Effect of Nintedanib in a rat model of lung fibrosis induced by single or double bleomycin administration

Abstract

Background: Idiopathic Pulmonary Fibrosis (IPF), is a progressive lung disease characterized by basal and subpleural fibrosis associated with honeycomb changes. In experimental settings, single intratracheal (IT) administration of bleomycin (BLM) to rodents is the most commonly used model. In order to more closely mimic human IPF, a novel experimental procedure with two IT administrations of BLM in rats is described. Aims and objectives: Histological and biomolecular findings following single and double IT administration of BLM in the rat were compared. Furthermore, the effect of Nintedanib was assessed. Methods: Single (4U/Kg, day 1) or double (2 X 2U/Kg, day 1 and day 4) administration of BLM was given IT to male SD rats. Nintedanib (100 mg/kg, oral) was administered once daily for three weeks starting from day 7. Morphometric quantification of different patterns of lung fibrosis and cluster gene expression on tissue homogenate (Real Time PCR) were performed. Results: A single BLM administration induced focal collagen deposition mostly surrounding the main bronchi. In contrast, two BLM administrations seemed to evoke a more diffuse pattern of interstitial collagen deposition widening lung parenchyma. Reduction of lung fibrosis by Nintedanib was more effective in the 2 X 2U/Kg group (~46%) compared to 4U/Kg group (~11%). Moreover, normalisation by Nintedanib of differentially modulated IPF-associated genes was more evident in 2 X 2U/Kg group. Conclusions: Our study provides a novel improved BLM rat model of IPF that is sensitive to the effect of Nintedanib and functional to assess efficacy in drug development.