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miR-323a-3p regulates lung fibrosis by targeting multiple profibrotic pathways
Lingyin Ge, David M. Habiel, Phil M. Hansbro, Richard Y. Kim, Sina A. Gharib, Jeffery D. Edelman, Melanie Königshoff, Tanyalak Parimon, Rena Brauer, Ying Huang, Jenieke Allen, Dianhua Jiang, Adrianne A. Kurkciyan, Takako Mizuno, Barry R. Stripp, Paul W. Noble, Cory M. Hogaboam, Peter Chen
Lingyin Ge, David M. Habiel, Phil M. Hansbro, Richard Y. Kim, Sina A. Gharib, Jeffery D. Edelman, Melanie Königshoff, Tanyalak Parimon, Rena Brauer, Ying Huang, Jenieke Allen, Dianhua Jiang, Adrianne A. Kurkciyan, Takako Mizuno, Barry R. Stripp, Paul W. Noble, Cory M. Hogaboam, Peter Chen
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Research Article Pulmonology

miR-323a-3p regulates lung fibrosis by targeting multiple profibrotic pathways

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Abstract

Maladaptive epithelial repair from chronic injury is a common feature in fibrotic diseases, which in turn activates a pathogenic fibroblast response that produces excessive matrix deposition. Dysregulated microRNAs (miRs) can regulate expression of multiple genes and fundamentally alter cellular phenotypes during fibrosis. Although several miRs have been shown to be associated with lung fibrosis, the mechanisms by which miRs modulate epithelial behavior in lung fibrosis are lacking. Here, we identified miR-323a-3p to be downregulated in the epithelium of lungs with bronchiolitis obliterans syndrome (BOS) after lung transplantation, idiopathic pulmonary fibrosis (IPF), and murine bleomycin-induced fibrosis. Antagomirs for miR-323a-3p augment, and mimics suppress, murine lung fibrosis after bleomycin injury, indicating that this miR may govern profibrotic signals. We demonstrate that miR-323a-3p attenuates TGF-α and TGF-β signaling by directly targeting key adaptors in these important fibrogenic pathways. Moreover, miR-323a-3p lowers caspase-3 expression, thereby limiting programmed cell death from inducers of apoptosis and ER stress. Finally, we find that epithelial expression of miR-323a-3p modulates inhibitory crosstalk with fibroblasts. These studies demonstrate that miR-323a-3p has a central role in lung fibrosis that spans across murine and human disease, and downregulated expression by the lung epithelium releases inhibition of various profibrotic pathways to promote fibroproliferation.

Authors

Lingyin Ge, David M. Habiel, Phil M. Hansbro, Richard Y. Kim, Sina A. Gharib, Jeffery D. Edelman, Melanie Königshoff, Tanyalak Parimon, Rena Brauer, Ying Huang, Jenieke Allen, Dianhua Jiang, Adrianne A. Kurkciyan, Takako Mizuno, Barry R. Stripp, Paul W. Noble, Cory M. Hogaboam, Peter Chen

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Figure 4

miR-323a-3p targets SMAD2 to suppress TGF-β signaling.

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miR-323a-3p targets SMAD2 to suppress TGF-β signaling.
(A) miR-323a-3p b...
(A) miR-323a-3p binding sites in the SMAD2 3′ UTR. (B) Western blot for SMAD2 in cell lysates from 16HBE14o- cells transfected with miR-323a-3p mimics or control. A representative blot is presented from 3 individual experiments. (C) Luciferase activity of HEK cells transfected with a reporter plasmid containing a chimeric firefly luciferase with the SMAD2 3′ UTR. All data were normalized to Renilla luciferase activity. n = 3, *P < 0.001. (D and E) 16HBE14o- cells transfected with miR-323a-3p mimic or control were stimulated with TGF-β and processed for PCR for measuring levels of (D) CDH2 and (E) VIM. n = 4, *P < 0.01. Data are presented as box-and-whisker plots. The central horizontal bars indicate the medians, boxes indicate 25th to 75th percentiles, and whiskers indicate 1.5 times the interquartile range from the bottom and the top of the box. Statistical analysis in this figure was performed with the Student’s t test.

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ISSN 2379-3708

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