The European respiratory journal : official journal of the European Society for Clinical Respiratory Physiology
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Obstructive sleep apnoea (OSA) is common in children and leads to multiple end-organ morbidities. Myeloid-related protein (MRP) 8/14 plays an important pathophysiological role in atherosclerosis, and plasma levels correlate with endothelial cell dysfunction. We hypothesised that MRP8/14 levels would be altered in children with OSA. 255 children (aged 7.6+/-1.5 yrs) were included after a sleep study and a morning blood sample. ⋯ Children with the highest MRP levels (>1.34 ug x mL(-1)) had 2.4- and 5.4-fold increased odds of mild OSA and moderate-to-severe OSA, respectively, after adjusting for confounding variables. Plasma MRP8/14 levels are associated with paediatric OSA and may reflect increased risk for cardiovascular morbidity. The short- and long-term consequences of elevated MRP8/14 on cardiovascular function in the context of paediatric OSA remain to be defined.
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We hypothesised that endothelin (ET)-1 plays an important role in the pathogenesis of emphysema. We attempted to apply ET-1 receptor antagonists to demonstrate and further elucidate the molecular pathogenesis pathways through which ET-1 may cause emphysematous changes. Sprague-Dawley rats were divided into four groups: control, cigarette smoke extract (CSE), CSE+BQ-123 (a selective endothelin receptor type A (ET(A)) antagonist) and CSE+bosentan (a mixed ET(A)/ET(B) receptor antagonist). ⋯ Both BQ-123 and bosentan prevented the development of CSE-induced emphysema, blocked the expression of ET(A) receptor, inhibited pulmonary apoptosis, inactivated MMP-2 and MMP-9 activities in the lung tissues, reduced the concentrations of inflammatory cytokines TNF-alpha and IL-1beta, and improved the biological antioxidant activity in the serum. Emphysema development is suppressed by ET-1 receptor antagonists. ET-1 may cause emphysematous changes through molecular pathogenesis pathways involving apoptosis, proteinase and antiproteinase imbalance, inflammation and oxidative stress.