miR‐9‐5p suppresses pro‐fibrogenic transformation of fibroblasts and prevents organ fibrosis by targeting
            <scp>NOX</scp>
            4 and
            <scp>TGFBR</scp>
            2

Fierro-Fernández, Marta; Busnadiego, Óscar; Sandoval, Pilar; Espinosa‐Díez, Cristina; Blanco‐Ruiz, Eva; Rodríguez, Macarena; Pián, Héctor; Ramos, Ricardo; López–Cabrera, Manuel; García‐Bermejo, Maria Laura; Lamas, Santiago

doi:10.15252/embr.201540750

Cited by 90 publications

(91 citation statements)

References 84 publications

(120 reference statements)

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“…Likewise, levels of the miR-17 ~ 92 cluster were also decreased in IPF patients, probably caused by a feedback loop involving reduced targeting of DNA methyltransferase (DNMT1) leading to altered DNA methylation patterns at the miR-17~92 promoter (Dakhlallah et al, 2013). Moreover, both miR-9-5p and miR-153 repressed experimental fibrosis in cells and mice by targeting the 3′ UTR of TGF-β receptor 2 (TGFBR2), a mechanism similar to that of miR-1343 discussed previously (Fierro-Fernández et al, 2015;Liang et al, 2015;Stolzenburg et al, 2016). Though miR-153 levels were decreased in the cell-based model of IPF, consistent with the anti-fibrotic role of this miRNA hypothesized by Liang and colleagues, miR-9-5p levels were increased in human pulmonary fibrosis samples (Fierro-Fernández et al, 2015;Liang et al, 2015).…”

Section: Idiopathic Pulmonary Fibrosismentioning

confidence: 52%

“…Moreover, both miR-9-5p and miR-153 repressed experimental fibrosis in cells and mice by targeting the 3′ UTR of TGF-β receptor 2 (TGFBR2), a mechanism similar to that of miR-1343 discussed previously (Fierro-Fernández et al, 2015;Liang et al, 2015;Stolzenburg et al, 2016). Though miR-153 levels were decreased in the cell-based model of IPF, consistent with the anti-fibrotic role of this miRNA hypothesized by Liang and colleagues, miR-9-5p levels were increased in human pulmonary fibrosis samples (Fierro-Fernández et al, 2015;Liang et al, 2015). These findings underscore the complex mechanisms driving miRNA regulation and indicate that miRNA mis-expression may either be a driver or a consequence of disease.…”

Section: Idiopathic Pulmonary Fibrosismentioning

confidence: 67%

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The role of microRNAs in chronic respiratory disease: recent insights

Stolzenburg¹,

Harris²

2017

Biological Chemistry

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Chronic respiratory diseases encompass a group of diverse conditions affecting the airways, which all impair lung function over time. They include cystic fibrosis (CF), idiopathic pulmonary fibrosis (IPF), chronic obstructive pulmonary disease (COPD) and asthma, which together affect hundreds of millions of people worldwide. MicroRNAs (miRNAs), a class of small non-coding RNAs involved in post-transcriptional gene repression, are now recognized as major regulators in the development and progression of chronic lung disease. Alterations in miRNA abundance occur in lung tissue, inflammatory cells, and freely circulating in blood and are thought to function both as drivers and modifiers of disease. Their importance in lung pathology has prompted the development of miRNA-based therapies and biomarker tools. Here, we review the current literature on miRNA expression and function in chronic respiratory disease and highlight further research that is needed to propel miRNA treatments for lung disorders towards the clinic.

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Section: Idiopathic Pulmonary Fibrosismentioning

confidence: 52%

Section: Idiopathic Pulmonary Fibrosismentioning

confidence: 67%

The role of microRNAs in chronic respiratory disease: recent insights

Stolzenburg¹,

Harris²

2017

Biological Chemistry

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“…29 It has been shown that activation of TGF-b-Smad signaling induces the expression of specific miRNAs that, in turn, may modulate TGF-b-Smad signaling in a feedback manor. [30][31][32] For example, TGF-b1 induces miR-9-5p expression, while overexpression of miR-9-5p in lung fibroblasts inhibits TGFbRII expression and prevents myofibroblast differentiation, ECM deposition, and organ fibrogenesis. 31 Here, we found that TGF-b1 induces a decrease in miR-18a-5p.…”

Section: Discussionmentioning

confidence: 99%

“…[30][31][32] For example, TGF-b1 induces miR-9-5p expression, while overexpression of miR-9-5p in lung fibroblasts inhibits TGFbRII expression and prevents myofibroblast differentiation, ECM deposition, and organ fibrogenesis. 31 Here, we found that TGF-b1 induces a decrease in miR-18a-5p. In order to clarify how miR-18a-5p regulates TGF-b-Smad signaling, we first measured TGF-b1.…”

Section: Discussionmentioning

confidence: 99%

miR-18a-5p Inhibits Sub-pleural Pulmonary Fibrosis by Targeting TGF-β Receptor II

Zhang

Yue²,

Fei³

et al. 2017

Molecular Therapy

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“…Given the important role of TGF-β on EMT process, therapeutic interventions that utilize small chemicals or genetic technology to interfere with TGF-β signaling at various transduction steps have been developed to reverse the established fibrosis (Chakraborty et al 2014;Fukunaga et al 2015). For instance, miRNA or chemokine was reported to reverse fibrosis in the rodent animals or cell lines in vitro (Fierro-Fernandez et al 2015;O'Beirne et al 2015). Apart from the genetic approaches, small chemicals targeting TGF-β signaling cascade have strong therapeutic potential in preclinical settings (Nanthakumar et al 2015).…”

Section: Discussionmentioning

confidence: 99%

Sunitinib, a Small-Molecule Kinase Inhibitor, Attenuates Bleomycin-Induced Pulmonary Fibrosis in Mice

Huang

Wang

Yuan

et al. 2016

Tohoku J. Exp. Med.

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Idiopathic pulmonary fibrosis (IPF) is a chronic and ultimately fatal disease, characterized by excessive accumulation of fibroblasts, extensive deposition of extracellular matrix, and destruction of alveolar architecture. IPF is associated with an epithelial-dependent fibroblast-activated process, termed the epithelial-to-mesenchymal transition (EMT). However, there is still a lack of strategies to target EMT for the treatment of IPF. Sunitinib, a small-molecule multi-targeted tyrosine kinase inhibitor, targets multiple kinases that may play an important role in developing pulmonary fibrosis. Here, we explored the therapeutic potential of sunitinib using a mouse model of pulmonary fibrosis. Mice received intratracheal instillation of bleomycin (BLM). Then, the mice were intragastrically administrated with sunitinib or normal saline until the end of the experiment. Distinguished destruction of pulmonary architecture, conspicuous proliferation of fibroblasts and extensive deposition of collagen fibers were found in BLM mice. Sunitinib attenuated the pulmonary fibrosis and inhibited the accumulation of fibroblasts in the lung of BLM mice. To investigate if the inhibition of fibroblast accumulation in the lung by sunitinib was associated with EMT, we used human bronchial epithelial cells (HBEs) and W138 human lung fibroblasts. Sunitinib suppressed the degree of EMT induced by TGF-β, a profibrotic factor, in HBEs and the proliferation of WI38 fibroblasts. Moreover, sunitinib reduced the degree of phosphorylation of serine residues on Smad2/3 that was induced by TGF-β in HBEs. As EMT and accumulation of fibroblasts are critical for the development of pulmonary fibrosis, targeting multiple pro-fibrosis signaling pathways with sunitinib may be a novel strategy to treat pulmonary fibrosis.

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miR‐9‐5p suppresses pro‐fibrogenic transformation of fibroblasts and prevents organ fibrosis by targeting NOX 4 and TGFBR 2

Cited by 90 publications

References 84 publications

The role of microRNAs in chronic respiratory disease: recent insights

The role of microRNAs in chronic respiratory disease: recent insights

miR-18a-5p Inhibits Sub-pleural Pulmonary Fibrosis by Targeting TGF-β Receptor II

Sunitinib, a Small-Molecule Kinase Inhibitor, Attenuates Bleomycin-Induced Pulmonary Fibrosis in Mice

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