Eosinophils in bronchial mucosa of asthmatics after allergen challenge: effect of anti-IgE treatment

Anti-IgE, omalizumab, inhibits the allergen response in patients with asthma. This has not been directly related to changes in inflammatory conditions. We hypothesized that anti-IgE exerts its effects by reducing airway inflammation. To that end, the effect of anti-IgE on allergen-induced inflammation in bronchial biopsies in 25 patients with asthma was investigated in a randomized, double-blind, placebo-controlled study. Allergen challenge followed by a bronchoscopy at 24 h was performed at baseline and after 12 weeks of treatment with anti-IgE or placebo. Provocative concentration that causes a 20% fall in forced expiratory volume in 1 s (PC(20)) methacholine and induced sputum was performed at baseline, 8 and 12 weeks of treatment. Changes in the early and late responses to allergen, PC(20), inflammatory cells in biopsies and sputum were assessed. Both the early and late asthmatic responses were suppressed to 15.3% and 4.7% following anti-IgE treatment as compared with placebo (P < 0.002). This was paralleled by a decrease in eosinophil counts in sputum (4-0.5%) and postallergen biopsies (15-2 cells/0.1 mm(2)) (P < 0.03). Furthermore, biopsy IgE+ cells were significantly reduced between both the groups, whereas high-affinity IgE receptor and CD4+ cells were decreased within the anti-IgE group. There were no significant differences for PC(20) methacholine. The response to inhaled allergen in asthma is diminished by anti-IgE, which in bronchial mucosa is paralleled by a reduction in eosinophils and a decline in IgE-bearing cells postallergen without changing PC(20) methacholine. This suggests that the benefits of anti-IgE in asthma may be explained by a decrease in eosinophilic inflammation and IgE-bearing cells.

Inflammation and Remodeling in Infantile, Juvenile, and Adult Allergic Sensitized Mice

Background: Airway structural changes occur early in childhood asthma, but it is unknown whether the development of airway alterations in children is similar to that of adults. We compared inflammation and remodeling parameters in allergic sensitized infantile, juvenile, and adult mice. Methods: Infantile mice (18D) were sensitized with three intraperitoneal injections (i.p.) of ovalbumin (OVA) at days 5 and 7 and challenged with OVA at days 14-16. The 18D1 group received an additional challenge at days 9-11. The juvenile mice (40D) received challenges at days 22-24 and 36-38. Adult mice (100D) were sensitized at days 60-62 and received three inhalations at days 77-79 and 96-98. Animals were submitted to whole body plethysmography. Airway eosinophils, CD3+ T-lymphocytes, IL-5+ cells, mucus content, collagen and reticular fibers density, and smooth muscle thickness were quantified. Results: All sensitized animals presented with airway hyperresponsiveness, without differences in eosinophil cell density The density of CD3+ T-cells was higher in the 100D and 1801 groups than in the 18D and 40D groups. Infantile sensitized groups demonstrated increased interleukin-5 expression in the airways. Infantile mice demonstrated more mucus in the bronchiolar epithelium than the 40D and 100D mice. The 18D animals demonstrated less collagen than the 18D1 group. Juvenile and adult mice had increased airway smooth muscle thickness when compared to age-matched controls, but no differences were observed in the infantile groups. Conclusion: We have shown that infantile mice develop inflammatory and structural alterations in the airways that are partially different from those developed in older animals. Pediatr Pulmonol. 2011;46:650-665. (C) 2011 Wiley-Liss, Inc.

Pulmonary biology of anti-interleukin 5 antibodies

Interleukin 5 (IL-5) is a critical cytokine for the maturation of eosinophil precursors to eosinophils in the bone marrow and those eosinophils then accumulate in the lungs during asthma. We have studied anti IL-5 antibodies on allergic responses in mice, guinea pigs and monkeys and are extending this experiment into humans with a humanized antibody. In a monkey model of pulmonary inflammation and airway hyperreactivity, we found that the TRFK-5 antibody blocked both responses for three months following a single dose of 0.3 mg/kg, i.v. This antibody also blocked lung eosinophilia in mice by inhibiting release from the bone marrow. To facilitate multiple dosing and to reduce immunogenicity in humans, we prepared Sch 55700, a humanized antibody against IL-5. Sch 55700 was also active against lung eosinophilia in allergic monkeys and mice and against pulmonary eosinophilia and airway hyperresponsiveness in guinea pigs. Furthermore, as opposed to steroids, Sch 55700 did not cause immunosuppression in guinea pigs. Studies with this antibody in humans will be critical to establishing the therapeutic potential of IL-5 inhibition.

Clara cells drive eosinophil accumulation in allergic asthma.

Development of allergic asthma is a complex process involving immune, neuronal and tissue cells. In the lung, Clara cells represent a major part of the "immunomodulatory barrier" of the airway epithelium. To understand the contribution of these cells to the inflammatory outcome of asthma, disease development was assessed using an adjuvant-free ovalbumin model. Mice were sensitised with subcutaneous injections of 10 μg endotoxin-free ovalbumin in conjunction with naphthalene-induced Clara cell depletion. Clara epithelial cell depletion in the lung strongly reduced eosinophil influx, which correlated with decreased eotaxin levels and, moreover, diminished the T-helper cell type 2 inflammatory response, including interleukin (IL)-4, IL-5 and IL-13. In contrast, airway hyperresponsiveness was increased. Further investigation revealed Clara cells as the principal source of eotaxin in the lung. These findings are the first to show that Clara airway epithelial cells substantially contribute to the infiltration of eotaxin-responsive CCR3+ immune cells and augment the allergic immune response in the lung. The present study identifies Clara cells as a potential therapeutic target in inflammatory lung diseases such as allergic asthma.

The role of interferon-gamma on immune and allergic responses

Allergic diseases have been closely related to Th2 immune responses, which are characterized by high levels of interleukin (IL) IL-4, IL-5, IL-9 and IL-13. These cytokines orchestrate the recruitment and activation of different effector cells, such as eosinophils and mast cells. These cells along with Th2 cytokines are key players on the development of chronic allergic inflammatory disorders, usually characterized by airway hyperresponsiveness, reversible airway obstruction, and airway inflammation. Accumulating evidences have shown that altering cytokine-producing profile of Th2 cells by inducing Th1 responses may be protective against Th2-related diseases such as asthma and allergy. Interferon-gamma (IFN-gamma), the principal Th1 effector cytokine, has shown to be crucial for the resolution of allergic-related immunopathologies. In fact, reduced production of this cytokine has been correlated with severe asthma. In this review, we will discuss the role of IFN-gamma during the generation of immune responses and its influence on allergic inflammation models, emphasizing its biologic properties during the different aspects of allergic responses.

Induction of tolerogenic lung CD4+ T cells by local treatment with a pSTAT-3 and pSTAT-5 inhibitor ameliorated experimental allergic asthma.

Signal transducer and activator of transcription (STAT)-3 inhibitors play an important role in regulating immune responses. Galiellalactone (GL) is a fungal secondary metabolite known to interfere with the binding of phosphorylated signal transducer and activator of transcription (pSTAT)-3 as well of pSTAT-6 dimers to their target DNA in vitro. Intra nasal delivery of 50 μg GL into the lung of naive Balb/c mice induced FoxP3 expression locally and IL-10 production and IL-12p40 in RNA expression in the airways in vivo. In a murine model of allergic asthma, GL significantly suppressed the cardinal features of asthma, such as airway hyperresponsiveness, eosinophilia and mucus production, after sensitization and subsequent challenge with ovalbumin (OVA). These changes resulted in induction of IL-12p70 and IL-10 production by lung CD11c(+) dendritic cells (DCs) accompanied by an increase of IL-3 receptor α chain and indoleamine-2,3-dioxygenase expression in these cells. Furthermore, GL inhibited IL-4 production in T-bet-deficient CD4(+) T cells and down-regulated the suppressor of cytokine signaling-3 (SOCS-3), also in the absence of STAT-3 in T cells, in the lung in a murine model of asthma. In addition, we found reduced amounts of pSTAT-5 in the lung of GL-treated mice that correlated with decreased release of IL-2 by lung OVA-specific CD4(+) T cells after treatment with GL in vitro also in the absence of T-bet. Thus, GL treatment in vivo and in vitro emerges as a novel therapeutic approach for allergic asthma by modulating lung DC phenotype and function resulting in a protective response via CD4(+)FoxP3(+) regulatory T cells locally.

Bacterial-induced protection against allergy through a novel multi-component immunoregulatory mechanism

Airborne microbial products have been reported to promote immune responses that suppress asthma, yet how these beneficial effects take place remains controversial and poorly understood. We have found that pulmonary exposure with the bacterium Escherichia coli leads to a suppression of allergic airway inflammation, characterized by reduced airway-hyperresponsiveness, eosinophilia and cytokine production by T cells in the lung. This immune modulation was neither mediated by the induction of a Th1 response nor regulatory T cells; was dependent on TLR-4 but did not involve TLR-desensitization. Dendritic cell migration to the draining lymph nodes and subsequent activation of T cells was unaffected by prior exposure to E.coli indicating that the immunomodulation was limited to the lung environment. In non-treated control mice ovalbumin was primarily presented by airway CD11b+ CD11c+ DCs expressing high levels of MHC class II molecules whilst the DCs in E.coli-treated mice displayed a less activated phenotype and had impaired antigen presentation capacity. Consequently, in situ Th2 cytokine production by ovalbuminspecific effector T cells recruited to the airways was significantly reduced. The suppression of airways hyper responsiveness was mediated through the recruitment of IL-17-producing gd-T cells; however, the suppression of dendritic cells and T cells was mediated through a distinct mechanism that could not be overcome by the local administration of activated dendritic cells, or by the in vivo administration of TNF-alpha. Taken together, these data reveal a novel multi-component immunoregulatory pathway that acts to protect the airways from allergic inflammation.

Role of immunoglobulin E and mast cells in murine models of asthma

Immunoglobulin E (IgE) and mast cells are believed to play important roles in allergic inflammation. However, their contributions to the pathogenesis of human asthma have not been clearly established. Significant progress has been made recently in our understanding of airway inflammation and airway hyperresponsiveness through studies of murine models of asthma and genetically engineered mice. Some of the studies have provided significant insights into the role of IgE and mast cells in the allergic airway response. In these models mice are immunized systemically with soluble protein antigens and then receive an antigen challenge through the airways. Bronchoalveolar lavage fluid from mice with allergic airway inflammation contains significant amounts of IgE. The IgE can capture the antigen presented to the airways and the immune complexes so formed can augment allergic airway response in a high-affinity IgE receptor (FcepsilonRI)-dependent manner. Previously, there were conflicting reports regarding the role of mast cells in murine models of asthma, based on studies of mast cell-deficient mice. More recent studies have suggested that the extent to which mast cells contribute to murine models of asthma depends on the experimental conditions employed to generate the airway response. This conclusion was further supported by studies using FcepsilonRI-deficient mice. Therefore, IgE-dependent activation of mast cells plays an important role in the development of allergic airway inflammation and airway hyperresponsiveness in mice under specific conditions. The murine models used should be of value for testing inhibitors of IgE or mast cells for the development of therapeutic agents for human asthma.

Asthma: where is it going?

Asthma is characterized by reversible airway obstruction, airway hyperresponsiveness, and airway inflammation. Although our understanding of its pathophysiological mechanisms continues to evolve, the relative contributions of airway hyperresponsiveness and inflammation are still debated. The first mechanism identified as important for asthma was bronchial hyperresponsiveness. In a second step, asthma was recognized also as an inflammatory disease, with chronic inflammation inducing structural changes or remodeling. However, persistence of airway dysfunction despite inflammatory control is observed in chronic severe asthma of both adults and children. More recently, a potential role for epithelial-mesenchymal communication or transition is emerging, with epithelial injury often resulting in a self-sustaining phenotype of wound repair modulation by activation/reactivation of the epithelial-mesenchymal trophic unit, suggesting that chronic asthma can be more than an inflammatory disease. It is noteworthy that the gene-environmental interactions critical for the development of a full asthma phenotype involve processes similar to those occurring in branching morphogenesis. In addition, a central role for airway smooth muscle in the pathogenesis of the disease has been explored, highlighting its secretory function as well as different intrinsic properties compared to normal subjects. These new concepts can potentially shed light on the mechanisms underlying some asthma phenotypes and improve our understanding of the disease in terms of the therapeutic strategies to be applied. How we understand asthma and its mechanisms along time will be the focus of this overview.

Durée de lʼexposition avec symptômes, séquelles et coûts de lʼasthme professionnel en relation avec le statut psychologique et socioéconomique

Le facteur le plus important de pronostic de l'asthme professionnel (AP) est la durée des symptômes avant le retrait de lʼexposition à lʼagent causant lʼAP. La qualité de vie réduite, la détresse psychologique et les maladies psychiatriques sont des conditions souvent associées à l'AP. Notre objectif était d'identifier les facteurs, incluant le statut socioéconomique, qui ont une influence sur lʼintervalle de temps nécessaire pour présenter une requête à une agence médicolégale à la suite de lʼapparition de symptômes dʼasthme et de confirmer qu'un tel délai est associé à un moins bon pronostic respiratoire et à des coûts directs plus élevés. En outre, nous avons examiné la relation entre les variables cliniques et socio-économiques dʼune part et leur influence sur les facteurs psychologiques et économiques dʼautre part chez des travailleurs atteints d'AP. Ensuite, nous avons voulu évaluer si les individus souffrant de détresse psychologique (DP) et de morbidité psychiatrique pourraient être identifiés en utilisant un instrument mesurant la qualité de vie (QV). Lʼétude a été effectuée auprès dʼindividus ayant déposé des demandes d'indemnisation pourʼAP auprès du Commission de la sécurité et de la santé du travail du Québec (CSST). Les données ont été recueillies au moment de la réévaluation, soit environ deux ans et demi après le diagnostic. Outre la collecte des marqueurs cliniques de l'asthme, les individus ont été soumis à une évaluation générale de leur histoire sociodémographique et médicale, à une brève entrevue psychiatrique (évaluation des soins primaires des troubles mentaux, PRIME-MD) et à un ensemble de questionnaires, incluant le Questionnaire sur la qualité de vie - AQLQ(S), le Questionnaire respiratoire de St. George (SGRQ) et le Psychiatric Symptom Index (PSI).Soixante personnes ont été incluses dans l'étude. Etre plus âgé, avoir un revenu supérieur à 30 000$ CA etêtre atteint dʼAP dû à un allergène de haut poids moléculaire ont une association positive avec le nombre dʼannées dʼexposition avec symptômes avant le retrait. Au cours de la période de suivi, le nombre dʼannées dʼexposition avec symptômes était plus grand chez les individus ayant une hyperréactivité bronchique persistante. Par ailleurs, la présence de symptômes au poste de travail pendant moins d'un an est associée à une réduction des coûts directs. Les paramètres de QV et de DP avaient des corrélations modérées avec les marqueurs cliniques de lʼAP. Les plus fortes associations avec ces variables ont pu être observées dans les cas de la sévérité de l'asthme, des statuts dʼemploi et matrimonial, du revenu et de la durée de la période de travail avec l'employeur. Un seuil de 5,1 au niveau de la sous-échelle de la fonction émotionnelle de lʼAQLQ(S) sʼest avéré avoir la meilleure valeur discriminante pour distinguer les individus avec ou sans détresse psychiatrique cliniquement significative selon le PSI. Nous avons été en mesure d'identifier les variables socio-économiques associées à un intervalle plus long dʼexposition professionnelle en présence de symptômes dʼasthme. De même, une plus longue période d'exposition a été associée à un moins bon pronostic de la maladie et à des coûts de compensation plus élevés. Ces résultats s'avèrent utiles pour la surveillance de lʼAP qui pourrait cibler ces sous-groupes d'individus. La QV et la PS sont fréquemment réduites chez les individus atteints d'AP qui perçoivent une compensation. Elles sont associées à des marqueurs cliniques de lʼasthme et à des facteurs socio-économiques. En outre, nos résultats suggèrent que le questionnaire de lʼAQLQ(S) peut être utilisé pour identifier les individus avec un niveau de détresse psychologique potentiellement significatif.

Análisis de polimorfismos genéticos del receptor beta-2 adrenérgico en pacientes pediátricos asmáticos y controles sanos en una muestra de la ciudad de Bogotá

El asma bronquial es una enfermedad inflamatoria crónica, se asocia a hiperrespuesta de la vía aérea, la cual lleva a episodios recurrentes de sibilancias, tos y disnea. La entidad se ha correlacionado con una gran variedad de genes involucrados en su fisiopatología, dentro de los cuales se encuentran genes localizados en el cromosoma 5 (5q23-31), como el del Receptor ß2 Adrenérgico (RB2A). En el presente trabajo se realizó una estimación de las frecuencias de los polimorfismos Arg16Gly, Gln27Glu y Thr164Ile de este receptor, y se estudió la relación existente entre los diferentes polimorfismos y asma, así como su relación con respecto a la severidad de la enfermedad, finalmente se estimó la relación de los haplotipos conformados por estos tres polimorfismos y su asociación con la enfermedad y severidad del fenotipo asmático.

Influence of asthma definition on the asthma-obesity relationship

Background: Epidemiological studies suggest an association between obesity and asthma in adults and children. Asthma diagnosis criteria are different among studies. The aim of this study was to test the influence of asthma definition on the asthma-obesity relationship. Methods: In a cross-sectional analysis of 1922 men and women, subjects completed a translated questionnaire from the European Community Respiratory Health Survey and underwent spirometry and a bronchial challenge test. Weight, height and waist circumference were measured. Multiple logistic regression analysis was carried out to assess the association of variables related to obesity and asthma. Asthma was defined either by the presence of symptoms with bronchial hyperresponsiveness (BHR) or by a self-report of a physician-made diagnosis. The following variables were separately tested for associations with asthma: socioeconomic characteristics, schooling, physical activity, smoking status, anthropometry and spirometry. Results: No association was detected between asthma confirmed by BHR and obesity indicators, odds ratio (OR) = 1.08 (95% confidence interval: 0.69 - 1.68) for obesity assessed by body mass index >= 30 kg/m(2); OR = 1.02 (0.74 - 1.40) for obesity assessed by abnormal waist-to-height ratio; and, OR = 0.96 (0.69 - 1.33) for abnormal waist circumference. On the contrary, a previous diagnosis of asthma was associated with obesity, OR = 1.48 (1.01 - 2.16) for body mass index >= 30 kg/m(2); OR = 1.48 (1.13 - 1.93) for abnormal waist-to-height ratio; and, OR = 1.32 (1.00 - 1.75) for abnormal waist circumference. Female gender, schooling >= 12 years and smoking were associated with BHR-confirmed asthma. Physically inactive subjects were associated with a previous diagnosis of asthma. Conclusions: Our findings indicate that the relationship between asthma and obesity in epidemiological studies depends on the definition adopted. Certain components of asthma, for instance, symptoms may be more prone to the obesity influence than other ones, like bronchial hyperresponsiveness.

Exercise-induced bronchoconstriction in elite long-distance runners in Brazil

Objective: To determine the prevalence of exercise-induced bronchoconstriction among elite long-distance runners in Brazil and whether there is a difference in the training loads among athletes with and without exercise-induced bronchoconstriction. Methods: This was a cross-sectional study involving elite long-distance runners with neither current asthma symptoms nor a diagnosis of exercise-induced bronchoconstriction. All of the participants underwent eucapnic voluntary hyperpnea challenge and maximal cardiopulmonary exercise tests, as well as completing questionnaires regarding asthma symptoms and physical activity, in order to monitor their weekly training load. Results: Among the 86 male athletes recruited, participation in the study was agreed to by 20, of whom 5 (25%) were subsequently diagnosed with exercise-induced bronchoconstriction. There were no differences between the athletes with and without exercise-induced bronchoconstriction regarding anthropometric characteristics, peak oxygen consumption, baseline pulmonary function values, or reported asthma symptoms. The weekly training load was significantly lower among those with exercise-induced bronchoconstriction than among those without. Conclusions: In this sample of long-distance runners in Brazil, the prevalence of exercise-induced bronchoconstriction was high.

Rolle von NFATc2 in einem murinen Asthmamodell

Nuclear factor of activated T cells (NFAT) ist eine Familie der Transkriptionsfaktoren, welche eine wichtige Rolle bei der Regulation der T-Zellvermittelten Signalkaskade in der Lymphozytenpopulation spielt. In dieser Arbeit konnte gezeigt werden, dass Nuclear Factor of Activated T cells-2 (NFATc2) defiziente Mäuse einen erhöhten Atemwegswiderstand, einen pathologische Veränderung der Lunge und einen erhöhten IgE Spiegel im Vergleich zu den Wildtypen vorweisen. Die NFATc2 Defizienz konnte ebenfalls sowohl mit einer erhöhten Anzahl an Th2 und Th17 Zellen, die eine erhöhte Proliferation vorweisen, als auch einer erniedrigten Anzahl an CD8+ CD122- T-Zellen, die geringere Mengen an IFN-g produzieren, in Verbindung gebracht werden. Die aus den NFATc2(-/-) Mäusen isolierten CD4+ T-Zellen zeigen im Vergleich zu denen der Wildtypen neben der erhöhten Proliferation einen vermehrte Aktivierung (CD4higCD44highCD69high). Weiterhin konnte in dieser Arbeit gezeigt werden, dass in Anwesenheit eines Allergens, die NFATc2(-/-) Mäuse eine erhöhte Anzahl an regulatorischen T-Zellen (CD4+CD25+Foxp3+GITR++) in der Lunge vorweisen, die wiederum die Effektorzellen in diesen hemmen. Ein Grund für die geringere Freisetzung an IFN-g durch die CD8+ T-Zellen in den NFATc2 defizienten Mäusen ist eine erhöhte Subpopulation von CD8+CD122+ (IL-2Rb Kette) CD127hi (IL-7Ra Kette) „long-lived memory Zellen“ in den NFATc2(-/-) Mäusen. Diese besitzen einen regulatorischen Effekt, so dass immundefiziente SCID Mäuse, die in einem adoptiven Transfer mit OVA-spezifischen CD8+ und CD4+ T-Zellen, welchen aus NFATc2(-/-) Mäuse isoliert werden, behandelt wurden, eine erhöhten Atemwegswiderstand, eine erhöhte IL-17 und eine erniedrigte IFN-g Produktion vorweisen. Eine Depletion der memory CD8+CD122+IL-7Rhigh T-Zellen hebt dagegen die verringerte IFN-g Produktion der CD8+CD122- T-Zellen auf und führt zu einer Erniedrigung des Atemwegswiderstandes in einem SCID Model Zusammenfassend zeigen unsere Untersuchungen, dass sowohl die IFN-g Produktion der CD8+ Effektor T-Zellen als auch die Anzahl an CD4+CD25+Foxp3+GITR++ regulatorischen T-Zellen die Entwicklung der Th2 und Th17 als auch die Höhe des Atemwegswiderstandes unterdrückt.

Suppression des allergischen Asthmas durch regulatorische T-Zellen: Mechanismen und potenzielle therapeutische Ansätze

Das allergische Asthma ist eine weit verbreitete, immunologische Erkrankung, deren Prävalenz in den vergangenen 20 Jahren vor allem in industrialisierten Regionen drastisch zugenommen hat. Trotz intensiver Forschung und Entwicklung medikamentöser Therapien steigt die Zahl der Patienten stetig an. Charakteristisch für diese Erkrankung sind entzündliche Veränderungen in der Lunge, erhöhte Atemwegsüberempfindlichkeit (AHR), Mukusproduktion und in chronischen Fällen auch Atemwegsobstruktion. Bei der Entstehung des allergischen Asthmas wird ein anfälliges Individuum durch die Inhalation eines normalerweise unschädlichen, in der Umwelt vorkommenden Antigens (Allergen) sensibilisiert, wodurch im Körper eine eigentlich unangebrachte Immunreaktion in Gang gesetzt wird. CD4+ T-Lymphozyten und ganz besonders die Subpopulationen der T-Helfer 1 (Th1) und Th2 Zellen spielen in dem Prozess eine zentrale Rolle. Obwohl ein Großteil der Asthmatiker mit einer Atemwegseosinophilie und erhöhter Expression der Th2-typischen Zytokine IL-4 und IL-13 ein Th2-typisches Krankheitsbild aufweisen, wurden weitere Asthmaphänotypen identifiziert. Vornehmlich in Patienten, die an schwerem Asthma leiden, sind dominierende Neutrophilie und erhöhte Mengen IFN-γ in den Atemwegen nachweisbar, was auf eine Th1-gesteuerte Immunreaktion hindeutet. Eine effektive, heilende Therapie des Asthmas wurde bislang nicht entwickelt. Die Inhibition der T-Zellantwort etwa durch Applikation allergenspezifischer, regulatorischer T-Zellen (Tregs) gilt als ein vielversprechender, aber nicht vollständig erforschter Ansatz zur Kontrolle der Krankheitssymptome. In diesem Zusammenhang wurden in der vorliegenden Arbeit die Mechanismen und Effekte natürlich vorkommender CD4+CD25+Foxp3+ regulatorischer T-Zellen (nTregs) auf eine Th1 bzw. Th2-induzierte allergische Atemwegserkrankung untersucht. Anhand eines adoptiven Zelltransfermodells unter Einsatz lymphozytendefizienter Rag2-/- Mäuse konnte gezeigt werden, dass sowohl Th1 als auch Th2 Zellen, kombiniert mit mehrfacher, inhalativer Allergenprovokation, eine erhöhte AHR induzieren. Während der Transfer allergenspezifischer Th2 Zellen eine Eosinophilie in der bronchoalveolären Lavage (BAL) und vermehrte Mukusproduktion in den Atemwegen hervorrief, war in Th1-transferierten Tieren zwar eine massive Infiltration neutrophiler Granulozyten zu beobachten, eine Becherzellmetaplasie mit vermehrten, mukusproduzierenden Atemwegsepithelzellen blieb allerdings aus. In vitro und in vivo waren voraktivierte nTregs (preTregs) nur eingeschränkt in der Lage, die Th2-gesteuerte Atemwegserkrankung zu inhibieren. Im Gegensatz dazu konnten die Th1-Effektorfunktionen in vitro und die Th1-induzierte AHR und Atemwegsentzündung in vivo durch preTregs effektiv gehemmt werden, was auf eine unterschiedliche Empfindlichkeit der Th-Subpopulationen weist. Innerhalb der nTreg-vermittelten Suppression wird der sekundäre Botenstoff cAMP auf die zu supprimierende Zelle übertragen und führt zur Hemmung von Proliferation und Zytokinproduktion. Dass dieser Mechanismus nicht nur in vitro, sondern auch in der Suppression der Th2-gesteuerten allergischen Atemwegserkrankung eine Rolle spielt, konnte durch die Störung des intrazellulären cAMP-Abbaus mittels PDE4-Inhibitoren verdeutlicht werden. Sowohl die prophylaktische, als auch die therapeutische Applikation der PDE4-Inhibitoren verstärkte den regulativen Effekt der nTregs auf AHR und Entzündung, korrelierend mit erhöhten, zytosolischen cAMP-Konzentrationen in den Th2 Zellen der Lunge. Trotz des Fortschritts in der Isolation und In vitro-Expansion humaner nTregs ist die Ausbeute an Zellen äußerst limitiert und die Übertragbarkeit größerer Zellmengen nicht zuletzt aufgrund von hohem Kontaminationsrisiko während mehrtägiger In vitro-Expansion fragwürdig. Die Ergebnisse der vorliegenden Arbeit zeigen, dass eine Behandlung mit dem PDE4-Inhibitor die suppressive Kapazität der allergenspezifischen nTregs deutlich erhöhte. Den nTreg-vermittelten Suppressionsmechanismus durch den Einsatz von Pharmazeutika zu unterstützen bietet einen viel versprechenden und realistischen Ansatz zur Therapie des allergischen Asthmas.