IL-13 induced increases in nitrite levels are primarily driven by increases in inducible nitric oxide synthase as compared with effects on arginases in human primary bronchial epithelial cells.

BACKGROUND: Exhaled nitric oxide is increased in asthma, but the mechanisms controlling its production, including the effects of T-helper type 2 (Th2) cytokines, are poorly understood. In mouse and submerged human epithelial cells, Th2 cytokines inhibit expression of inducible nitric oxide synthase (iNOS). Arginases have been proposed to contribute to asthma pathogenesis by limiting the arginine substrate available to NOS enzymes, but expression of any of these enzymes has not been extensively studied in primary human cells. OBJECTIVES: We hypothesized that primary human airway epithelial cells in air-liquid interface (ALI) culture would increase iNOS expression and activity in response to IL-13, while decreasing arginase expression. METHODS: iNOS and arginase mRNA (real-time PCR) and protein expression (Western blot and immunofluorescence) as well as iNOS activity (nitrite levels) were measured in ALI epithelial cells cultured from bronchial brushings of normal and asthmatic subjects following IL-13 stimulation. RESULTS: IL-13 up-regulated iNOS mRNA primarily at a transcriptional level in epithelial cells. iNOS protein and activity also increased, arginase1 protein expression decreased while arginase 2 expression did not change. The changes in iNOS protein correlated strongly with changes in nitrites, and inclusion of arginase (1 or 2) did not substantially change the relationship. Interestingly, iNOS mRNA and protein were not correlated. CONCLUSIONS: These results contrast with many previous results to confirm that Th2 stimuli enhance iNOS expression and activity. While arginase 1 protein decreases in response to IL-13, neither arginase appears to substantially impact nitrite levels in this system.

Transbronchial biopsy as a tool to evaluate small airways in asthma.

Small airway (SA) inflammation in asthmatics is poorly understood. Surgical biopsies to obtain peripheral lung tissue are seldom justified in asthmatics. Therefore, the authors hypothesised that transbronchial biopsy could be an alternative approach to evaluate SA in asthma. Transbronchial and endobronchial biopsy tissue samples (TBBX and EBBX) from 12 severe asthmatics were evaluated for airway and parenchymal total inflammatory cell count expressed as the sum of immunostained T-cells (CD3), macrophages (CD68), mast cells (tryptase AAI), neutrophils (neutrophil elastase) and eosinophils (EG2) per mm2. The large airways (LA) were evaluated in EBBXs, while SA, medium airways (MA) and alveolar tissue (AT) were evaluated in TBBXs. When cell counts from SA, MA, LA and AT were compared, SA had a significantly higher cell count than MA or LA (SA 1011 x mm(-2) (539-1,290), MA 346 x mm(-2) (223-415), LA 332 x mm(-2) (189-416), AT 464 x mm(-2) (298-834)). The cell density and pattern of the inflammatory cell distribution in subjects with TBBXs appeared similar to those in three severe asthmatics whose inflammatory cells were analysed in surgical tissue samples. This study suggests that small airway may be identified and analysed in transbronchial biopsy tissue samples and therefore transbronchial biopsy tissue samples could expand the analysis of inflammation and tissue remodelling in asthma.

Expression and activation of 15-lipoxygenase pathway in severe asthma: relationship to eosinophilic phenotype and collagen deposition.

BACKGROUND: Although 15(S)-hydroxyeicosatetraenoic acid (15(S)-HETE), a product of 15-lipoxygenase (15-LO), may be involved in mild to moderate asthma, little is known about its potential roles in severe asthma. OBJECTIVES: This study was performed to evaluate 15(S)-HETE levels in bronchoalveolar lavage fluid (BALF) from severe asthmatics with and without airway eosinophils and from the control groups. In addition, 15-LO protein expression was examined in endobronchial biopsy, while its expression and activation were evaluated in BAL cells. RESULTS: While 15(S)-HETE levels in BALF were significantly higher in all severe asthmatics than normal subjects, severe asthmatics with airway eosinophils had the highest levels compared with mild, moderate asthmatics and normal subjects. 15(S)-HETE levels were associated with tissue eosinophil numbers, sub-basement membrane thickness and BALF tissue inhibitor of metalloproteinase-1 levels, and were accompanied by increased 15-LO expression in bronchial epithelium. In addition, activation of 15-LO was suggested by the increased proportion of 15-LO in the cytoplasmic membrane of alveolar macrophages from severe asthmatics. CONCLUSION: The data suggest that severe asthmatics with persistent airway eosinophils manifest high levels of 15(S)-HETE in BALF, which may be associated with airway fibrosis. It is likely that 15-LO expression and activation by airway cells explain the increased 15(S)-HETE levels.

Persistent wheezing in very young children is associated with lower respiratory inflammation.

Despite advances in understanding the pathophysiology of asthma, morbidity and mortality in pediatrics continue to rise. Little is known about the initiation and chronicity of inflammation resulting in asthma in this young population. We evaluated 20 "wheezing" children (WC) (median age 14.9 mo) with a minimum of two episodes of wheezing or prolonged wheezing > or = 2 mo in a 6-mo period with bronchoscopy and bronchoalveolar lavage (BAL). Comparisons were made with six normal controls (NC) (median age 23.3 mo) undergoing general anesthesia for elective surgery. BAL fluid cell counts and differentials were determined. The eicosanoids, leukotriene (LT) B(4), LTE(4), prostaglandin (PG)E(2), and 15-hydroxyeicosatetraenoic acid (HETE) and the mast cell mediators, beta-tryptase and PGD(2), were evaluated by enzyme immunoassay (EIA). WC had significant elevations in total BAL cells/ml (p = 0.01), as well as, lymphocytes (LYMPH, p = 0.007), macrophages/monocytes (M&M, p = 0.02), polymorphonuclear cells (PMN, p = 0.02), epithelial cells (EPI, p = 0.03), and eosinophils (EOS, p = 0.04) compared with NC. Levels of PGE(2) (p = 0.0005), 15-HETE (p = 0.002), LTE(4) (p = 0.04), and LTB(4) (p = 0.05) were also increased in WC compared with NC, whereas PGD(2) and beta-tryptase were not. This study confirms that inflammation is present in the airways of very young WC and may differ from patterns seen in adults with asthma.

Peripheral blood and airway tissue expression of transforming growth factor beta by neutrophils in asthmatic subjects and normal control subjects.

BACKGROUND: Airway remodeling may play an important role in asthma pathophysiology. Transforming growth factor beta (TGF-beta) has a critical role in the remodeling process. Although cellular sources for TGF-beta have been previously investigated in asthma airways, the expression, release, or both of TGF-beta from asthmatic airways and blood neutrophils has not been reported. OBJECTIVE: The current study evaluated the TGF-beta protein and messenger (m)RNA expression by airway and peripheral blood neutrophils in asthmatic and normal subjects. METHODS: TGF-beta protein expression by airway and peripheral blood neutrophils was detected by using immunocytochemistry. TGF-beta protein levels in blood neutrophil supernatant were measured by using an enzyme immunoassay. TGF-beta mRNA expression was evaluated by using reverse transcription-PCR. RESULTS: Higher numbers of TGF-beta(+) cells and neutrophils were found in airway tissue of asthmatic (n = 15) compared with normal subjects (n = 10). Although neutrophils in both asthmatic and normal airway tissue expressed TGF-beta protein and the percentage of neutrophils expressing TGF-beta was similar between the two groups, the total number of TGF-beta(+) neutrophils was higher in the asthmatic subjects (P =.01). Peripheral blood neutrophils from asthmatic (n = 5) and normal subjects (n = 7) also expressed TGF-beta protein and mRNA. Blood neutrophils from asthmatic subjects spontaneously released significantly higher levels of TGF-beta than those from normal subjects (P =.007). CONCLUSION: These data suggest that airway and blood neutrophils from both asthmatic and normal subjects can express and release TGF-beta. Higher levels of TGF-beta expression-release from asthmatic neutrophils indicate that neutrophils may be involved in the airway remodeling process of asthmatic subjects.