Changes in asthma-like responses after extended removal from exposure to trimellitic anhydride in the Brown Norway rat model

Background Organic acid anhydride-induced occupational asthma is considered to be IgE-mediated. Airway and skin exposure are the two main routes of sensitization in the work place. Recently we developed an allergic asthmatic Brown Norway rat model sensitized by dermal exposure to trimellitic anhydride (TMA) using an occlusion patch application.
Objectives The objectives of this study were (1) to develop a model of non-occluded dermal exposure leading to allergic sensitization and (2) to examine the effect of extended removal from exposure on persistence of both specific IgE and TMA aerosol-induced airway responses in this model.
Methods TMA powder (4 or 40 mg) was applied, unoccluded, to the skin of rats for 4 h, once/week for 4 weeks. Rats were given a 10-min aerosol challenge to 40 mg/m³ TMA 2 weeks after the last dermal exposure (day 35). Another group was challenged on day 35 and again 18–24 months later. Respiratory enhanced pause (Penh), pulmonary histopathology and inflammation and specific IgE titres were measured.
Results Rats produced dose-dependent specific IgE titres after exposure and developed early-phase (EAR) and late-phase airway responses (LAR) after airway challenge to TMA aerosol as well as airway eosinophilic inflammation. Specific airway responses were still manifested after a second TMA airway challenge given 18–24 months following the initial airway challenge. While persistent, airway inflammation, specific IgE and EAR were significantly attenuated following the second TMA challenge. LAR remained robust at 18–24 months and was not significantly different from the response on day 35.
Conclusions These results demonstrate the persistence of chemical sensitization and further suggest that IgE is not essential for LAR.     

Asthmalike biphasic airway responses in Brown Norway rats sensitized by dermal exposure to dry trimellitic anhydride powder

BACKGROUND: Trimellitic anhydride (TMA) can induce specific IgE and occupational asthma. The significance of dermal exposure to TMA in immunologic sensitization and on subsequent airway responses is not clearly known. An animal model displaying both an early-phase airway response (EAR) and a late-phase airway response (LAR) after sensitization and subsequent inhalation challenge to a low-molecular-weight chemical has not been previously reported. OBJECTIVE: The present study investigated EAR and LAR after TMA inhalation challenge in Brown Norway rats sensitized by skin exposure to TMA dry powder. METHODS: Twenty milligrams of dry TMA powder was applied to the skin of each clipped rat's dorsum on days 0, 7, 14, and 21 and occluded overnight with surgical tape. Rats were challenged for 10 minutes with 0.2 to 40 mg/m(3) of TMA aerosol after day 35. Enhanced pause (an index of airway resistance) was recorded overnight in a whole-body plethysmography system. Specific IgE and pulmonary eosinophilia were also measured. RESULTS: Concentration-dependent responses to TMA were observed: provocation with 0.2 mg/m(3) produced no response; 1 mg/m(3) induced only EAR; and 5 mg/m(3) and 40 mg/m(3) induced both EAR and LAR. Specific IgE was positive; airway eosinophilic inflammation was observed. CONCLUSION: TMA powder applied to the skin can lead to both immunologic sensitization and subsequent dose-dependent biphasic airway responses after TMA aerosol challenge.     

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)     

Changes in serum haptoglobin level after allergen challenge test in asthmatic children

Bronchial asthma is characterized by airway inflammation, which underlies the phenomenon of bronchial hyperresponsiveness. Previous studies have shown that this correlates with the serum concentration of haptoglobin. The occurrence of the late asthmatic response (LAR) after an allergen challenge test is associated with airway inflammation. The objectives of this study were to examine serum levels of haptoglobin during the 24 h after allergen challenge and to compare changes between the subjects with and without LAR. We studied two groups of children with perennial asthma who developed the early asthmatic response (EAR) only (group 1: n = 14), and EAR but also LAR (group II: n = 14) after an allergen (Dermatophagoides pteronyssinus) challenge test. Serum concentrations of haptoglobin were measured at baseline, at EAR, and at 2 h (recovery), 8 h (LAR), and 24 h after the challenge. Baseline levels were similar in the two groups (group I: 128±57 mg/dl: group II: 129±50 mg/dl). In group I, there was no significant change in the level at any time point; in contrast, the subjects in group II showed a relative fall (92±40 mg/dl) at 8 h, and an increase (161±79 mg/dl) at 24 h after the challenge. Our results indicate that the serum concentration of haptoglobin decreases at the time of LAR and is subsequently replenished during the ensuing time. Although further studies are needed, we think that haptoglobin may be inflused into the airways during the inflammatory process associated with LAR, and that this may be followed by "overshooting" production.     

Airway smooth muscle: a modulator of airway remodeling in asthma

Asthma is a disease characterized, in part, by airway hyperresponsiveness and inflammation. Although asthma typically induces reversible airway obstruction, in some patients with asthma, airflow obstruction can become irreversible. Such obstruction might be a consequence of persistent structural changes in the airway wall caused by the frequent stimulation of airway smooth muscle (ASM) by contractile agonists, inflammatory mediators, and growth factors. Traditional concepts concerning airway inflammation have focused on trafficking leukocytes and on the effects of inflammatory mediators, cytokines, and chemokines secreted by these cells. Recent studies suggest that ASM cells might modulate airway remodeling by secreting cytokines, growth factors, or matrix proteins and by expressing cell adhesion molecules and other potential costimulatory molecules. These ASM cell functions might directly or indirectly modulate submucosal airway inflammation and promote airway remodeling.     

The effect of a single inhaled dose of a VLA-4 antagonist on allergen-induced airway responses and airway inflammation in patients with asthma

Adhesion molecule very late antigen-4 (VLA-4) is implicated in the recruitment and activation of inflammatory cells in asthma, including eosinophils, T cells and mast cells. VLA-4 antagonists have been proposed as a new anti-inflammatory treatment modality for asthma. Therefore, we investigated whether a single inhaled dose of VLA-4 antagonist GW559090X could protect against allergen-induced changes in airway responses and airway inflammation in patients with asthma. We performed a randomized, double-blind, three-way crossover study with single inhaled doses of 3 mg of GW559090X, 500 microg of fluticasone propionate (FP) or placebo in 15 patients with mild intermittent asthma, controlled with short-acting beta(2)-agonists only. All patients developed a late asthmatic response (LAR) after allergen inhalation during screening. Study medication was administered 30 min prior to allergen challenge. Pre-dose and 24 h post-dose PC20 methacholine and levels of exhaled nitric oxide (eNO) were determined. At the given dose, VLA-4 antagonist GW559090X did not attenuate the early asthmatic response (EAR) when compared with placebo: mean AUC0-2 h(+/-SEM) (%fall h): 27.2+/-3.7 and 21.9+/-3.0 respectively (P=0.33); nor the LAR: mean AUC3-8 h(+/-SEM) (%fall h): 98.8+/-12.9 and 94.8+/-6.8 respectively (P=0.84). However, pretreatment with FP did attenuate both EAR and LAR when compared with placebo: mean AUC0-2 h11.6+/-3.3 (P=0.024) and mean AUC3-8 h 6.3+/-7.6 (P<0.001). None of these treatments had an effect on allergen-induced changes in airway hyper-responsiveness or eNO levels. These findings suggest that VLA-4 may not play a major role in allergen-induced airway responses and inflammation in asthma.     

Factors in allergen-induced asthma: relevance of the intensity of the airways allergic reaction and non-specific bronchial reactivity

Early asthmatic responses (EAR) of similar severity were produced by allergen inhalation challenges in nine asthmatic subjects. The severity of the airways allergic reaction was estimated by measuring the skin test weal size produced by the same dilution of allergen which caused the EAR. The non-specific bronchial reactivity was assessed by inhalation of increasing concentrations of histamine acid phosphate. Possible relationships between the severity of the airways allergic reaction, the level of non-specific bronchial hyper-reactivity and the pattern of asthmatic response were examined. There was a marked inverse correlation between the required severity of the airways allergic reaction and the non-specific bronchial reactivity (log₁₀) of the individual (r =?0·96, P < 0·001). The EAR was followed by a late asthmatic response (LAR) in five subjects. There was no evident correlation between the magnitude of the EAR and that of the LAR. In addition, no correlation was obtained between the pattern of response in terms of EAR or LAR and the severity of the allergic reaction, or the level of non-specific bronchial reactivity. These results indicate that the allergic reaction and the non-specific bronchial reactivity are interrelated in the production of allergen-induced asthma. Thus a mild allergic reaction will induce an EAR in patients with markedly increased non-specific bronchial reactivity, whereas a severe allergic reaction is required to produce an EAR in those with only slightly increased non-specific reactivity. The lack of correlation between the occurrence of the LAR and the intensity of the airways allergic reaction, the non-specific bronchial reactivity and the intensity of the EAR indicates that other factors are involved in the development of LAR.     

Effect of anti-nerve growth factor on early and late airway responses in allergic rats

BACKGROUND: The increased production of nerve growth factor (NGF) has been associated with allergen-induced airway hyperresponsiveness and enhanced airway inflammation in experimental models of asthma. The aim of this study was to investigate whether a local application of anti-NGF to the lungs may affect the allergen-specific early (EAR) and late (LAR) airway responses to ovalbumin (Ova) of Ova-sensitized brown Norway rats. METHODS: Rats were sensitized systemically with Ova and were boosted twice intratracheally with Ova aerosol using a microsprayer. Two hours before every boost, the animals were pretreated either with aerosolized anti-NGF or with a control antibody. On day 21, all animals were challenged with inhalational Ova aerosol and pulmonary resistance was recorded in anesthetized, orotracheally intubated animals during the early and late asthmatic responses. In addition, differential cell counts from bronchoalveolar lavage and serum immunoglobulin E (IgE) levels were determined 48 h post-Ova challenge. RESULTS: Pretreatment with anti-NGF significantly attenuated the EAR but had no significant effect on the LAR. Serum IgE levels and inflammatory cell influx into the lungs were not affected by anti-NGF pretreatment. CONCLUSION: The data from this study suggest that NGF is directly involved in the development of the EAR without affecting the inflammatory airway response or LAR.     

Effect of ciclesonide on allergen challenge in subjects with bronchial asthma

BACKGROUND: The aim of this clinical trial was to investigate whether repeated inhalation of the new inhaled steroid ciclesonide reduces the early-phase (EAR) and late-phase (LAR) reactions after allergen challenge in patients with mild allergic asthma. Also, this study provides further data on safety and tolerance of ciclesonide. METHODS: The study was designed as a double-blind placebo-controlled randomized crossover trial. Following a baseline period, patients were randomized to either of two treatment sequences (ciclesonide/placebo, placebo/ciclesonide) each of which lasted for one week and were separated by 3-5 weeks from the alternate treatment sequence. Patients received 800 micro g ciclesonide twice daily by means of a Cyclohaler. At the end of each treatment patients were subjected to an allergen challenge. RESULTS: Thirteen asthmatic patients (mean FEV1 of 91% predicted) who experienced an EAR and LAR after allergen challenge participated in the study. The time-average FEV1 decreases 0-2 h (2-12 h) after allergen challenge as measure of the EAR (LAR) were significantly reduced (P < 0.05, one-sided) from 0.426 L to 0.233 L (EAR) and from 0.443 L to 0.213 L (LAR), respectively. Thus, the study results suggest that ciclesonide significantly lowered the extent of EAR and LAR compared to placebo. Ciclesonide was well tolerated and no drug-related adverse events were reported. Cortisol excretion in 24-h urine showed no significant difference between ciclesonide and placebo. CONCLUSIONS: The study supports the efficacy and safety of ciclesonide.     

Airway epithelial cells produce neurotrophins and promote the survival of eosinophils during allergic airway inflammation

BACKGROUND: Eosinophil-epithelial cell interactions make a major contribution to asthmatic airway inflammation. Nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), and other members of the neurotrophin family, originally defined as a class of neuronal growth factors, are now recognized to support the survival and activation of immune cells. Neurotrophin levels are increased in bronchoalveolar lavage fluid during allergic asthma. OBJECTIVE: We sought to investigate the role of neurotrophins as inflammatory mediators in eosinophil-epithelial cell interactions during the allergic immune response. METHODS: Neurotrophin expression in the lung was investigated by means of immunohistochemistry and ELISA in a mouse model of chronic experimental asthma. Coculture experiments were performed with airway epithelial cells and bronchoalveolar lavage fluid eosinophils. RESULTS: Neurotrophin levels increased continuously during chronic allergic airway inflammation, and airway epithelial cells were the major source of NGF and BDNF within the inflamed lung. Epithelial neurotrophin production was upregulated by IL-1beta, TNF-alpha, and T(H)2 cytokines. Lung eosinophils expressed the BDNF and NGF receptors tropomyosin-related kinase (Trk) A and TrkB, and coculture with airway epithelial cells resulted in enhanced epithelial neurotrophin production, as well as in prolonged survival of eosinophils. Eosinophil survival was completely abolished in the presence of the neurotrophin receptor Trk antagonist K252a. CONCLUSION: During allergic inflammation, airway epithelial cells express increased amounts of NGF and BDNF that promote the survival of tissue eosinophils. Controlling epithelial neurotrophin production might be an important therapeutic target to prevent allergic airway eosinophilia. CLINICAL IMPLICATIONS: Attenuating the release of inflammatory mediators from the activated airway epithelium will become an important strategy to disrupt the pathogenesis of chronic allergic asthma.     

Role of tachykinin NK1 and NK2 receptors in allergen-induced early and late asthmatic reactions, airway hyperresponsiveness, and airway inflammation in conscious, unrestrained guinea pigs

Using a guinea pig model of allergic asthma, we investigated the effects of the inhaled, highly selective nonpeptide tachykinin NK₁ and NK₂ receptor antagonists SR 140333 and SR 48968, respectively, on allergen-induced early (EAR) and late (LAR) asthmatic reactions, airway hyperreactivity (AHR) after these reactions, and infiltration of inflammatory cells in the airways. Both SR 140333 (100 nM, 3 min) and SR 48968 (100 nM, 3 min) had no effect on the severity of the EAR, while the NK₂ receptor antagonist SR 48968, but not the NK₁ receptor antagonist SR 140333, caused significant inhibition of the LAR. SR 140333 significantly reduced the allergen-induced AHR to histamine, both after the EAR and the LAR. By contrast, SR 48968 did not affect the AHR after the EAR, but significantly attenuated the AHR after the LAR. Bronchoalveolar lavage studies performed after the LAR indicated that SR 140333 caused significant inhibition of allergen-induced infiltration of eosinophils, neutrophils and lymphocytes, while SR 48968 attenuated the infiltration of neutrophils and lymphocytes, but not of eosinophils. Both NK receptor antagonists tended to reduce the accumulation of ciliated epithelial cells in the airways. These results indicate that NK₁ and NK₂ receptors are importantly, but differentially, involved in the development of allergen-induced airways obstruction, AHR and infiltration of inflammatory cells in the airways. Therefore, both NK₁ and NK₂ receptor antagonists, or dual NK₁ and NK₂ antagonists, could be useful in the treatment of allergic asthma.     

Critical role for OX40 ligand in the development of pathogenic Th2 cells in a murine model of asthma

Bronchial asthma is characterized by massive infiltration of eosinophils and airway hyperreactivity (AHR), which are caused by overproduction of Th2 cytokines (IL-4, IL-5, and IL-13) by allergen-specific T cells. We recently demonstrated a critical contribution of OX40 ligand (OX40L) to the development of Th2-mediated experimental leishmaniasis. In this study, we have examined the role of OX40L in the development of Th2-mediated pulmonary inflammation by utilizing OX40L-deficient mice and a neutralizing anti-OX40L mAb in a murine model of asthma. Sensitization and airway challenge with ovalbumin in wild-type BALB/c mice induced a typical allergic asthma characterized by AHR, accumulation of eosinophils, increased mucus production, and high levels of Th2 cytokines in the lung.All these asthmatic responses were not induced in OX40L-deficient BALB/c mice. Administration of neutralizing anti-OX40L mAb in wild-type BALB/c mice during the sensitization period also abolished the induction of asthmatic responses. In contrast, administration of anti-OX40L mAb during the challenge period did not inhibit the asthmatic responses. These results indicate a critical role for OX40L in the induction phase, which leads to the development of pathogenic Th2 cells, but not in the effector phase, which includes migration and activation of pathogenic Th2 cells in the lung.     

Late asthmatic response by recruitment of homocytotropic antibody from circulating blood to the airway wall in guinea pig

Many reports have been published about the late asthmatic response (LAR) of animal model. But most of the animals used were sensitized actively and it is considered generally that it is impossible to generate LAR in passively sensitized animals, especially in guinea pig. About the mechanism of LAR, most discussion are focused on airway hyperreactivity, inflammation and chemical mediators. But little is known about the direct initiator of the late phase bronchoconstriction. Instead of the circulating antibody which is generated by antibody producing cells in actively sensitized animals, anti-serum was administered to guinea pigs intravenously as passive sensitization fifteen minutes prior to antigen inhalation. Four to eight hours after antigen inhalation, we investigated bronchoconstriction. Eight hours after antigen challenge, bronchoalveolar lavage (BAL) were performed. In the BAL fluid, macrophages decreased and neutrophils increased significantly. These results suggest that LAR can occur without airway inflammation and the inflammation might be the result of antigen-antibody reaction at the airway wall, and that the direct initiator of late phase bronchoconstriction might be the recruitment of homocytotropic antibody from circulating blood to the airway wall.     

Immunologic and inflammatory mechanisms that drive asthma progression to remodeling

Although histologic features of airway remodeling have been well characterized in asthma, the immunologic and inflammatory mechanisms that drive progression of asthma to remodeling are still incompletely understood. Conceptually, airway remodeling may be a result of persistent inflammation and/or aberrant tissue repair mechanisms. It is likely that several immune and inflammatory cell types and mediators are involved in mediating airway remodeling. In addition, different features of airway remodeling are likely mediated by different inflammatory pathways. Several important candidate mediators of remodeling have been identified, including TGF-beta and T(H)2 cytokines (including IL-5 and IL-13), as well as vascular endothelial growth factor, a disintegrin and metalloproteinase 33, and matrix metalloproteinase 9. Mouse models of airway remodeling have provided important insight into potential mechanisms by which TGF-beta activation of the Smad-2/3 signaling pathway may contribute to airway remodeling. Human studies have demonstrated that anti-IL-5 reduces levels of airway eosinophils expressing TGF-beta, as well as levels of airway remodeling as assessed by bronchial biopsies. Further such studies confirming these observations, as well as alternate studies targeting additional individual cell types, cytokines, and mediators, are needed in human subjects with asthma to determine the role of candidate mediators of inflammation on the development and progression of airway remodeling.     

Airway remodelling in the pathogenesis of asthma

The inflammatory and remodelling processes that underlie asthma result from a highly complex interaction between various cell types. Apart from inflammatory cells, such as eosinophils, activated T cells, mast cells and macrophages, structural tissue cells such as epithelial cells, fibroblasts and smooth muscle cells can also play an important effector role through the release of a variety of mediators, cytokines and chemokines. This results in an acute inflammatory response that is characterized by vascular leakage, mucus hypersecretion, epithelial shedding and widespread airway narrowing. At the same time, through the release of mediators, cytokines, chemokines and growth factors, epithelial and mesenchymal cells cause persistence of the inflammatory infiltrate and induce structural changes in the airway wall, such as increased thickness of the basement membrane, increased collagen deposition, changes in bronchial microcirculation, and smooth muscle hypertrophy and hyperplasia. The end result of airway inflammation and remodelling is an increased thickness of the airway wall, leading to a reduced baseline airway calibre and exaggerated airway narrowing.     

Blood markers of early and late airway responses to allergen in asthmatic subjects. Relationship with functional findings

We evaluated the relationship between blood markers of mast-cell (plasma histamine and serum level of heat-stable neutrophil chemotactic activity [NCA]) and eosinophil (serum eosinophil cationic protein [ECP]) activation during early airway response (EAR) and late airway response (LAR) to allergen inhalation in 24 asthmatic subjects. After EAR, 14 subjects showed significant LAR (FEV₁ fall: 25%), while 10 subjects showed equivocal LAR (FEV₁ fall: 15–20%). A significant increase from baseline value was observed in plasma histamine and in serum NCA during both EAR and LAR, while serum ECP significantly increased only during LAR. The sensitivity of different markers to detect significant FEV₁ fall during EAR and LAR was low, except for NCA. Changes in blood mediators were similar in both groups with significant and equivocal LAR. There was a significant relationship between the increase in NCA during EAR and the severity of LAR. Stepwise regression between changes in different blood markers showed a significant relationship between histamine increase during EAR and ECP increase during LAR. Thus, serum NCA is a more sensitive marker of EAR and LAR than plasma histamine and serum ECP, and its increase during EAR seems predictive of the severity of the subsequent LAR.     

Mast cell myositis: a new feature of allergic asthma?

There is some evidence that, in asthma, mast cells infiltrate the airway smooth muscle layer and, as a consequence, alter the functional and structural properties of myocytes. This inflammation so-called mast-cell myositis, probably contributes to both bronchial hyperresponsiveness and airway remodelling. Previous observations have pointed out the presence of mast cells within airway smooth muscle of atopic patients and recent data obtained in asthmatic patients demonstrate that this infiltration is more important in asthmatic patients with atopy. Although the mechanism of such a mast cell attraction remains to be fully understood, experimental data demonstrate that, upon stimulation by tryptase or cytokines, smooth muscle cells can attract mast cells through the production of TGF-beta1 or SCF. Once at the site of inflammation, activated mast cells are responsible for an important extracellular deposition of inflammatory products that may facilitate the increase in smooth muscle mass. In addition, comparison of asthmatic patients with and without atopy suggests that mast cell myositis is closely related with atopy.     

The effect of repirinast on airway responsiveness to methacholine and allergen.

Repirinast, a novel ingested antiallergic asthma medication from Japan, was compared versus placebo on airway responsiveness to methacholine and was compared versus placebo and cromolyn on airway responses to allergen. In 14 patients with mild, stable, atopic asthma, we performed a double-blind, double-dummy, random-order trial with ingested repirinast 300 mg twice daily for 7 days, inhaled cromolyn 40 mg spincaps single dose, and double placebo on allergen-induced early (EAR) and late (LAR) asthmatic responses and increased airway responsiveness. In the 14 subjects, no difference occurred in methacholine PC20 after 6 days of repirinast or 6 days of placebo. In the 13 subjects who completed the allergen study, single-dose cromolyn significantly reduced the EAR by 63% and the LAR by 65% versus placebo (p < 0.02); repirinast was not significantly different from placebo, both the EAR and LAR being reduced by less than 10%. Allergen-induced increase in methacholine responsiveness was borderline (p = 0.052), and no significant drug effects occurred. In these models, a 1-week treatment period with repirinast, like other oral antiallergic asthma medications (e.g., ketotifen, fumarate), provides no protection against airway responses to methacholine or allergen.     

How Much Do We Know about Atopic Asthma： Where Are We Now？

Asthma is a common disease in the worldwide and it affects over 3.5 million adults and children in the UK. Asthma is a chronic disease characterized by airway hyperresponsiveness, airway inflammation, airway remodelling and reversible airway obstruction. Inflammatory cells, cytokines, chemokines, adhesion molecules, and mediators are involved in pathogenesis of asthma. Chronic airway inflammation and remodelling are the major characters in asthma, which result in decreased pulmonary function. The precise processes are far understood at moment. Although corticosteroid therapy plus other exiting drugs （bronchodilators and oral leukotriene receptor antagonists） influences many different inflammatory and structural cell types and continues to be as the ＂gold standard＂ of therapy in asthma, many thousands have chronic, severe diseases and suffer daily symptoms which make their lives a misery. There remains a clear need for novel approaches to therapy, which will be informed by a clearer understanding of disease pathogenesis, particularly in the target organ where airway inflammation and remodelling, the hallmarks of asthma occur. Cellular ＆ Molecular Immunology.     

Platelet activation in allergic asthma patients during allergen challenge with Dermatophagoides pteronyssinus

BACKGROUND: Animal models of allergic asthma indicate that intravascular platelet activation is necessary for the development of allergen-induced chronic airway inflammation. OBJECTIVE: To evaluate whether the development of a late asthmatic response (LAR) in allergic asthma patients challenged with a relevant allergen is consequent to platelet activation. METHODS: Thirty-three house dust mite sensitive asthmatic patients were challenged intrabronchially with Dermatophagoides pteronyssinus (Dp) extract. Twelve non-atopic healthy subjects (HC) were used as controls. Platelet count and plasma levels of beta-thromboglobulin (beta-TG), platelet factor-4 (PF-4) and soluble P-selectin (sP-selectin) were assessed before the challenge (T(0)) and 30 min (T(EAR)), 6 h (T(LAR)) and 24 h (T(24)) after the challenge. RESULTS: Eleven patients responded to allergen challenge with an isolated early asthmatic response (single responders, SR). In 22 patients dual asthmatic response was demonstrated (dual responders, DR). At T(0) neither the platelet count nor the mean plasma level of beta-TG in DR or SR were different from HC, the mean plasma level of PF-4 in SR was significantly greater than in HC (P=0.01) or DR (P=0.001), the mean plasma level of sP-selectin was significantly greater in DR than in HC (0.0002) but not statistically different from SR (P=0.055). A significant decrease in the platelet count and increase in the plasma level of all the studied markers was seen at T(EAR), which was followed by a gradual return to the baseline values in the SR. Elevated plasma levels of platelet activation markers and decreased platelet count were seen in the DR even at T(24). Strong correlation was found between the increase in plasma concentration of beta-TG at T(EAR) and the maximum fall in forced expiratory volume in 1 s at T(LAR) (r=-0.57; P=0.0006). CONCLUSION: In allergic asthma patients development of prolonged airway inflammation after allergen challenge is associated with intravascular platelet activation.