The evolution of<i>in vitro</i>models of lung fibrosis: promising prospects for drug discovery

Kolanko, Emanuel; Cargnoni, Anna; Papait, Andrea; Silini, Antonietta Rosa; Czekaj, Piotr; Parolini, Ornella

doi:10.1183/16000617.0127-2023

Eur Respir Rev

2024

DOI: 10.1183/16000617.0127-2023

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The evolution ofin vitromodels of lung fibrosis: promising prospects for drug discovery

Emanuel Kolanko,

Anna Cargnoni,

Andrea Papait

et al.

Abstract: Lung fibrosis is a complex process, with unknown underlying mechanisms, involving various triggers, diseases and stimuli. Different cell types (epithelial cells, endothelial cells, fibroblasts and macrophages) interact dynamically through multiple signalling pathways, including biochemical/molecular and mechanical signals, such as stiffness, affecting cell function and differentiation. Idiopathic pulmonary fibrosis (IPF) is the most common fibrosing interstitial lung disease (fILD), characterised by a notably … Show more

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Cited by 5 publications

References 137 publications

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Cromolyn sodium and masitinib combination inhibits fibroblast‐myofibroblast transition and exerts additive cell‐protective and antioxidant effects on a bleomycin‐induced in vitro fibrosis model

Göksu,

Dirol,

Kocanci

2024

Pharmacology Res & Perspec

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Idiopathic pulmonary fibrosis (IPF) is a progressive and fatal fibrotic lung disease. While recent studies have suggested the potential efficacy of tyrosine kinase inhibitors in managing IPF, masitinib, a clinically used tyrosine kinase inhibitor, has not yet been investigated for its efficacy in fibrotic lung diseases. In a previous study on an in vitro neurodegenerative model, we demonstrated the synergistic antitoxic and antioxidant effects of masitinib combined with cromolyn sodium, an FDA‐approved mast cell stabilizer. This study aims to investigate the anti‐fibrotic and antioxidant effects of the masitinib‐cromolyn sodium combination in an in vitro model of pulmonary fibrosis. Fibroblast cell cultures treated with bleomycin and/or hydrogen peroxide (H2O2) were subjected to masitinib and/or cromolyn sodium, followed by assessments of cell viability, morphological and apoptotic nuclear changes, triple‐immunofluorescence labeling, and total oxidant/antioxidant capacities, besides ratio of Bax and Bcl‐2 mRNA expressions as an indication of apoptosis. The combined treatment of masitinib and cromolyn sodium effectively prevented the fibroblast myofibroblast transition, a hallmark of fibrosis, and significantly reduced bleomycin / H2O2‐induced apoptosis and oxidative stress. This study is the first to demonstrate the additive anti‐fibrotic, cell‐protective, and antioxidant effects of the masitinib‐cromolyn sodium combination in an in vitro fibrosis model, suggesting its potential as an innovative therapeutic approach for pulmonary fibrosis. Combination therapy may be more advantageous in that both drugs could be administered in lower doses, exerting less side effects, and at the same time providing diverse mechanisms of action simultaneously.

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Cromolyn sodium and masitinib combination inhibits fibroblast‐myofibroblast transition and exerts additive cell‐protective and antioxidant effects on a bleomycin‐induced in vitro fibrosis model

Göksu,

Dirol,

Kocanci

2024

Pharmacology Res & Perspec

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Novel air-liquid interface culture model to investigate stiffness-dependent behaviors of alveolar epithelial cells

Takahashi,

Ito,

Wang

et al. 2024

Biochemical and Biophysical Research Communications

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CSF3 aggravates acute exacerbation of pulmonary fibrosis by disrupting alveolar epithelial barrier integrity

Guo,

Liu,

et al. 2024

International Immunopharmacology

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The evolution ofin vitromodels of lung fibrosis: promising prospects for drug discovery

Cited by 5 publications

References 137 publications

Cromolyn sodium and masitinib combination inhibits fibroblast‐myofibroblast transition and exerts additive cell‐protective and antioxidant effects on a bleomycin‐induced in vitro fibrosis model

Cromolyn sodium and masitinib combination inhibits fibroblast‐myofibroblast transition and exerts additive cell‐protective and antioxidant effects on a bleomycin‐induced in vitro fibrosis model

Novel air-liquid interface culture model to investigate stiffness-dependent behaviors of alveolar epithelial cells

CSF3 aggravates acute exacerbation of pulmonary fibrosis by disrupting alveolar epithelial barrier integrity

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