Experimental lung research
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Idiopathic pulmonary fibrosis (IPF) is characterized by interstitial lung infiltrates, dyspnea, and progressive respiratory failure. Reports linking telomerase mutations to familial interstitial pneumonia (FIP) suggest that telomerase activity and telomere length maintenance are important in disease pathogenesis. To investigate the role of telomerase in lung fibrotic remodeling, intratracheal bleomycin was administered to mice deficient in telomerase reverse transcriptase (TERT) or telomerase RNA component (TERC) and to wild-type controls. ⋯ Telomere lengths were reduced in peripheral blood leukocytes and isolated type II AECs from F6 TERT-deficient and F4 TERC-deficient mice compared to controls. Telomerase deficiency in a murine model leads to telomere shortening, but does not predispose to enhanced bleomycin-induced lung fibrosis. Additional genetic or environmental factors may be necessary for development of fibrosis in the presence of telomerase deficiency.
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Chronic allograft rejection and bronchiolitis obliterans (BO) limited successful long-term outcome after lung transplantation (LTX). Reliable animal models are needed to study the pathogenesis of BO and to develop effective therapeutic strategies. The relevance of an available experimental LTX model without immunosuppression-the Fischer (F344)-Wistar Kyoto (WKY) rat strain combination-was analyzed. ⋯ At the same time, the allografts with BO-like lesions increased up to 100% in rats from CR. The F344-to-WKY rat LTX model allows detailed assessment of all features of acute and chronic pulmonary rejection representing a clinically relevant model. However, due to breeding differences resulting in various sublines of the same rat strain, the source and husbandary history of the animals is important for analysis of immuno-mediated processes.