Cigarette smoke induces the release of CXCL-8 from human bronchial epithelial cells via TLRs and induction of the inflammasome.

COPD is a chronic airway disease associated with inflammation and cigarette smoking. Airway epithelial cells are the first cells exposed to cigarette smoke (CS) and can release CXCL-8 and IL-1ß. These cytokines are involved in acute and chronic inflammatory processes in COPD. The aim of this study was to investigate whether toll-like receptors (TLRs) located in/on epithelial cells were involved in cigarette smoke-induced cytokine production. Here we demonstrate that CS induces the release of CXCL-8 and IL-1ß from human bronchial epithelial cells (HBE-14o). CS-induced CXCL-8 production was inhibited by an antibody against TLR4 and by inhibitory ODN suggesting the involvement of TLR4 and TLR9. In addition, exposure of HBE-14o cells to TLR4 or TLR9 ligands resulted in the release of CXCL-8 and IL1ß. TLR4 and also TLR9 were present on the cell surface and the expression of both receptors decreased after CS exposure. The molecular mechanism of the CS-induced CXCL-8 production by the epithelial cells was further investigated. It was found that P2X7 receptors and reactive oxygen species were involved. Interestingly, the inflammasome activator monosodium urate crystals (MSU) induced the release of CXCL-8 and IL-1ß and the caspase-1 inhibitor Z-VADDCB suppressed the CS-induced release of CXCL-8. In addition, CS, CpGODN, lipopolysaccharide and MSU all increased the expression of caspase-1 and IL-1ß. In conclusion, our results demonstrate that CS releases CXCL-8 from HBE-14o cells via TLR4 and TLR9 and inflammasome activation. Therefore, inflammasome signaling in airway epithelial cells may play an important role in pathogenesis of diseases like COPD.

A comparison of fixation methods on lung morphology in a murine model of emphysema.

Emphysema is characterized by enlargement of the alveoli, which is the most important parameter to assess the presence and severity of this disease. Alveolar enlargement is primarily defined on morphological criteria; therefore, characterization of this disease with morphological parameters is a prerequisite to study the pathogenesis. For this purpose, different methods of lung fixation were evaluated in a murine model of LPS-induced lung emphysema. Five different methods of lung fixation were evaluated: intratracheal instillation of fixatives, in situ fixation, fixed-volume fixation, vascular whole body perfusion, and vacuum inflation. In addition, the effects of three different fixatives (10% formalin, Carnoy's, and agarose/10% formalin solution) and two embedding methods (paraffin and plastic) were investigated on the murine lung morphology. Mice received intranasal administration of LPS to induce alveolar wall destruction. Quantification of air space enlargement was determined by mean linear intercept analysis, and the histological sections were analyzed for the most optimal fixation method. Additionally, routine immunohistological staining was performed on lung tissue of PBS-treated mice. Intratracheal instillation of formalin or agarose/formalin solution, in situ fixation, and fixed-volume fixation provided a normal lung architecture, in contrast to the lungs fixed via whole body perfusion and vacuum inflation. Formalin-fixed lungs resulted in the most optimal lung morphology for lung emphysema analysis when embedded in paraffin, while for Carnoy's fixed lungs, plastic embedding was preferred. The histological findings, the mean linear intercept measurement, and the immunohistochemistry data demonstrated that fixation by intratracheal instillation of 10% formalin or in situ fixation with 10% formalin are the two most optimal methods to fix lungs for alveolar enlargement analysis to study lung emphysema.

Airway hyper-responsiveness in allergic asthma in guinea-pigs is mediated by nerve growth factor via the induction of substance P: a potential role for trkA.

BACKGROUND: The neurotrophin nerve growth factor (NGF) has been implicated as a mediator in allergic asthma. Direct evidence that inhibition of NGF-induced activation of neurotrophin receptors leads to improvement of airway symptoms is lacking. We therefore studied the effects of inhibitors of NGF signal transduction on the development of airway hyper-responsiveness (AHR) and pulmonary inflammation in a guinea-pig model for allergic asthma. METHODS: Airway responsiveness to the contractile agonist histamine was measured in vivo in guinea-pigs that were sensitized and challenged with ovalbumin (OVA). Inflammatory cell influx and NGF levels were determined in bronchoalveolar lavage fluid (BALF). Substance P, a key mediator of inflammation, was measured in lung tissue by radioimmunoassay, while substance P immunoreactive neurons in nodose ganglia were measured by immunohistochemistry. RESULTS: OVA challenge induced an AHR after 24 h in OVA-sensitized guinea-pigs. This coincided with an increase in the amount of NGF in BALF. Simultaneously, an increase in the percentage of substance P immunoreactive neurons in the nodose ganglia and an increase in the amount of substance P in lung tissue were found. We used tyrosine kinase inhibitors to block the signal transduction of the high-affinity NGF receptor, tyrosine kinase A (trkA). Treatment with the tyrosine kinase inhibitors (K252a or tyrphostin AG879) both inhibited the development of AHR, and prevented the increase in substance P in the nodose ganglia and lung tissue completely whereas both inhibitors had no effect on baseline airway resistance. Neither treatment with K252a or tyrphostin AG879 changed the influx of inflammatory cells in the BALF due to allergen challenge. CONCLUSIONS: We conclude that substance P plays a role in the induction of AHR in our model for allergic asthma which is most likely mediated by NGF. As both tyrosine kinase inhibitors AG879 and K252a show a similar inhibitory effect on airway function after allergen challenge, although both tyrosine kinase inhibitors exhibit different non-specific inhibitory effects on targets other than trkA tyrosine kinases, it is likely that the induction of substance P derived from sensory nerves is mediated by NGF via its high-affinity receptor trkA.

Glutathione-conjugated toluene diisocyanate causes airway inflammation in sensitised mice.

Toluene diisocyanate (TDI) is a highly volatile compound that reacts readily with nucleophilic compounds, sulfhydryl groups in particular. Since the epithelial lining fluid of the airways contains high levels of the sulfhydryl, glutathione (GSH), inhalation of TDI is likely to result in the formation of GS-TDI conjugates. We therefore investigated whether GS-TDI is capable of provoking irritant and/or allergic reactions. Irritant effects of GS-TDI were studied after intratracheal administration of a range of doses of GS-TDI in saline to naive BALB/c mice. GS-TDI caused a dose-dependent increase in neutrophils in the lungs 24 h after instillation. A dose equivalent to 150 microg of TDI or lower had no effect. For provocation of allergic reactions, mice were sensitised by application of 1% TDI onto the skin on days 0 and 1, and challenged intratracheally with a sub-irritant dose of GS-TDI on day 8. GS-TDI did not induce non-specific tracheal hyperreactivity to carbachol 24 and 48 h after challenge in TDI-sensitised mice. However, it increased the numbers of neutrophils in the lungs as compared with the control mice. These findings suggest that GSH conjugation does not diminish the capacity of TDI to elicit irritant-induced inflammation in the lungs of mice at doses above 150 microg of TDI in the conjugate. Moreover, the capacity to induce allergic-specific inflammation was retained at concentrations of GS-TDI being devoid of irritant activity. However, the GS-TDI conjugate failed to induce non-specific tracheal hyperreactivity. This may be the consequence of the deposition of excess of GSH upon local dissociation of the conjugate.

Sodium cromoglycate and doxantrazole are oxygen radical scavengers.

The effects of two mast cell stabilisers, sodium cromoglycate (SCG) and doxantrazole, on the formation of reactive oxygen species (ROS) were studied. Guinea-pig alveolar macrophages (AMs) generated lucigenin-dependent chemiluminescence (LDCL). This was increased when the cells were stimulated by phorbol myristate acetate (PMA) or zymosan (by 133% and 464%, respectively, in total LDCL over 60 min). SCG decreased PMA-induced LDCL at higher concentrations (10 mM, by 55%) than doxantrazole (1 mM, by 75%). SCG decreased radical production by AMs in response to zymosan in a concentration-dependent manner by < or = 72%. Doxantrazole (0.1-1 mM) diminished total LDCL by 30-80%. In addition, glucose oxidase led to LDCL generation when incubated with glucose in a cell-free medium. This was inhibited by 47-83% in the presence of SCG or doxantrazole. SCG and doxantrazole inhibited the hydrogen peroxide- and peroxynitrite-induced LDCL by < or = 92%. Moreover, these drugs slightly increased the survival rate of the AMs. It is concluded that doxantrazole- and sodium cromoglycate-inhibited lucigenin-dependent chemiluminescence production by guinea-pig alveolar macrophages is due to a direct scavenging effect on reactive oxygen species. Doxantrazole is approximately 10-times more potent. Mast cell stabilisers may be effective in allergic asthma not only by preventing the allergen-induced mediator release, but also by preventing radical-induced lung damage.

Antibodies directed against nerve growth factor inhibit the acute bronchoconstriction due to allergen challenge in guinea-pigs.

BACKGROUND: We have previously demonstrated that the administration of nerve growth factor (NGF) to guinea-pigs results in airway hyper-responsiveness within 1 h. OBJECTIVE: In the present study we document the involvement of NGF in the acute allergic airway response. METHODS: Guinea-pigs that are sensitized to ovalbumin show an acute bronchoconstriction directly after challenge with ovalbumin. RESULTS: Intratracheal application of 10 microg of antibodies directed against NGF (anti-NGF) 1 h before the challenge reduces the acute severe bronchoconstriction to approximately 40% and the sustained bronchoconstriction to approximately 20% of the reaction in controls. This shows a high potency of anti-NGF in diminishing the direct bronchoconstriction. Inhibition of the tyrosine kinases of the tyrosine kinase receptor A, the high-affinity receptor for NGF, has no effect on the bronchoconstriction. Therefore, we postulate that the p75, the low-affinity receptor for neurotrophins, is responsible for the acute bronchoconstriction. Our findings suggest a role for NGF in the induction of the acute asthmatic reaction. CONCLUSION: These findings offer a new potential therapeutic strategy for the treatment of allergic asthma.

Exogenous interleukin-16 inhibits antigen-induced airway hyper-reactivity, eosinophilia and Th2-type cytokine production in mice.

BACKGROUND: IL-16 has been described as a natural soluble CD4-ligand with immunosuppressive effects in vitro. However, little is known about the effect of IL-16 on immune responses in vivo. OBJECTIVE: In the present study, we examined the effect of IL-16 administration in a murine model of allergic asthma. Next, we determined whether these effects were mediated by modulation of CD4+ T lymphocytes. METHODS AND RESULTS: Intraperitoneal administration of IL-16 completely inhibits antigen-induced airway hyper-responsiveness and largely decreases the number of eosinophils in bronchoalveolar lavage fluid (> 90%) and airway tissue of ovalbumin-sensitized and challenged mice. Firstly, it appears that thoracic lymph node cells isolated from in vivo IL-16-treated ovalbumin-challenged animals produce less IL-4 (77%) and IL-5 (85%) upon antigenic re-stimulation, when compared to vehicle-treated mice. Secondly, pre-incubation of lymphocytes with IL-16 in vitro reduces antigen-induced proliferation (55%) and Th2-type cytokine production (IL-4; 56%, IL-5; 77%). Thirdly, the presence of IL-16 during priming cultures of TCR transgenic T cells (DO11.10), reduces IL-4 (33%) and IL-5 (35%), but not IL-10 and IFNgamma levels upon re-stimulation. CONCLUSION: It can be concluded that IL-16 has potent immunosuppressive effects on a Th2dominated allergic airway response.