Chronic Obstructive Pulmonary Disease Clinical Trial
Official title:
Role of ADAMs in Epithelial Dysregulation in COPD. Differences Between From Non-smokers, Healthy Smokers and Patients With COPD.
Despite emerging implications for ADAMs (and matrix metalloproteinases (MMPs)) in disease progression, the mechanisms that lead to activation of specific ADAMs (and MMPs) and their actions in chronic obstructive pulmonary disease (COPD) are still incompletely understood. In the current study, the researchers aim to investigate the effects of cigarette smoke on cellular parameters that are relevant for development of COPD and the involvement of ADAM activity in these effects. By studying the effects of ADAM inhibition, the researchers aim to provide novel insights in the role of ADAMs in the development of COPD, which may offer new therapeutic targets for the treatment of COPD.
Smoking is the largest risk factor for the development of COPD. It has been shown in
patients with COPD that smoking induces airway inflammation characterized by bronchial
infiltration of neutrophils, macrophages, lymphocytes and mast cells. In addition, smoking
accelerates lung function loss and increases bronchial hyperresponsiveness, symptoms, and
even mortality in COPD. When inhaled, tobacco smoke first encounters the airway epithelium,
which forms a barrier to environmental substances and limits their access to the
subepithelial layer. There is suggestive evidence that impaired repair responses and loss of
epithelial integrity in the airways play a crucial role in the pathogenesis and contribute
to tissue remodeling in COPD. Remodeling of the airway epithelium, e.g., squamous metaplasia
and mucous hyperplasia, is often observed in COPD.
Metalloproteases (MMPs) and A Disintegrin and Metalloproteinase (ADAM)s may play an
important role in respiratory diseases. MMPs and ADAMs, a class of membrane-bound MMPs, form
a family of enzymes involved in degrading extracellular matrix (ECM) components. Their
proteolytic activity is involved in remodeling of the ECM, which is required for migration
and repair processes and regulated tissue turn-over. However, aberrant activity can lead to
tissue destruction and irreversible damage. Thus MMPs, and ADAMs may play an important role
in respiratory diseases and a protease-antiprotease imbalance may contribute to airway
remodeling and impaired epithelial repair in COPD. In addition, MMPs/ADAMs act in regulatory
events in inflammation and airway remodeling by liberating adhesion molecules and shedding
of growth factors and cytokines from the cell surface. Furthermore, ADAMs play a role in
cell-cell and cell-matrix interactions by their so-called disintegrin domain. In epithelial
cells, both MMPs and ADAMs are known to regulate intercellular contacts, cell-matrix
contacts, migratory responses, shedding of cytokines/growth factors, and intracellular
signaling pathways. Since increased MMP levels (e.g., MMP-9, 12) have been observed during
COPD exacerbations and polymorphisms in specific ADAM genes (i.e., ADAM33) have been
associated with COPD susceptibility, the activation of MMPs and ADAMs on the airway
epithelium may play an important role in the pathogenesis of COPD. Reactive oxygen species
present in cigarette smoke may activate Duox, leading to activation of ADAM17 in airway
epithelial cells. ADAM17 has been described to be involved in the release of growth factors
(TGF-α), leading to the release of proinflammatory cytokines (IL-8) and production of MUC5AC
10-13. TGF-α acts on the EGF receptor (EGFR), which is involved in the production of MUC5AC
and goblet cell hyperplasia. IL-8 is a well-known chemo-attractant for neutrophils, and thus
may play a central role in neutrophilic inflammation in COPD, leading to ROS production, the
release of neutrophil elastase and emphysema.
Despite emerging implications for ADAMs (and MMPs) in disease progression, the mechanisms
that lead to activation of specific ADAMs (and MMPs) and their actions in COPD are still
incompletely understood. In the current study, we aim to investigate the effects of
cigarette smoke on cellular parameters that are relevant for development of COPD and the
involvement of ADAM activity in these effects. By studying the effects of ADAM inhibition,
we aim to provide novel insights in the role of ADAMs in the development of COPD, which may
offer new therapeutic targets for the treatment of COPD.
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