Rationale: Asthma inception occurs only in susceptible individuals, and is often triggered by specific environmental factors, such as respiratory viruses and aeroallergens. Although asthma is generally viewed as a chronic persistent disease, remission of asthma is possible in a subset of patients. This is highly relevant, since understanding mechanisms that contribute to asthma inception and remission may teach us how asthma can be stopped and thus may provide novel avenues for the treatment of asthma. In adulthood, average remission rates of asthma are approximate 2% per year 1. We observed that remission in adulthood is more likely with earlier onset of asthma, less airway obstruction, more severe bronchial hyperresponsiveness, and smoking cessation. A proper definition of remission is very important; we therefore introduced the terms 'clinical remission' and 'complete remission' 2. Clinical remission was defined as the absence of asthma symptoms and no use of asthma medication, complete remission as the absence of asthma symptoms, no use of asthma medication, normal lung function and no bronchial hyperresponsiveness. In a longitudinal study of 119 allergic asthmatic children followed-up for 30 years, our group found that clinical remission occurred in 30% and complete remission in 22% of all cases.
Objective: to determine the underlying mechanisms and molecular events involved in the inception and remission of asthma.
Methods: We will include a 40 subjects divided over the following 4 groups: i) clinical asthma remission (10 subjects), ii) complete asthma remission (10 subjects), iii) ongoing asthma (10 patients), iv) non-asthmatic healthy controls (10 subjects) in a cross-sectional study. All subjects will be extensively clinically characterized including respiratory symptoms/questionnaires, in- and expiratory CT-scans, and parameters of large and small airway function and inflammation. In addition, blood and nasal epithelial brushes will be obtained to study the genetic and epigenetic mechanisms of asthma remission. Finally, bronchoscopy with bronchial biopsies and brushes will be performed under conscious sedation. Bronchial biopsies from all four patient groups will be used for index FACS sorting of the three most important cell types orchestrating the asthmatic inflammatory process: i.e. B lymphocytes, CD4+ T cells and CD8+ T cells. We will perform single cell whole-genome transcriptome sequencing on at least 100 cells of each type and the primary outcome of the study is to identify how the transcriptomic profile of bronchial epithelial cells is changed between asthma patients and healthy controls as a consequence of asthma inception and what transcriptomic profile changes occur in CD4+ CD8+ and B lymphocytes in the airways from subjects with asthma remission compared to patients with ongoing asthma and healthy controls.