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Query: UNIPROT:P15088 (
mast cell
)
14,925
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A growing body of evidence has emerged in support of a pro-inflammatory role for adenosine in the pathogenic mechanisms of chronic inflammatory disorders of the airways such as asthma and
COPD
. The demonstration that adenosine enhances
mast cell
allergen-dependent activation, the notion that elevated levels of adenosine are present in chronically inflamed airways, and the results from exposure studies of nebulised adenosine showing dose-dependent bronchoconstriction in subjects with asthma and
COPD
, emphasise the importance of adenosine in the initiation, persistence and progression in these common inflammatory disorders of the airways. Adenosine exerts its manifold biological activities by interacting with at least four adenosine receptor subtypes. Selective activation or blockade of these sites is being exploited by the pharmaceutical industry in an attempt to generate novel therapies for asthma and
COPD
. This review article intends to address the potential role of adenosine in asthma and to put forward the idea that drugs that have been developed to selectively activate or downregulate adenosine receptor subtypes may constitute a considerable advance in the management of chronic airway inflammation.
...
PMID:Adenosine receptors as promising therapeutic targets for drug development in chronic airway inflammation. 1678 72
The role of mast cells in contractile bronchial smooth muscle activity has been evaluated in a model of chronic obstructive pulmonary disease induced in rats that were intermittently exposed to nitrogen dioxide (NO
2
) for 60 days. Starting from the 31st day, one group of rats inhaled sodium cromoglycate before exposure to NO
2
to stabilize
mast cell
membranes. The second group (control) was not treated. Isometric smooth muscle contraction was analysed in isolated bronchial samples in response to nerve and smooth muscle stimulation. Histological analysis revealed large numbers of mast cells in lung tissue of
COPD
model rats. The inhibition of
mast cell
degranulation by sodium cromoglycate prevented the development of nerve-stimulated bronchial smooth muscle hyperactivity in
COPD
model rats. Histamine or adenosine-induced hyperactivity on nerve stimulation was also inhibited by sodium cromoglycate in bronchial smooth muscle in both control and
COPD
model rats. This suggests that the mechanism of contractile activity enhancement of bronchial wall smooth muscle cells may be mediated through the activation of resident mast cells transmembrane adenosine receptors resulting in their partial degranulation, with the released histamine acting upon histamine H1-receptors which trigger reflex pathways via intramural ganglion neurons.
...
PMID:Role of mast cells in bronchial contraction in nonallergic obstructive lung pathology. 2886 18
