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ACVIM Adopts Term 'Equine Asthma' in Consensus Statement
TheHorse.com Recognizing the similarities between inflammatory airway disease (IAD) and recurrent airway obstruction (RAO) in horses (and humans, for that matter) and asthma, one of the important updates in the consensus statement was the recommendation to adopt … |
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Heat Waves, Pollen Could Worsen Equine Asthma Signs
TheHorse.com But could this change in temperatures wreak havoc on a horse with equine asthma? Recent study results suggest that heat waves and pollen—not just dusty hay and surroundings—could also be associated with increased asthma severity in horses. |
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Heaves, COPD, RAO, or Simply Equine Asthma?
TheHorse.com Equine asthma is used to describe the state of airway hyper-responsiveness following inhalation of dust particles commonly found in barns. Such exposure is usually the result of feeding moldy hay. However, some horses present identical signs while … |
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Concomitant inhibition of primary equine bronchial fibroblast proliferation and differentiation by selective ?2-adrenoceptor agonists and dexamethasone.
Eur J Pharmacol. 2014 Aug 13;
Authors: Franke J, Abraham G
Abstract
Altered airway cell proliferation plays an important role in the pathogenesis of human bronchial asthma and chronic obstructive pulmonary disease (COPD) as well as the equine recurrent airway obstruction (RAO) with consistent changes, i.e. narrowing the airway wall, explained by proliferation and differentiation of fibroblasts. In permanent cell lines, it has been suggested that ?2-adrenoceptor agonists and glucocorticoids regulate cell proliferation via the ?2-adrenoceptor pathway; indeed, no study was carried out in fresh isolated primary equine bronchial fibroblasts (EBF). We characterized the ?-adrenoceptors in EBF, and compared effects of long-acting (clenbuterol) and short-acting (salbutamol, isoproterenol) ?2-agonists and dexamethasone on proliferation, differentiation and collagen synthesis. High density (Bmax; 5037±494 sites/cell) of ?2-adrenoceptor subtype was expressed in EBF. ?2-agonists inhibited concentration-dependently EBF proliferation with potency of clenbuterol>salbutamol l» isoproterenol which was inhibited by ICI 118.551 and propranolol but not by CGP 20712A. In contrast, dexamethasone alone inhibited less EBF proliferation, but the effect was high when dexamethasone was combined with ?2-agonists. Transforming growth factor-?1 (TGF-?1) increased transformation of fibroblasts into myofibroblasts, and which was inhibited by clenbuterol and dexamethasone alone and drug combination resulted in high inhibition rate. Collagen synthesis in EBF was rather hampered by dexamethasone than by ?-agonists. Collectively, the expression of ?2-adrenoceptor subtype in EBF and the anti-proliferative effect of clenbuterol suggest that ?2-adrenoceptors are growth inhibitory and anti-fibrotic in EBF. These ?2-agonist effects in EBF were synergistically enhanced by dexamethasone, providing the additive effects of glucocorticoids to counteract airway remodelling and morbidity of asthma and RAO.
PMID: 25128704 [PubMed – as supplied by publisher]
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