[Development of a murine model of airway inflammation and remodeling in experimental asthma].

OBJECTIVE

Experimental animal models are necessary for studying asthma disease mechanisms and for identifying new therapeutic targets. We present a murine model of experimental asthma that allows integrated, quantitative assessment of airway inflammation and remodeling.

METHODS

BALB/c mice were sensitized to ovalbumin (OVA) and challenged with OVA or vehicle 3 times per week for 12 weeks.

RESULTS

On bronchoalveolar lavage, the OVA-sensitized mice had significantly higher total leukocyte counts, with a median (Q25-Q75) of 670.0 cells/mL x 10(3) (376.2, 952.5) in comparison with 40.0 cells/mL x 10(3) (60.0-85.0) in controls (P=.001), and higher eosinophil and differential lymphocyte counts. In sagittal sections of lungs inflated to a standard pressure, the OVA-sensitized animals showed goblet cell hyperplasia in the respiratory epithelium (periodic acid-Schiff staining, 53.89 [36.26-62.84]cells/mm(2) vs 0.66 [0.00-1.06]cells/mm(2), P<.001), dense mononuclear and eosinophilic inflammatory infiltrates (hematoxylin-eosin, 32.87 [27.34-37.13]eosinophils/mm(2) vs 0.06 [0.00-0.20]eosinophils/mm(2), P=.002), subepithelial infiltration by mast cells (toluidine blue, 2.88 [2.00-3.28] mast cells/mm(2) vs 0.28 [0.15-0.35] mast cells/mm(2), P<.001), increased contractile tissue mass (immunofluorescence analysis for alpha-smooth-muscle actin, 2.60 [2.28-2.98] vs 1.08 [0.93-1.16], dimensionless, P<.001) and enhanced extracellular matrix deposition (Masson's trichrome, 2.18 [1.85-2.80] vs 0.50 [0.37-0.65], dimensionless, P<.001).

CONCLUSIONS

Our dataset describes an experimental model of asthma which is driven by prolonged allergen exposure and in which airway inflammation and remodeling develop and are assessed together.