

Exercise-induced release of histamine and neutrophil chemotactic factor in atopic asthmatics

Concentrations of plasma histamine and serum neutrophil chemotactic factor (NCF) were measured in seven atopic asthmatics who developed exercise-induced asthma (EIA) after a treadmill task. The results were compared with those obtained after inhalation of specific antigen or methacholine. Plasma histamine concentrations were measured with a novel double-isotope radiometric assay, and NCF was identified by its elution in the void volume fractions of Sephadex G-200 and as a single peak of activity at approximately 0.20 molar NaCl after anion exchange chromatography on diethylaminoethyl-Sephacel (pH 7.8). After exercise or antigen challenge, the time courses of appearance of both mediators were virtually identical and accompanied the increase in airways obstruction. There was a statistically significant correlation between the concentrations of histamine or NCF and the magnitude of airflow obstruction after exercise and antigen challenge. This suggested that there may be a direct association between mediator release and EIA or antigen-induced bronchoconstriction. In contrast, there were no significant elevations in circulating histamine and NCF after inhalation of methacholine, at concentrations giving a fall in FEV1 comparable to that induced by exercise or antigen. The prior administration of cromolyn to three asthmatics inhibited both their EIA and the release of histamine and NCF. When four asthmatics were exercised for periods of 1, 3, and 6 min, the release of NCF and fall in peak expiratory flow rate were directly related to the duration of the exercise. The rise of NCF activity in subjects with EIA was fivefold greater than that observed in asthmatics who did not experience airways obstruction when subjected to the same exercise task. These results provide further evidence that mediators of hypersensitivity are released during EIA.     

Defective chemotactic factor-induced monocyte complement receptor enhancement in lung cancer

We have studied monocyte complement (C3b) rosettes, and chemotactic factor (CF)-induced enhancement of rosettes, in 37 patients with bronchial carcinoma (BC), and compared these findings to those obtained from nine age and sex matched patients with non-malignant respiratory disease (NMRD), and 38 normal healthy controls (HC). No differences in monocyte C3b rosettes were found when BC was compared with NMRD or HC. In contrast, there was a highly significant inhibition of CF-induced complement receptor enhancement (CRE) in monocytes from patients with extensive or metastatic BC compared to NMRD or HC. These differences increased with time of incubation and concentrations of CF, and occurred when either f-met-leu-phe, leukotriene B4 (LTB4) or casein were used as the enhancing agent. The defect in monocyte CRE was related to the stage of the disease (with the rank order, metastatic greater than confined to chest greater than localized tumour) but not to the pathohistological type. A similar impairment in CRE was observed when neutrophils from BC were compared to HC. These experiments suggest that, in patients with advanced bronchial carcinoma, monocyte and neutrophil C3b receptors have impaired responsiveness to chemotactic factors.     

Secretion of monocyte chemotactic activity by alveolar macrophages.

The purpose of this study was to determine if alveolar macrophages (AMs) are a source of monocyte chemoattractants and the role bleomycin interaction with AMs may play in the recruitment of monocytes to the lung in a rodent model of bleomycin-induced pulmonary fibrosis. AMs isolated from rats with bleomycin-induced fibrosis secreted significantly greater amounts of monocyte chemoattractants than those isolated from normal rats. When AMs from normal rats were stimulated with bleomycin in vitro, monocyte chemotactic activity was secreted into the medium. Chemotactic activity secretion by AM stimulated with 0.01 to 0.1 micrograms/ml bleomycin was significantly higher than that of cells incubated in medium alone. This activity was truly chemotactic for monocytes, but caused only minimal migration of normal AMs. Bleomycin itself at concentrations of 1 pg/ml to 10 micrograms/ml had no monocyte chemoattractant activity. Characterization of the chemotactic activity in conditioned media (CM) from bleomycin-stimulated AM demonstrated that the major portion of the activity bound to gelatin, was heterogeneous, with estimated molecular weights of 20 to 60 kd, and was inactivated by specific antifibronectin antibody. These findings suggest that fibronectin fragments are primarily responsible for the monocyte chemotactic activity secreted by AMs. Through increased secretion of such chemotactic substances, AMs could play a key role in the recruitment of peripheral blood monocytes into the lung in inflammatory lung disease and fibrosis.     

Generation and partial characterization of eosinophil chemotactic activity and neutrophil chemotactic activity during early and late-phase asthmatic response

Asthma has been recognized to consist of hyperresponsive airways and cellular inflammation. Allergen bronchoprovocation (BPC) may define the early (EAR) and late-phase asthmatic response (LAR). The LAR has now been associated with increased nonspecific airway hyperresponsiveness and cellular inflammation consisting of neutrophils and eosinophils. We used BPC to demonstrate EAR and LAR in 12 subjects with seasonal allergic asthma. One normal subject and one subject with asthma who had been treated with allergy immunotherapy were challenged but did not respond. Plasma was sampled at frequent intervals during these aeroallergen challenges and assayed for eosinophil chemotactic activity (ECA) and neutrophil chemotactic activity (NCA). Of the 12 subjects with asthma who were challenged, nine had dual responses (both EAR and LAR), and three subjects demonstrated only an LAR. Those subjects who had dual airway responses had biphasic rises in both ECA (early = 267 +/- 28%; late = 286 +/- 28%) and NCA (early = 279 +/- 24%; late = 215 +/- 15%) in their plasma, whereas those subjects who demonstrated only an LAR had only a late rise in ECA (218 +/- 61%) and NCA (188 +/- 31%). The two individuals who did not respond to aeroallergen challenge demonstrated no change in their plasma chemotactic activity toward either eosinophils or neutrophils. Those individuals with the most severe LAR (greater than or equal to 1,000 mm2) had combined ECA plus NCA peak values of greater than 500%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Bradykinin differentiates human lung fibroblasts to a myofibroblast phenotype via the B2 receptor

BACKGROUND: The identification of factors mediating the transition of lung fibroblasts into myofibroblasts is considered fundamental in the comprehension of abnormal reparative processes. Bradykinin, a mediator known for its proinflammatory action, is able to induce cytokine production and contractility in fibroblast cultures. OBJECTIVES: In this study the ability of bradykinin to drive fibroblast into a myofibroblast phenotype at the cellular and molecular level was evaluated. METHODS: alpha-Smooth muscle actin (alpha-SMA) expression and TGF-beta in bradykinin stimulated fibroblasts were tested by means of flow cytometry, Western blot, and RT-PCR. Cell proliferation and collagen production were evaluated by the colorimetric methylthiazol tetrazolium assay and sirius red assay, respectively. Which bradykinin receptor mediates the expression of alpha-SMA was evaluated using selective B1 and B2 blocking agents. Furthermore, the effect of bradykinin on extracellular signal-regulated kinase 1/2 phosphorylation was explored. RESULTS: Bradykinin caused in lung fibroblasts a significant increase in alpha-SMA at the cellular and molecular level. The B2 receptor was held responsible for this effect because a specific receptor antagonist had entirely blocked this effect. Bradykinin was able to induce fibroblast proliferation and collagen production. Bradykinin significantly activated mitogen-activated protein kinase pathway by phosphorylating extracellular signal-regulated kinase 1/2, whereas PD98059, a specific inhibitor, was able to block myofibroblast induction. Although bradykinin induced an increase of TGF-beta on fibroblasts, the blockage of this cytokine did not alter alpha-SMA expression. CONCLUSION: The data support the hypothesis that bradykinin may be involved in bronchial remodeling and lung fibrosis beyond its well recognized proinflammatory activity, also suggesting a new potential therapeutic strategy to control altered reparatory processes.     

Thrombin generates monocyte chemotactic activity from complement factor H.

We have recently found that the complement factor H (H) was the precursor of the major macrophage chemotactic factor in the delayed-type hypersensitivity (DTH) reaction site in the skin and was converted to the factor by an unidentified trypsin-like protease in plasma. Thrombin and plasmin are also present in the site, and we, therefore, examined the possibility that these proteases converted H to be monocyte chemotactic. Intact H caused no monocyte migration, although it was able to do so after incubation with thrombin, but not with plasmin. The activity was chemotactic rather than chemokinetic and was absorbed by an anti-H IgG-conjugated column. The generation of monocyte chemotactic activity from H was dependent on incubation time with thrombin and also the protease activity of thrombin, and the activity was seen at concentrations of H lower than 10(-8) M. The inhibitory activity of H for C3b-Bb was not affected by incubation with thrombin or plasmin. Incubation of H with thrombin, but not with plasmin, generated a hydrophobic molecule, in a time-dependent manner, which had monocyte chemotactic activity. These results show that H becomes a monocyte chemotactic factor due to cleavage by thrombin, which converts H to a more hydrophobic molecule and also suggest that thrombin-treated H induces monocyte migration in the DTH reaction site.     

Hyperoxia stimulates alveolar macrophages to produce and release a factor which increases neutrophil adherence

Hyperoxia stimulates alveolar macrophages (AM) to make and release a factor which increases neutrophil adherence to nylon fiber. Production of the neutrophil adherence-stimulating factor by AM exposed to hyperoxia is maximal after AM have been exposed to hyperoxia for 72 h and requires protein synthesis by intact AM. The adherence factor is heat-labile and by column chromatography elutes in a molecular-weight range of approximately 8000–18,000 daltons. The AM-derived adherence factor could influence accumulation of neutrophils in the lungs of animals exposed to hyperoxia and contribute to neutrophil-mediated lung injury from hyperoxia.     

Characterization of neutrophil and monocyte specific chemotactic factors derived from the cornea in response to hydrogen peroxide injury.

To unravel the contributions of corneal tissue in endocular inflammation, we examined the capability of corneal endothelial cells (CECs) to release leukocyte chemotactic factors (LCFs) following injury induced by the leukocyte product hydrogen peroxide. Hydrogen peroxide (H2O2) was chemically generated by the interactions of glucose and glucose oxidase prepared in serum-free minimal essential medium (MEM). For these studies, endothelial surfaces of isolated bovine corneas were incubated with glucose (1 mg/ml) and glucose oxidase (20 U/ml) for 4, 6, and 10 hours at 37 C/in a 5% CO2 atmosphere. Supernatants were then removed and assayed for bovine neutrophil or mononuclear cell chemotactic activity. C5 fragment was our positive control for 100% chemotactic response. Corneas were also fixed in buffered formalin for histopathologic evaluation. Results of these studies indicated that 1) 6-hour interactions of the glucose (G)/glucose oxidase (GO) mixture with endothelial surfaces resulted in both endothelial cell injury (cytoplasmic vacuolization and convoluted nuclei) and production of chemotactic factors (via checkerboard analysis) specific for both neutrophils (58% maximum chemotactic response [MCR]) and mononuclear cells (75% MCR); 2) control corneas treated with either G or GO for 4 and 6 hours produced low levels of LCFs (5-15% MCR); 3) preliminary molecular weight characterization of cornea-derived LCFs obtained from corneas incubated with G/GO for 6 hours revealed the detection of chemotactic activity specific for mononuclear cells in two major fractions, one near the void volume (greater than 130,000 daltons) and one near the elution volume (less than or equal to 10,000-15,000 daltons). Chemotactic activity specific for neutrophils was detected only in one major fraction near the elution volume (less than or equal to 10,000-15,000 daltons); and 4) the production of these LCFs by isolated corneas was significantly inhibited, in a dose-response fashion, when the enzyme catalase (1200-6000 U/ml) was added to corneas incubated with G/GO for 6 hours. To investigate whether isolated CECs were capable of producing LCFs in response to G/GO injury, the authors incubated cultured bovine CECs with G/GO for 3, 6, and 20 hours at 37 C in a 5% CO2 atmosphere. Similar to isolated corneas, cultured CECs incubated with G/GO for 6 hours produced significant levels of LCFs specific for neutrophils (67% MCR) and mononuclear cells (75% MCR). Furthermore, the addition of catalase (3000 U/ml) to corneas incubated with G/GO for 6 hours markedly reduced the production of LCFs. These in vitro studies suggest that corneal cells and/or corneal matrix may play important roles in the initiation and amplification of endocular inflammation in vivo by elaborating factors that control leukocyte influx to the anterior chamber region.     

Recombinant gamma interferon causes neutrophil migration mediated by the release of a macrophage neutrophil chemotactic factor

A dose-dependent neutrophil migration was observed following the injection of purified (Hu IFN-gamma) or recombinant (rIFN-gamma) human gamma interferon into rat peritoneal cavities. This finding contrasts with their inability to cause chemotaxis in vitro in the Boyden chamber. Neutrophil migration into peritoneal cavities and subcutaneous air pouches induced by both preparations of interferon was abolished by pretreatment of the animals with dexamethasone. IFN-gamma-induced neutrophil migration was enhanced when the macrophage population of the peritoneal cavities was increased by previous injection of thioglycollate and reduced by peritoneal lavage. Macrophage monolayers pretreated either with rIFN-gamma or with lipopolysaccharide from E. coli release into the supernatant a factor that stimulates neutrophil recruitment in animals treated with dexamethasone. Dexamethasone blocked this release but did not affect the neutrophil recruitment induced by this factor. These results suggest that IFN-gamma-induced neutrophil migration in vivo may be mediated by the release from resident macrophages of a neutrophil chemotactic factor and that dexamethasone blockade of neutrophil recruitment by IFN-gamma is due to inhibition of the release of this factor.