Allergic Asthma Clinical Trial
Official title:
Role of Extracellular Matrix in the Development of Airway Remodeling in Asthma
Asthma is a major noncommunicable chronic inflammatory disorder which is characterized by airway inflammation and related to pathological modifications of the bronchial wall structure so called airway remodeling. Airway remodeling seen in asthma is mainly described by epithelial changes, subepithelial fibrosis, increased airway smooth muscle (ASM) mass, decreased distance between ASM and epithelium, mucous gland and goblet cell hyperplasia, vascular changes and edema. Near these well known pathophysiological changes of the airways, the extracellular matrix (ECM) can be distinguished as a new important factor included in development of airway remodeling in asthma.
Asthma is a major noncommunicable chronic inflammatory disorder which is characterized by
airway inflammation and related to pathological modifications of the bronchial wall structure
so called airway remodeling. Airway remodeling seen in asthma is mainly described by
epithelial changes, subepithelial fibrosis, increased airway smooth muscle (ASM) mass,
decreased distance between ASM and epithelium, mucous gland and goblet cell hyperplasia,
vascular changes and edema. Near these well known pathophysiological changes of the airways,
the extracellular matrix (ECM) can be distinguished as a new important factor included in
development of airway remodeling in asthma.
ECM is a building block between airways and lung parenchyma. It plays a crucial role in the
maintenance of pulmonary structure and functions influencing the distribution and adhesion of
inflammatory cells, fluid balance, elasticity and can act as a resource of inflammatory
mediators. In asthma, predominant eosinophilic airway inflammation can result the
dysregulation of ECM, which are identified as altered quantitative and qualitative
composition of ECM, activated molecular signaling pathways which are responsible for
triggered ECM proteins production. The main sources of ECM proteins in lungs are pulmonary
fibroblasts and ASM cells. In asthma, fibroblasts are responsive to many inflammatory
cytokines which activate and promote fibroblasts proliferation, contractility and cellular
differentiation to myofibroblasts form with up-regulated rate of matrix production. In turn,
activated fibroblasts secrete cytokines IL-1β, IL-33, CXC, CC chemokines, various types of
matrix metalloproteinases (MMPs) as well as reactive oxygen species. These factors allow
fibroblasts to assist in the activation and migration of resident immune cells and endow
fibroblast roles in chemical and cell-mediated immunity, acute and chronic inflammation,
extravasation of immune cells into connective tissue of the lungs. The ASM cells are also the
strong contributor to the ECM protein pool in the lungs - they can produce the variety of ECM
proteins contributing to the tissue structure and elasticity which are seen unbalanced in
asthma. While fibroblasts and ASM cells determine ECM proteins composition, the ECM in turn
can affect the structural cells behavior in lung tissue. The role of cell-matrix interactions
represents an area for active investigation on the ability of lung matrix to prime the
structural pulmonary cells.
The excess of ECM proteins deposition is associated with activation of profibrotic factor
transforming growth factor-beta 1 (TGF-β1) mediated WNT and Smad signaling pathways. Highest
levels of TGF-β1 in airways are released by eosinophils - the main inflammatory cells in
asthma pathogenesis. During stable asthma and especially allergen provoced acute asthma
episodes eosinophils infiltrate into the airways, enhancing local levels of TGF-β1 and other
various cytokines, chemokines and growth factors near the connective tissue and ASM bundles.
However, how eosinophil-released mediators induce ECM dysregulation leading to development of
airway remodeling are not investigated part of asthma pathogenesis.
Asthma still cannot be cured, but appropriate management can control the disease severity.
Better understanding in development of asthma is the main objective which must to be pursued.
Based on this rationale the investigators aimed to investigate eosinophilic airway
inflammation mediated production of ECM proteins and MMPs, activity for their release
responsible molecular signaling pathways, and how dysregulated ECM affect fibroblasts and ASM
cells proliferation, migration, differentiation and contractility in asthma. Trying to
understand and control the development of asthma the investigators will use models of
combined cells cultures estimating ECM homeostasis in stable and acute asthma. Blocking with
specific inhibitors of WNT and Smad signaling pathways, potentially responsible for ECM
proteins and MMPs production, will help to find the controlling mechanisms of ECM
dysregulation. Therefore, evaluation of ECM proteins degradation fragments and levels of MMPs
will help to estimate an applied value of these circulating biomarkers in asthma patients.
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