We conducted a randomized, double-blind, parallel-group study to assess the effect of 6 weeks treatment with low-dose (100 microg twice a day) or high-dose (500 microg twice a day) inhaled fluticasone propionate (FP) on the vascular component of airway remodeling in 30 patients with mild to moderate asthma. We also studied the effect on the inflammatory cells and the basement membrane thickness, and we compared findings from bronchial biopsies taken in patients with asthma with those in eight control subjects. Bronchial responsiveness to methacholine and asthma symptom score were measured before and after treatments. Eight patients in the low-dose FP group and eight patients in high-dose FP group completed the study. At baseline, patients with asthma showed an increase in the number of vessels and in vascular area as compared with control subjects. In the subjects with asthma, number of vessels correlated with vascular area (p < 0.01) and with number of mast cells (p < 0.01). Bronchial responsiveness to methacholine, asthma symptom score, and inflammatory cells decreased significantly after both low- and high-dose FP (p < 0.05). However, the number of vessels, the vascular area, and the basement membrane thickness decreased only after high-dose FP (p < 0.05). In conclusion, this study shows that in patients with mild to moderate asthma, high dose of inhaled FP given over 6 weeks can significantly affect airway remodeling by reducing both submucosal vascularity and basement membrane thickness.
This study shows that VEGF, in addition to being involved in the vascular component of airway remodelling, may play a role in the thickening of the basement membrane in asthma.
Systems y+ and y+L represent the main routes for arginine transport in mammalian cells. While system y+ activity is needed for the stimulated NO production in rodent alveolar macrophages (AM), no information is yet available about arginine transport in human AM. We study here arginine influx and genes for arginine transporters in AM from bronchoalveolar lavage of normal subjects. These cells express the y+ -related genes SLC7A1/CAT1 and SLC7A2/CAT2B, as well as the y+L genes SLC7A7/y+LAT1 and SLC7A6/y+LAT2. However, compared with human endothelial cells, AM express much less SLC7A2 mRNA and higher levels of SLC7A7 mRNA. Granulocyte macrophage colony-stimulating factor or IFN-gamma do not change the expression of any transporter gene, while lipopolysaccharide induces SLC7A2/CAT2B. Under all the conditions tested, leucine inhibits most of the arginine transport in the presence of Na+ and N-ethylmaleimide, an inhibitor of system y+, is completely ineffective, indicating that system y+L operates most of the arginine influx. Comparable results are obtained in AM from patients with interstitial lung disease, such as Nonspecific Interstitial Pneumonia (NSIP), although these cells have a higher SLC7A1 and a lower SLC7A7 expression than AM from normal subjects. It is concluded that AM from normal subjects or patients with NSIP lack a functional transport system y+, a situation that may limit arginine availability for NO synthesis. Moreover, since mutations of SLC7A7/y+LAT1 cause Lysinuric Protein Intolerance, a disease often associated with AM impairment and alveolar proteinosis, the high SLC7A7 expression observed in human AM suggests that y+LAT1 activity is important for the function of these cells.
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