Major allergen from Amaranthus palmeri pollen is a profilin: Isolation, partial characterisation and IgE recognition.

BACKGROUND: Pollens represent a rich source of proteins that are also potential elicitors of IgE-mediated pollen allergy. Sensitisation to panallergens could play an important role in diagnosis and specific immunotherapy, because these molecules are present in different plant pollens and plant foods and have marked structural similarity in different species. Profilins are one of the most common panallergens to be studied because they are responsible for a large number of sensitisations and are clearly related to cross-reactivity and co-sensitisation. This study aimed to isolate and characterise a new allergen of Amaranthus palmeri pollen and to determine its allergenicity. METHODS: A. palmeri pollen profilin was purified using poly-l-proline-Sepharose affinity chromatography followed by anion exchanger chromatography. Identification of purified protein was carried out by mass spectrometry. Specific IgE was estimated in sera of patients with positive skin prick test to A. palmeri pollen extract, by enzyme-linked immunosorbent assay (ELISA). PRINCIPAL FINDINGS: Purified protein appeared as a single band at 14 kDa in SDS-PAGE gel. Mass spectrometric analysis of the gel band identified two highly conserved peptides corresponding to allergenic profilins from pollen of other plants. Sera from about 60% of allergic patients have IgE that recognises the purified A. palmeri protein. CONCLUSION: A 14 kDa protein of A. palmeri pollen was purified and identified as allergenic profilin, which was recognised by sera from pollen allergic patients.

Developments in the field of allergy in 2011 through the eyes of Clinical and Experimental Allergy.

As in previous years, we felt it would be of value to our readership to summarize the new information provided by the authors who have published in Clinical and Experimental Allergy in 2011 and set this in the context of recent advances in our understanding of the pathogenesis and management of allergic disease in all its many manifestations. In 2011, about 210 articles were published in Clinical and Experimental Allergy including editorials, reviews, opinion articles, guidelines, letters, book reviews and of course at the heart of the journal, papers containing original data. As before, this review is divided into sections based on the way the journal is structured, although this year we have grouped together all the papers dealing with mechanisms of allergic disease, whether they involve patients (clinical mechanisms), pure in vitro studies (basic mechanisms) or animal models (experimental models), as we felt this was a more coherent way to deal with the subject. In the field of asthma and rhinitis, the relationship between airway inflammation and airway dysfunction was of perennial interest to investigators, as were phenotypes and biomarkers. Aspirin hypersensitivity appeared in studies in several papers and there was new interest in asthma in the elderly. The mechanisms involved in allergic disease describe advances in our understanding of T cell responses, the relationship between inflammation and disease, mast cell and basophil activation, steroid resistance and novel therapies. In the section dealing with epidemiology, studies seeking to identify risk factors for allergic disease including vitamin D are prominent, as once again are studies investigating gene-environment interactions. The clinical allergy section focuses on drug allergy, food allergy and immunotherapy. The area of oral immunotherapy for food allergy is well covered and we were grateful to Stephen Durham for guest editing an outstanding special issue on immunotherapy in the centenary year of Leonard Noon's pioneering work. Lastly, in the field of allergens, the interest in component-resolved diagnosis continues to grow and there are also articles describing important novel cultivars and the effect of food processing on the allergenic properties of foods. Another terrific year, full of important and high-quality work,which the journal has been proud to bring to the allergy community.

Chemokine CC-ligand 5 production and eosinophil activation into the upper airways of aspirin-sensitive patients.

BACKGROUND: Airway eosinophilia is a hallmark of aspirin-sensitive asthma/rhinitis. OBJECTIVE: We have investigated chemokine CC-ligand 5 (CCL5) production and its association with eosinophil activation in the upper airways of aspirin-sensitive patients both in vivo and in vitro. METHODS: Twenty aspirin-sensitive asthma/rhinosinusitis patients, 18 atopic-tolerant asthma/rhinosinusitis patients and 15 healthy control subjects took part in the study. All subjects were challenged with saline and lysine-acetylsalicylic acid (L-asa) on separate occasions. Nasal lavages were obtained at baseline and 120 min after challenge and analysed for mediators' release. RESULTS: When compared with control subjects, the baseline levels of CCL5 were significantly increased in both sensitive and tolerant patients (there was no significant difference in CCL5 concentrations between these two groups, P>0.05). However, L-asa nasal challenge induced significantly increased levels of CCL5 in the sensitive patients but not in the tolerant subjects (median: 380 vs. 140 pg/mL, P<0.0001). Similarly, the concentrations of both eosinophil cationic protein (ECP) and cysteinil leukotriene (cys-LTs) were increased significantly in the aspirin-sensitive but not in the tolerant patients. There was a trend towards a significant correlation between CCL5 and ECP concentrations in the sensitive patients following L-ASA challenge. On incubation with aspirin, nasal tissue derived from aspirin-sensitive but not that derived from tolerant subjects released increased CCL5 levels in culture. As determined by immunohistochemistry, CCL5 was predominantly localized to the nasal airway epithelium. CONCLUSION: Altogether, these findings suggest that CCL5 is released in aspirin-sensitive asthma/rhinosinusitis.

Role of monocyte chemotactic protein-3 and -4 in children with virus exacerbation of asthma.

Macrophages play a crucial role in respiratory viral infections. However, the mechanisms by which these cells are recruited locally are not fully understood. The current authors studied the role of the chemokines monocyte chemotactic protein (MCP)-1, -2, -3 and -4 on monocyte/macrophage recruitment during respiratory viral infections. Levels of these chemokines were investigated in nasal aspirates from 6-12-yr-old children suffering from respiratory viral infections, caused by rhinoviruses, influenza viruses, parainfluenza viruses, adenoviruses and respiratory syncytial virus. MCP-3 and -4 were significantly higher in samples derived from virus-infected children compared with samples from the same children when they had been asymptomatic. Concentrations of both chemokines were found to significantly correlate with the number of recruited nasal macrophages. Chemotaxis assays showed that purified MCP-3 and -4 from nasal aspirates showed biological activity in vitro. There were no significant differences in MCP-1 and -2 levels between both groups. The present data indicates that monocyte chemotactic protein-3 and -4 may have an important role in macrophage recruitment in children with proven upper respiratory viral infections. These chemokines could be potential targets for therapeutic intervention in respiratory viral infections.

CC chemokine ligand 1 is released into the airways of atopic asthmatics.

CC chemokine ligand (CCL)1/I-309 is a potent attractant for T-helper cell type 2 lymphocytes. The present study investigates whether this cytokine is released in the bronchoalveolar fluid (BALF) of asthmatic patients. Measurements of CCL1 using ELISA showed that levels of this cytokine were significantly elevated in BALF from asthmatics compared with normals (median (range) 193 (120-449) pg.mL(-1) versus 30 (21-55) pg.mL(-1)). Differential cell counts in BALF showed that either lymphocyte or eosinophil numbers were elevated in asthmatic compared with normal subjects (10.8 x 10(3).mL(-1) versus 1.0 x 10(3).mL(-1) and 1.7 x 10(3).mL(-1) versus 0.2 x 10(3).mL(-1), respectively). There was a trend towards a significant correlation between CCL1 levels and lymphocyte numbers in BALF. Separation of BALF using sequential CCL1 affinity column and reverse-phase high-performance liquid chromatography allowed detection of biologically active CCL1. Using immunohistochemistry, CCL1 immunoreactivity was localised predominantly to the airway epithelium. Interestingly, there was a significant correlation between CC chemokine ligand 1 levels and epithelial cell numbers in bronchoalveolar lavage fluid and between these cells and lymphocyte numbers. Moreover, interleukin-4, interleukin-13 and interferon-gamma stimulated primary bronchial airway epithelial cells to release CC chemokine ligand 1. These findings suggest that CC chemokine ligand 1 may play a role in lymphocyte recruitment in bronchial asthma.

The monocyte-derived chemokine is released in the bronchoalveolar lavage fluid of steady-state asthmatics.

Infiltration of the airways by T helper type 2 (Th2) lymphocytes is a well-recognized feature of bronchial asthma. Monocyte-derived chemokine (MDC) is a potent attractant which activates Th2 lymphocytes via the chemokine receptor CCR4. We have investigated both leukocyte recruitment and MDC release into the airways of asthmatic patients. Differential cell counts in bronchoalveolar lavage (BAL) fluid showed that numbers of lymphocytes and eosinophils were elevated in asthmatics compared with normal subjects (median, 6.1 vs. 1.0 x 10(3)/ml, P < 0.005 and 1.4 vs. 0.24 x 10(3)/ml, P = 0.001, respectively). By enzyme-linked immunosorbent assay it was demonstrated that MDC concentrations were significantly elevated in BAL fluid from asthmatics compared with normals (medians 282 pg/ml, range 190-780 pg/ml vs. median 29 pg/ml range 17-82 pg/ml, P < 0.001). Interestingly, there was a significant correlation between MDC levels and the bronchoconstrictive response to methacholine [PC20 forced expiratory volume (FEV)1, r = -0.78, P = 0.001], suggesting that MDC may be involved in the severity of the disease. By immunohistochemistry, MDC was localized predominantly to the bronchial epithelium in bronchial biopsies derived from stable asthmatics. Moreover, primary human airway epithelial cells were found to release MDC upon cytokine stimulation. These findings suggest that MDC may play a major role in the pathogenesis of bronchial asthma.

Interleukin (IL)-4 and to a lesser extent either IL-13 or interferon-gamma regulate the production of eotaxin-2/CCL24 in nasal polyps.

BACKGROUND: Eotaxin-2/CCL24 is a potent eosinophil attractant that has been implicated in the recruitment of eosinophils in allergic disease. We have investigated whether the cytokines interleukin (IL)-4, IL-13, and interferon (IFN)-gamma regulate eotaxin-2/CCL24 in nasal polyps. METHODS: Nasal polyps were cultured in the presence of the cytokines described above and the concentration of eotaxin-2/CCL24 was measured in the culture supernatant. RESULTS: IL-4 was found to be the major stimulus for eotaxin-2/CCL24 production from nasal polyps followed by IL-13 and IFN-gamma. IL-4 induced eotaxin-2/CCL24 in a dose-dependent manner with concentrations as low as 0.1 ng/ml being able to induce eotaxin-2/CCL24. By immunohistochemistry, eotaxin-2/CCL24 immunoreactivity was localized to mononuclear cells in the IL-4 stimulated nasal polyp tissue. Interestingly, nasal turbinates obtained from patients suffering from nonallergic rhinitis (vasomotor rhinitis) were also found to release eotaxin-2/CCL24 both spontaneously and following cytokine stimulation with IL-4 and IFN-gamma being major inducers of this cytokine. CONCLUSIONS: All together these findings suggest that Th1 and Th2 cytokines may regulate eotaxin-2/CCL24 production in nasal polyps and nonallergic rhinits.

Role of the chemokines RANTES, monocyte chemotactic proteins-3 and -4, and eotaxins-1 and -2 in childhood asthma.

Eosinophil recruitment into the airways is a feature of asthma in children. However, the mechanisms by which these cells migrate into the airways are not fully understood. The present study investigated the presence of the eosinophil-activating chemokines regulated on activation, normal T-cell expressed and secreted (RANTES), monocyte chemotactic proteins (MCP)-3 and -4, and eotaxins-1 and -2 in the bronchoalveolar lavage (BAL) fluid obtained from both asthmatic (n=10, age 6-10 yrs) and normal children (n=10, age 5-10 yrs). Measurements of chemokines in BAL fluid showed that levels of RANTES, MCPs-3 and -4, and eotaxins-1 and -2 were significantly increased in fluid obtained from asthmatic children when compared with normal children. Among the different chemokines, RANTES was the cytokine released in greatest quantities in BAL fluid from asthmatic children. There was a significant correlation between the concentrations of MCP-4 and eosinophil numbers in BAL fluid and a trend between both chemokines MCP-3 and eotaxin-2 and eosinophils. Interestingly, the levels of most chemokines correlated with one another. These findings suggest that RANTES monocyte chemotactic proteins-3 and -4, and eotaxins-1 and -2 may regulate eosinophil trafficking into the airways of asthmatic children in a coordinated manner.

Mucoid Pseudomonas aeruginosa, TNF-alpha, and IL-1beta, but not IL-6, induce human beta-defensin-2 in respiratory epithelia.

Cultured lung epithelial cells release antibacterial activity upon contact with Pseudomonas aeruginosa (PA), which is impaired in cystic fibrosis (CF). In order to identify the factors responsible for killing PA by a biochemical approach, we purified antimicrobial activity from supernatants of the A549 lung epithelial cell line, previously stimulated with PA bacteria, by subsequent high performance liquid chromatography. NH(2)-terminal sequencing of a major bactericidal compound revealed it to be identical with human beta-defensin-2 (hBD-2). A mucoid phenotype of PA, but not two nonmucoid PA strains, high concentrations (> 10 microg/ml) of PA lipopolysaccharide, tumor necrosis factor alpha, and interleukin (IL)-1beta, but not IL-6, dose-dependently induced hBD-2 messenger RNA in cultured normal bronchial, tracheal, as well as normal and CF-derived nasal epithelial cells. Genomic analysis of hBD-2 revealed a promoter region containing several putative transcription factor binding sites, including nuclear factor (NF) kappaB, activator protein (AP)-1, AP-2, and NF-IL-6, known to be involved in the regulation of inflammatory responses. Thus, hBD-2 represents a major inducible antimicrobial factor released by airway epithelial cells either on contact with mucoid PA or by endogenously produced primary cytokines. Therefore, it might be important in lung infections caused by mucoid PA, including those seen in patients with CF.

Rhinovirus infection induces major histocompatibility complex class I and costimulatory molecule upregulation on respiratory epithelial cells.

Human respiratory epithelial cells may act as antigen-presenting cells during respiratory viral infections. In addition to major histocompatibility complex (MHC) molecules, antigen presentation requires participation of costimulatory molecules. Here the authors investigated class I and class II antigens and B7-1 and B7-2 costimulatory molecule expression in human A549 pulmonary epithelial cells and primary bronchial epithelial cells (HBECs) at baseline and after rhinovirus infection. Constitutive expression of MHC class I and B7-1 molecules was observed on both cell types. MHC class I molecules were up-regulated by rhinovirus infection, while B7-1 was up-regulated only on A549 cells. B7-2 molecules were constitutively expressed at a low level and were up-regulated by rhinovirus only on HBECs. Rhinovirus induction of antigen-presenting molecule expression on A549 cells was accompanied by cellular activation in terms of induction of release of the chemokines RANTES and Groalpha. These data show that respiratory epithelium expresses full antigen-presentation machinery and that rhinovirus infection up-regulates this expression.

CCL chemokines and asthma.

Airway eosinophilia is a characteristic of bronchial asthma. Eosinophils are considered to cause tissue damage through the release of toxic proteases, lipid mediators, cytokines and oxygen free radicals. The discovery of chemokines and the demonstration that some members of this cytokine superfamily are implicated in the recruitment of eosinophils offers an opportunity for a novel therapeutic approach in asthma.

Cytokine profiles of BAL T cells and T-cell clones obtained from human asthmatic airways after local allergen challenge.

BACKGROUND: This study assessed the heterogeneity of cytokine expression in asthma before and after local allergen challenge. METHODS: BAL T cells were obtained 10 min or 24 h after local endobronchial allergen challenge in atopic asthmatic subjects. T cells were cloned by direct limiting dilution. mRNA expression was assessed by RT-PCR, and cytokine protein production by ELISA. RESULTS: Unstimulated baseline BAL T cells expressed mRNA for IFN-gamma, IL-13, and TNF-alpha. A minority of samples expressed IL-4 and IL-5, but no IL-3 mRNA was detected. PHA stimulation increased expression of IL-3, IL-4, and IL-5 mRNA in 4/6 samples. IL-13 and GM-CSF mRNA were found in BAL cells after allergen challenge, but expression of IFN-gamma was reduced. Both IL-4 and IL-3 were strongly upregulated after PHA stimulation, while the expression of TNF-alpha and IFN-gamma was reduced, compared to equivalent baseline samples. Seventeen panels of BAL T-cell clones were derived (average cloning efficiency 1/40 T cells). Seven panels survived to 8 weeks for analysis. Clones derived 4 h after saline challenge showed strong mRNA signals for IL-13, IL-4, and IFN-gamma, whereas clones derived 24 h after allergen challenge expressed IL-13, GM-CSF, IL-3, IL-4, and often IL-5 (i.e., closer to the Th2 profile). There was considerable heterogeneity in the patterns of cytokine mRNA and protein production by different clones. CONCLUSIONS: T cells from asthmatic airways produce IL-13, IFN-gamma, and TNF-alpha, but after allergen challenge, type 2 cytokines are upregulated. mRNA and protein analysis provide complementary information on airways T-cell cytokine profiles.

Interleukin 5 release into asthmatic airways 4 and 24 hours after endobronchial allergen challenge: its relationship with eosinophil recruitment.

Interleukin 5 (IL-5), a cytokine with a range of activities on eosinophils, has been implicated in the allergic asthmatic reaction. We have investigated the kinetics of release of this cytokine into asthmatic airways as well as its relationship to eosinophil recruitment following allergen challenge. Twelve asthmatic patients underwent endobronchial allergen challenge and bronchoalveolar lavage (BAL) fluid was obtained either 4 h (n=6) or 24 h (n=6) after challenge. Four hours after challenge, levels of IL-5 were significantly increased in BAL fluid (10-fold concentration obtained from the allergen-challenge site compared with the saline control (median 2.67 pg/ml, range 1.0-7.4 pg/ml vs 1.0 pg/ml <1.0-2.4 pg/ml, P<0.05). At 24 h levels of IL-5 increased further at the allergen site but not at the saline control lavage (31.1 pg/ml, range 3.6-59. 0 pg/ml vs 1.5 pg/ml, range <1.5-4.9 pg/ml, respectively P<0.02). At 4h there was almost a three fold increase in IL-5 level, whereas at 24 h IL-5 levels were 20-fold greater. Differential cell counts showed that eosinophil numbers obtained 4 and 24 h after allergen challenge were 7 and 32 times higher than numbers after saline challenge. The parallel increase of eosinophil numbers and IL-5 concentrations in BAL fluid suggests that this cytokine may contribute to the eosinophil recruitment observed into asthmatic airways after allergen challenge.

Th1- and Th2-type cytokines regulate the expression and production of eotaxin and RANTES by human lung fibroblasts.

Eosinophils (Eos) and fibroblasts are known to play a major role in the pathogenesis of bronchial asthma and fibrotic lung disease. Therefore, we investigated whether Th1 and Th2 cytokines stimulate the production of Eo-activating chemokines by lung fibroblasts. Analyses of the culture supernatant using multiple steps of high-performance liquid chromatography demonstrated that interleukin (IL)-4 preferentially stimulates lung fibroblasts to secrete a peak of eosinophil chemotactic activity (ECA) which, upon N-terminal analyses, showed similar sequence to eotaxin, whereas interferon (IFN)-gamma had negligible effect on the release of this chemokine. In contrast, tumor necrosis factor (TNF)-alpha stimulated lung fibroblasts to release two peaks of activity that were found to correspond to eotaxin and regulated on activation, normal T cells expressed and secreted (RANTES), respectively. Interestingly, IL-4 synergized with TNF-alpha to increase greatly the production of three biochemically distinct eotaxin forms. In contrast, IFN-gamma synergized with TNF-alpha to increase RANTES production. Neither IL-2, IL-5, IL-6 nor IL-10 had an effect on lung fibroblasts' capacity to express or release eotaxin and RANTES. Upon appropriate cytokine stimulation, lung fibroblasts were also found to express messenger RNA for monocyte chemotactic protein (MCP)-3 and MCP-4 but not eotaxin-2. However, no ECA like MCP-3 or MCP-4 was detected. These observations suggest that the release of Th1 or Th2 cytokines in the lung tissue polarizes lung fibroblasts to produce either RANTES or eotaxin as major Eo attractants.

RANTES, macrophage-inhibitory protein 1alpha, and the eosinophil product major basic protein are released into upper respiratory secretions during virus-induced asthma exacerbations in children.

The presence of cytokines and the toxic eosinophil granule product major basic protein (MBP) was investigated in nasal aspirates from children with naturally occurring virus-induced asthma exacerbations and compared with levels in nasal aspirates taken from the same children when asymptomatic. Increased levels of MBP accompanied by increased levels of the chemokines RANTES and macrophage-inhibitory protein 1alpha were observed in nasal aspirates from children during the virus-induced exacerbations. Granulocyte-macrophage colony-stimulating factor was mostly undetectable in samples obtained during both symptomatic and asymptomatic periods. Interleukin-5 levels were low, but tended to increase in samples from symptomatic children. These data confirm that the eosinophil product MBP and the eosinophil chemoattractant chemokines RANTES and macrophage-inhibitory protein 1alpha are increased in upper respiratory viral infections associated with asthma exacerbations and suggest an important role for these chemokines in regulating eosinophil influx and activation. These chemokines may represent targets for therapeutic intervention in virus-induced asthma exacerbations.

RANTES production by cytokine-stimulated nasal fibroblasts: its inhibition by glucocorticoids.

Nasal fibroblasts play an important role in both nasal polyposis and nasal allergic diseases and they are known to release a number of proinflammatory cytokines, including GM-CSF, IL-8 and IL-6. The aim of this present work was to investigate whether cytokine-stimulated nasal fibroblasts release biologically active RANTES as well as to study the effect of corticosteroids on the ability of nasal fibroblasts to produce the cytokine. Measurements of RANTES by ELISA demonstrated that RANTES is constitutively secreted spontaneously (21+/-4 vs. 19+/-6 ng/ml, respectively p>0.05). Stimulation of these cells with either TNF-alpha, IL-1beta or IFN-gamma induce further release of RANTES in a dose-dependent manner with TNF-alpha being the most potent stimulus. RANTES mRNA expression in nasal fibroblasts correlated with the amount of protein released in the culture supernatant upon cytokine stimulation. Moreover, chemotaxis studies demonstrated that the nasal-derived RANTES was biologically active on eosinophils. Betamethasone and hydrocortisone were found to downregulate RANTES mRNA expression in TNF-alpha-stimulated fibroblasts. These observations suggest that RANTES released by nasal fibroblasts may regulate eosinophil recruitment in nasal disease while glucocorticoids may inhibit the influx of these cells by suppressing the production of RANTES.

Effects of 0.2 ppm ozone on biomarkers of inflammation in bronchoalveolar lavage fluid and bronchial mucosa of healthy subjects.

Short-term exposure to ozone at peak ambient levels induces neutrophil influx and impairs lung function in healthy humans. In order to investigate the mechanisms contributing to neutrophil recruitment and to examine the role of T-cells in the acute inflammatory response, we exposed 12 healthy humans to 0.2 parts per million (ppm) of ozone and filtered air on two separate occasions for 2 h with intermittent periods of rest and exercise (minute ventilation = 30 L x min(-1)). Fibreoptic bronchoscopy was performed 6 h after the end of exposures. Total protein, tryptase, histamine, myeloperoxidase, interleukin (IL)-8 and growth-related oncogene-alpha (Gro-alpha) were measured and total and differential cell counts were performed in bronchoalveolar lavage (BAL) fluid. Flow cytometry was performed on BAL cells to study total T-cells, T-cell receptors (alphabeta and gammadelta), T-cell subsets (CD4+ and CD8+ cells) and activated T-cell subsets (CD25+). Using immunohistochemistry, neutrophils, mast cells, total T-cell numbers, T-cell subsets, CD25+ T-cells and leukocyte endothelial adhesion molecules including P-selectin, E-selectin, intercellular adhesion molecule (ICAM)-1 and vascular adhesion molecule (VCAM)-1 were quantified in the bronchial biopsies. Paired samples were available from nine subjects. Following ozone exposure there was a threefold increase in the proportion of polymorphonuclear neutrophils (PMNs) (p=0.07) and epithelial cells (p=0.05) in BAL fluid. This was accompanied by increased concentrations of IL-8 (p=0.01), Gro-alpha (p=0.05) and total protein (p=0.058). A significant positive correlation was demonstrated between the two chemokines and proportion of PMNs in BAL fluid. After ozone exposure there was a significant decrease in the CD4/CD8 ratio (p=0.05) and the proportion of activated CD4+ (p=0.01) and CD8+ T-cells (p=0.04). However, no significant changes were demonstrable in any of the inflammatory markers studied in the biopsies. Short-term exposure of healthy humans to 0.2 ppm ozone induced a neutrophil influx in peripheral airways at 6 h post exposure, but no apparent inflammatory response in proximal airways. This response seems to be mediated at least in part by interleukin-8 and growth-related oncogene-alpha.