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Review
. 2019 Sep 19;54(3):1900161.
doi: 10.1183/13993003.00161-2019. Print 2019 Sep.

Potential of nintedanib in treatment of progressive fibrosing interstitial lung diseases

Lutz Wollin  1 Jörg H W Distler  2 Elizabeth F Redente  3 David W H Riches  3   4 Susanne Stowasser  5 Rozsa Schlenker-Herceg  6 Toby M Maher  7   8 Martin Kolb  9
Affiliations
Review

Potential of nintedanib in treatment of progressive fibrosing interstitial lung diseases

Lutz Wollin et al. Eur Respir J. .

Abstract

A proportion of patients with fibrosing interstitial lung diseases (ILDs) develop a progressive phenotype characterised by decline in lung function, worsening quality of life and early mortality. Other than idiopathic pulmonary fibrosis (IPF), there are no approved drugs for fibrosing ILDs and a poor evidence base to support current treatments. Fibrosing ILDs with a progressive phenotype show commonalities in clinical behaviour and in the pathogenic mechanisms that drive disease worsening. Nintedanib is an intracellular inhibitor of tyrosine kinases that has been approved for treatment of IPF and has recently been shown to reduce the rate of lung function decline in patients with ILD associated with systemic sclerosis (SSc-ILD). In vitro data demonstrate that nintedanib inhibits several steps in the initiation and progression of lung fibrosis, including the release of pro-inflammatory and pro-fibrotic mediators, migration and differentiation of fibrocytes and fibroblasts, and deposition of extracellular matrix. Nintedanib also inhibits the proliferation of vascular cells. Studies in animal models with features of fibrosing ILDs such as IPF, SSc-ILD, rheumatoid arthritis-ILD, hypersensitivity pneumonitis and silicosis demonstrate that nintedanib has anti-fibrotic activity irrespective of the trigger for the lung pathology. This suggests that nintedanib inhibits fundamental processes in the pathogenesis of fibrosis. A trial of nintedanib in patients with progressive fibrosing ILDs other than IPF (INBUILD) will report results in 2019.

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Conflict of interest statement

Conflict of interest: L. Wollin is an employee of Boehringer Ingelheim Pharma GmbH & Co. KG. Conflict of interest: J.H.W. Distler has nothing to disclose. Conflict of interest: E.F. Redente has nothing to disclose. Conflict of interest: D.W.H. Riches has nothing to disclose. Conflict of interest: S. Stowasser is an employee of Boehringer Ingelheim International GmbH. Conflict of interest: R. Schlenker-Herceg is an employee of Boehringer Ingelheim Pharmaceuticals, Inc. Conflict of interest: T.M. Maher has, via his institution, received industry-academic funding from GlaxoSmithKline R&D and UCB; has received consultancy or speakers fees from Apellis, AstraZeneca, Bayer, Biogen Idec, Boehringer Ingelheim, Galapagos, GlaxoSmithKline R&D, Indalo, Pliant, ProMetic, Roche, Samumed and UCB; and has received consultancy fees from Galecto. Conflict of interest: M. Kolb reports grants and personal fees for consultancy and lecturing from Roche and Boehringer Ingelheim, grants and personal fees for consultancy from GSK, Gilead and Prometic, grants from Actelion, Respivert, Alkermes and Pharmaxis, personal fees for consultancy from Genoa, Indalo and Third Pole, outside the submitted work.

Figures

FIGURE 1
FIGURE 1
Mechanisms known to be involved in the pathogenesis and progression of fibrosing interstitial lung diseases. EMT: epithelial–mesenchymal transition; PDGF: platelet-derived growth factor; VEGF: vascular endothelial growth factor; bFGF: basic fibroblast growth factor; MVE: microvascular epithelium; FMT: fibroblast–myofibroblast transition; ECM: extracellular matrix. Tissue damage may occur at the alveolar epithelial and/or microvascular endothelial sites. Fibroblasts are recruited from resident fibroblasts, circulating fibrocytes, and epithelial cells and fibrocytes undergoing EMT. Growth factors are released by the damaged epithelium and endothelium, and leukocytes are recruited. Mononuclear cells and T-cells release pro-fibrotic mediators. Activated fibroblasts transition to myofibroblasts (FMT), which release excessive amounts of ECM. This results in increased tissue stiffness, which further stimulates fibroblast activation, leading to self-sustaining fibrosis.
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