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Sustained activation of toll-like receptor 9 induces an invasive phenotype in lung fibroblasts: Possible implications in idiopathic pulmonary fibrosis

Kirillov, Varvara and Siler, Jonathan and Ramadass, Mahalakshmi and Ge, Lingying and Jarai, Gabor and Trujillo, Glenda (2015) Sustained activation of toll-like receptor 9 induces an invasive phenotype in lung fibroblasts: Possible implications in idiopathic pulmonary fibrosis. American Journal of Pathology, 185 (4). pp. 943-957. ISSN 1525-2191

Abstract

Idiopathic pulmonary fibrosis (IPF) is characterized by excessive scarring of the lung parenchyma, resulting in a steady decline of lung function and ultimately respiratory failure. The disease course of IPF is extremely variable, with some patients exhibiting stability of symptoms for prolonged periods of time, whereas others exhibit rapid progression and loss of lung function. Viral infections have been implicated in IPF and linked to disease severity; however, whether they directly contribute to progression is unclear. We previously classified patients as rapid and slow progressors on the basis of clinical features and expression of the pathogen recognition receptor, Toll-like receptor 9 (TLR9). Activation of TLR9 in vivo exacerbated IPF in mice and induced differentiation of myofibroblasts in vitro, but the mechanism of TLR9 up-regulation and progression of fibrosis are unknown. Herein, we investigate whether transforming growth factor (TGF)-β, a pleiotropic cytokine central to IPF pathogenesis, regulates TLR9 in lung myofibroblasts. Results showed induction of TLR9 expression by TGF-β in lung myofibroblasts and a distinct profibrotic myofibroblast phenotype driven by stimulation with the TLR9 agonist, CpG-DNA. Chronic TLR9 stimulation resulted in stably differentiated α-smooth muscle actin+/platelet-derived growth factor receptor α+/CD44+/matrix metalloproteinase-14+/matrix metalloproteinase-2+ myofibroblasts, which secrete inflammatory cytokines, invade Matrigel toward platelet-derived growth factor, and resist hypoxia-induced apoptosis. These results suggest a mechanism by which TGF-β and TLR9 responses in myofibroblasts collaborate to drive rapid progression of IPF.

Item Type: Article
Date Deposited: 25 Nov 2017 00:45
Last Modified: 25 Jan 2019 00:46
URI: https://oak.novartis.com/id/eprint/20526

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