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miR-205-5p drives endothelial dysfunction and senescence in pulmonary fibrosis
Giuseppe Muscato, Benjamin B. Roos, Sharonda Harris, Xiaoyu Tracy Cai, Gina Civettini, Enrico Sciacca, Ahmed A. Raslan, Alessandra Castaldi, Sharon Elliot, Marilyn K. Glassberg, Carlo Vancheri, Daniel J. Tschumperlin, Giovanni Ligresti, Nunzia Caporarello
Giuseppe Muscato, Benjamin B. Roos, Sharonda Harris, Xiaoyu Tracy Cai, Gina Civettini, Enrico Sciacca, Ahmed A. Raslan, Alessandra Castaldi, Sharon Elliot, Marilyn K. Glassberg, Carlo Vancheri, Daniel J. Tschumperlin, Giovanni Ligresti, Nunzia Caporarello
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Research Article Pulmonology Vascular biology

miR-205-5p drives endothelial dysfunction and senescence in pulmonary fibrosis

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Abstract

Idiopathic pulmonary fibrosis (IPF) is a fatal, aging-related disease characterized by persistent lung fibroblast activation, progressive lung scarring, and several vascular abnormalities. We have previously demonstrated that aging-associated vascular dysfunction drives maladaptive endothelial responses to injury and exacerbates lung fibrosis via secretion of profibrotic endothelial cell–derived factors. However, regulatory mechanisms governing endothelial dysfunction during progressive lung fibrosis remain poorly understood. Here, using preclinical mouse models of progressive lung fibrosis as well as human IPF lungs, we demonstrate that miR-205-5p was overexpressed in lung endothelial cells (ECs) from fibrotic lungs and coordinated gene expression programs implicated in endothelial dysfunction and progressive fibrosis. Mechanistically, miR-205-5p induced senescence in lung ECs, mirroring the senescent phenotype of IPF lung ECs. Consistently, conditioned medium derived from lung ECs overexpressing miR-205-5p promoted lung fibroblast activation. Importantly, miR-205-5p inhibition in IPF lung ECs attenuated endothelial senescence and limited paracrine fibroblast activation. Finally, inhibition of miR-205-5p in vivo preserved the pulmonary vascular network and attenuated lung fibrosis progression in aged mice challenged with bleomycin. Collectively, our findings support what we believe to be a novel connection among lung endothelial miR-205-5p, endothelial senescence, and profibrotic alteration of the endothelial secretome and highlight miR-205-5p inhibition as a potential therapeutic intervention for pulmonary fibrosis.

Authors

Giuseppe Muscato, Benjamin B. Roos, Sharonda Harris, Xiaoyu Tracy Cai, Gina Civettini, Enrico Sciacca, Ahmed A. Raslan, Alessandra Castaldi, Sharon Elliot, Marilyn K. Glassberg, Carlo Vancheri, Daniel J. Tschumperlin, Giovanni Ligresti, Nunzia Caporarello

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Figure 2

Lung endothelial miR-205-5p is overexpressed in IPF lung ECs and colocalizes with vessels near fibroblastic foci.

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Lung endothelial miR-205-5p is overexpressed in IPF lung ECs and colocal...
(A) Schematic depicting our isolation protocol employed to purify lung ECs from control and IPF lungs (created with a licensed version of BioRender.com). (B) Purified lung ECs express the pan-endothelial marker PECAM1 (green). (C) qPCR shows higher levels of miR-205-5p in IPF lung ECs compared with healthy lung ECs, whereas no difference is observed in miR-34a-5p levels. snU6 was used as normalization control. Data are shown as mean ± SD (healthy, n = 4 donors; IPF, n = 7 patients), and P values were calculated using Student’s t test. (D) Representative combined immunofluorescence and miRNA Scope images of 1 healthy lung tissue and 1 IPF lung tissue. Ulex europaeus I lectin was used to stain vessels (red), αSMA antibody as marker of activated fibroblasts (white), miR-205-5p probe to detect human miR-205-5p, and DAPI for nuclei (blue). Scale bar: 50 μm.

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