Role of endothelial cells in pulmonary fibrosis via SREBP2 activation
Marcy Martin, Jiao Zhang, Yifei Miao, Ming He, Jian Kang, Hsi-Yuan Huang, Chih-Hung Chou, Tse-Shun Huang, Hsiao-Chin Hong, Shu-Han Su, Simon S. Wong, Rebecca L. Harper, Lingli Wang, Rakesh Bhattacharjee, Hsien-Da Huang, Zhen Bouman Chen, Atul Malhotra, Marlene Rabinovitch, James S. Hagood, John Y-J. Shyy
Marcy Martin, Jiao Zhang, Yifei Miao, Ming He, Jian Kang, Hsi-Yuan Huang, Chih-Hung Chou, Tse-Shun Huang, Hsiao-Chin Hong, Shu-Han Su, Simon S. Wong, Rebecca L. Harper, Lingli Wang, Rakesh Bhattacharjee, Hsien-Da Huang, Zhen Bouman Chen, Atul Malhotra, Marlene Rabinovitch, James S. Hagood, John Y-J. Shyy
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Research Article Pulmonology Vascular biology

Role of endothelial cells in pulmonary fibrosis via SREBP2 activation

Abstract

Idiopathic pulmonary fibrosis (IPF) is a progressive lung disease with limited treatment options. Despite endothelial cells (ECs) comprising 30% of the lung cellular composition, the role of EC dysfunction in pulmonary fibrosis (PF) remains unclear. We hypothesize that sterol regulatory element-binding protein 2 (SREBP2) plays a critical role in the pathogenesis of PF via EC phenotypic modifications. Transcriptome data demonstrate that SREBP2 overexpression in ECs led to the induction of the TGF, Wnt, and cytoskeleton remodeling gene ontology pathways and the increased expression of mesenchymal genes, such as snail family transcriptional repressor 1 (snai1), α-smooth muscle actin, vimentin, and neural cadherin. Furthermore, SREBP2 directly bound to the promoter regions and transactivated these mesenchymal genes. This transcriptomic change was associated with an epigenetic and phenotypic switch in ECs, leading to increased proliferation, stress fiber formation, and ECM deposition. Mice with endothelial-specific transgenic overexpression of SREBP2 (EC-SREBP2[N]-Tg mice) that were administered bleomycin to induce PF demonstrated exacerbated vascular remodeling and increased mesenchymal transition in the lung. SREBP2 was also found to be markedly increased in lung specimens from patients with IPF. These results suggest that SREBP2, induced by lung injury, can exacerbate PF in rodent models and in human patients with IPF.

Authors

Marcy Martin, Jiao Zhang, Yifei Miao, Ming He, Jian Kang, Hsi-Yuan Huang, Chih-Hung Chou, Tse-Shun Huang, Hsiao-Chin Hong, Shu-Han Su, Simon S. Wong, Rebecca L. Harper, Lingli Wang, Rakesh Bhattacharjee, Hsien-Da Huang, Zhen Bouman Chen, Atul Malhotra, Marlene Rabinovitch, James S. Hagood, John Y-J. Shyy

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Figure 2

SREBP2 transactivates mesenchymal genes.

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SREBP2 transactivates mesenchymal genes. (A) HUVECs were infected with A...
(A) HUVECs were infected with Ad-SREBP2(N) or empty vector (Ad-null). The levels of mRNA of the indicated genes were measured by qPCR. (B) Depiction of the predicted sterol regulatory elements (SREs) in the promoter regions of snail family transcriptional repressor 1 (snai1), α-smooth muscle actin (αSMA), N-Cadherin (N-Cad), and vimentin (Vim). (C and D) HUVECs were infected with Ad-SREBP2(N) or empty vector (Ad-Null). (C) Chromatin immunoprecipitation (ChIP) assays were performed on the promoter region of SNAI1 (encoding snai1), ACTA2 (encoding αSMA), CDH2 (encoding N-Cad), and VIM (encoding Vim). (D) Luciferase activity was measured and normalized to that of Renilla. FL, full length promoter; Del, SRE site deletion. (E) HUVECs were transfected with SREBP2 or scrambled control siRNA (20 nM) for 16 hours prior to stimulation with bleomycin (BLM) for an additional 48 hours. (F) HUVECs were pretreated with betulin (Bet) (6 μg/mL) for 2 hours, followed by BLM treatment for an additional 72 hours. The expression of the indicated proteins was measured by Western blot. Data in A and C were analyzed by 2-tailed Student’s t test; data are represented as mean ± SEM from 3 independent experiments (n = 3). Data in DF were analyzed by 1-way ANOVA with Bonferroni post hoc; data are represented as mean ± SEM from 3 independent experiments (n = 3). *P < 0.05 between the indicated groups.